KR101278649B1 - Chassis frame for installing glass wall - Google Patents

Abstract

The present invention relates to a chassis frame for installing a glass wall, the heat insulating molding material of polycarbonate (PC: polycarbonate) is mounted in the middle of the cross section of the chassis frame made of a stainless steel square bar to block the cold air transmitted from the glass wall Filling grooves are formed at both edges of the insulating molding material, respectively, to fill the epoxy, and the stainless steel square bar edges of the chassis frame are bent and fixed by pressing. It is made of a secured configuration.
According to the chassis frame for installing the glass wall according to the present invention, the insulating molding material effectively blocks the cold air transferred through the heat conduction phenomenon in the glass wall during the winter, and the insulating material such as foamed steel polopol inserted into the chassis frame is inserted into the chassis frame. By effectively blocking the cold air passing through the cross section, an excellent effect of effectively preventing condensation from occurring on the interior side of the chassis frame is obtained.

Description

Chassis frame for glass wall installation {CHASSIS FRAME FOR INSTALLING GLASS WALL}

The present invention relates to a chassis frame for installing a glass wall, and more particularly, a heat insulating molding material of polycarbonate (PC) is mounted in the middle of a cross section of a chassis frame made of a stainless steel square bar to be transferred from the glass wall. Blocks cold air, fills epoxy at both edges of insulation molding material, fills epoxy, bends the stainless steel square bar edge of the chassis frame, press-fits and fixes it, and inserts insulation inside the strainless square bar. Therefore, the present invention relates to a chassis frame for glass wall installation, which effectively prevents condensation from occurring and energy loss by securing heat insulation performance.

In general, as shown in FIG. 1, it is common to install a chassis frame 10 made of stainless square bars and to construct a glass wall 20 made of tempered glass, as shown in FIG. 1.

The chassis frame 10 made of such a stainless square bar constitutes a square frame by combining the vertical bar 22 and the horizontal bar 24. The chassis frame 10 is easy and simple to install, the durability is guaranteed, and the appearance is beautiful after installation. Advantages that are easy to manage are obtained.

And the chassis frame 10 made of such a stainless square bar is often equipped with a layer of glass, such a layer of glass is a combination of two or more pieces of glass at a predetermined interval, the spacer to combine while maintaining the gap between the glass. use. Such spacers are generally located along the edge of the glass between the two sheets of glass.

In general, since the laminated glass has a space formed between the inner and outer glass, not only does it minimize the loss of energy in the room compared to the single glass, but the surface temperature of the inner glass decreases relatively less even though the outer temperature is lowered. Dew condensation is suppressed. In addition, it is excellent in sound insulation performance can effectively block the transmission of noise between the indoor and outdoor.

Although such a multilayer glass is relatively expensive, its use is gradually increasing due to the enhancement of the living environment and the development of its manufacturing technology due to the improvement of economic power. In other words, the demand for multilayer glass is gradually increasing in response to the desire of consumers to pursue a more comfortable living environment from noise, from large buildings to small stores and private houses.

2 illustrates a state in which a common glass wall 20 is installed in a chassis frame 10 made of stainless square bars.

As shown in FIG. 2, the glass wall 20 is installed on one side of the chassis frame 10 with its edges interviewed and molded through a molding material 30 such as silicon along the edges thereof. And is fixed to the chassis frame 10.

However, the chassis frame 10 made of such a conventional stainless square bar is a stainless steel plate bent in a rectangular cross section, the interior is made of an empty space 40 is poor thermal insulation performance.

In addition, the chassis frame 10 made of such a conventional stainless square bar is formed by molding with a molding material 30 such as silicon in a state where the glass wall 20 is directly interviewed on one side thereof. Since it is fixed, in the winter season, the cold air transmitted from the glass wall 20 cooled by the outdoor cold air is transmitted through the heat conduction phenomenon directly to the chassis frame side without any limitation.

Therefore, the cold air transmitted from the outdoor side to the indoor side through the chassis frame 10 made of the conventional stainless square bar is condensation phenomenon 50 by the hot air at the indoor side of the chassis frame 10, so-called dew formation. It caused the phenomenon, and had a problem of increasing the energy loss of the building.

An object of the present invention is to solve the conventional problems as described above, to block the cold air transmitted through the heat conduction phenomenon from the glass wall of the cooled state in the winter, to ensure excellent thermal insulation performance on the indoor side of the chassis frame The present invention provides an improved chassis frame for installing glass walls to effectively prevent condensation from occurring.

And another object of the present invention is to provide a chassis frame for glass wall installation improved to minimize the energy loss of the building emitted through the chassis frame in winter.

In order to achieve the above object, the present invention provides a chassis frame for installing a glass wall,

A vertical bar body formed by bending a metal material;

A vertical bar insulation molding material disposed at an intermediate portion of the vertical bar body to be interviewed at a side edge of the glass wall, and having both side edges bent and fixed by bending the corners of the metal material of the vertical bar body; And

It provides a chassis frame for glass wall installation configured to use as a vertical bar by contacting the side edges of the glass wall to the vertical bar heat insulating molding material, including a heat insulating material inserted into the interior of the vertical bar body, and fixed through a silicone molding material. do.

In addition, the present invention is preferably the vertical bar heat insulating molding material is formed in each recess concave with the fitting grooves on both sides, each of the fitting grooves filled with an epoxy resin, respectively, the edge of the metal material of the vertical bar body Provided is a chassis frame for glass wall installation, which is bent by 180 ° and press-fitted.

In another aspect, the present invention preferably provides a vertical frame heat insulating molding material is a glass frame installation chassis frame made by molding a polycarbonate (PC: polycarbonate) material.

In order to achieve the above object, the present invention provides a chassis frame for installing a glass wall,

A horizontal bar body formed by bending a metal material;

A horizontal bar insulation molding material disposed at an intermediate portion of the horizontal bar body to be interviewed at the side edges of the glass wall, and having both side edges bent and fixed by bending the corners of the metal material of the horizontal bar body; And

It provides a chassis frame for glass wall installation configured to use the horizontal bar by contacting the side edges of the glass wall to the horizontal bar heat-insulated molding material, including a heat insulating material inserted into the interior of the horizontal bar body, and fixed through a silicone molding material. do.

And the present invention is preferably the horizontal bar heat insulating molding material is formed in the center of the glass mounting groove is inserted into the side edge of the glass wall is inserted into the recess, both sides of the glass mounting groove, respectively, the fitting groove is concave concave Each fitting groove is filled with an epoxy resin, and provides a chassis frame for fixing the glass wall by pressing and bending the edge of the metal material of the horizontal bar body by 180 °.

In another aspect, the present invention preferably provides the chassis frame for glass wall installation is formed by molding the horizontal bar insulation molding material polycarbonate (PC: polycarbonate) material.

The chassis frame for installing the glass wall according to the present invention is equipped with an insulating molding material of polycarbonate (PC) in the middle of the cross-section of the vertical bar and the horizontal bar of the chassis frame to effectively transfer the cold air from the glass wall to the heat conduction phenomenon. Block it.

Each side of each of the insulating molding material is formed by fitting grooves to fill the epoxy, respectively, bend the stainless square bar edge of the chassis frame by inserting and fixing it, and then inserting the heat insulating material inside the strainless square bar The insulation performance is largely secured.

Therefore, according to the chassis frame for installing the glass wall according to the present invention, the insulating molding material effectively blocks the cold air transferred through the heat conduction phenomenon in the glass wall in winter, and the thermal insulation material such as foamed steel polopol inserted into the chassis frame is By effectively blocking the cold air passing across the frame, condensation occurs on the inside of the chassis frame and the energy loss of the building is effectively prevented.

1 is a front view constructed by using a chassis frame made of stainless square bars and a glass wall made of tempered glass in a typical modern one-story mall building.
FIG. 2 is an explanatory diagram illustrating a problem that a glass wall is constructed in a chassis frame made of a conventional stainless square bar, and condensation occurs on the interior side of the chassis frame.
3 is an exploded perspective view illustrating a configuration in which the chassis frame for installing a glass wall according to the present invention is used as a vertical bar.
Figure 4 is an exploded perspective view showing a configuration in which the chassis frame for installing the glass wall according to the present invention is used as a horizontal bar.
5 is a cross-sectional view illustrating a configuration in which the chassis frame for installing a glass wall according to the present invention is used as a horizontal bar.

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

The glass frame mounting chassis frame 100 according to the present invention is applied to the vertical bar and the horizontal bar, respectively, and will be described in more detail with reference to FIG. 3.

The glass frame mounting chassis frame 100 according to the present invention has a vertical bar body 110 formed by bending a metal material.

The vertical bar main body 110 is formed in a columnar shape by bending a stainless steel plate in a rectangular cross section, and is structurally strong enough to support the glass wall 120 made of tempered glass, and its surface is beautiful. .

And the glass frame mounting chassis frame 100 according to the present invention is a vertical bar heat-insulated molding material disposed to interview the side edges 122 of the glass wall 120 in the middle portion of the vertical bar body 110 ( 130).

The vertical bar insulation molding member 130 forms fitting grooves 132a and 132b for bending and fixing the corners 112 of the metal material of the vertical bar body 110 at both sides of the vertical bar insulation molds. have.

The vertical bar insulation molding material 130 is preferably manufactured by molding a polycarbonate (PC) material, has a low heat transfer coefficient, and has excellent thermal barrier effect.

In addition, the vertical bar heat insulating molding member 130 is formed by recessing the fitting grooves 132a and 132b to both sides, respectively, such as each of the fitting grooves 132a and 132b, respectively, an epoxy resin (not shown). It is filled with, it is fixed by bending the corner 112 of the metal material of the vertical bar body 110 by 180 °.

As such, when the edge 112 of the stainless metal material of the vertical bar body 110 is bent by 180 ° and press-fitted and fixed using an epoxy resin, the side of the glass wall 120 is formed at the middle portion of the vertical bar body 110. The vertical bar insulation molding material 130 is integrally fixed to a portion interviewing the edge 122.

And the heat insulator 140 is inserted into the vertical bar body 110.

The heat insulating material 140 is preferably made of a material having excellent heat insulating performance, such as foamed Styrofoam, and effectively blocks cold or warm air transmitted through the vertical bar body 110.

The glass frame mounting chassis frame 100 according to the present invention configured as described above is in contact with the side edge 122 of the glass wall 120 to the vertical bar insulation molding material 130, and through the silicon molding material 126. Can be fixed and used as a vertical bar.

Next, a configuration in which the chassis frame 100 for installing a glass wall according to the present invention is used as a horizontal bar will be described in more detail with reference to FIGS. 4 and 5.

The glass frame mounting chassis frame 100 according to the present invention has a horizontal bar body 160 formed by bending a metal material.

Like the vertical bar body 110, the horizontal bar body 160 is a stainless steel plate bent in a rectangular cross section to produce a columnar shape, the cross-sectional size of the other is configured, glass wall 120 made of tempered glass ) Is structurally strong enough to support the surface, and the surface is beautiful.

And the glass frame mounting chassis frame 100 according to the present invention is a horizontal bar heat insulating molding material disposed so as to interview the side edge 122 of the glass wall 120 in the middle portion of the horizontal bar body 160 ( 170).

The horizontal bar insulation molding member 170 has a concave glass mounting groove 174 into which the side edge 122 of the glass wall 120 is inserted and is inserted into the center thereof, and the glass mounting groove 174 of On both sides, the fitting grooves 172a and 172b are formed concave to face each other.

The horizontal bar insulation molding member 170 is preferably manufactured by molding a polycarbonate (PC) material, has a low heat transfer coefficient, and has excellent thermal barrier effect.

In addition, the horizontal bar heat insulating molding member 170 is formed by recessing the fitting grooves 172a and 172b to both sides, respectively, and filling the epoxy resin with the respective fitting grooves 172a and 172b, respectively. The edge 162 of the metal material of the horizontal bar body 160 is bent by 180 ° and press-fitted.

As such, when the edge 162 of the stainless metal material of the horizontal bar body 160 is bent by 180 ° and press-fitted and fixed integrally using an epoxy resin (not shown), the glass is formed in the middle of the horizontal bar body 160. The side edges 122 of the wall 120 are inserted into the glass mounting grooves 174 to be stably fixed.

In addition, the heat insulating material 140 is inserted into the horizontal bar body 160.

The heat insulating material 140 is preferably made of a material having excellent heat insulating performance, such as foamed Styrofoam, and effectively blocks cold or warm air transmitted through the horizontal bar body 160.

The glass frame mounting chassis frame 100 according to the present invention configured as described above has a vertical bar insulation molding member 130 and a horizontal bar insulation molding member 170 of polycarbonate (PC) in the middle of the cross section of the vertical bar and the horizontal bar 170. ), Respectively, to effectively block the cold air transferred from the glass wall to the heat conduction phenomenon in winter.

That is, the vertical bar insulation molding member 130 and the horizontal bar insulation molding member 170 are manufactured by molding a polycarbonate (PC) material having a material property having a low heat transfer coefficient. great.

In addition, at both edges of each of the insulating molding members 130 and 170, fitting grooves 132a and 132b and 172a and 172b are formed to fill the epoxy, respectively, and stainless square bar edges of the chassis frame 100, that is, metal materials. Bending the corners 112 and 162, respectively, by bending and inserting the edges 112 and 162, and then inserting a heat insulating material 140 into the inside of the strainless square bar, ie, the vertical bar body 110 and the horizontal bar body 160, greatly improving heat insulation performance. It is secured.

Therefore, according to the chassis frame 100 for glass wall installation according to the present invention, the cold air transferred through the heat conduction phenomenon in the glass wall 120 in winter, vertical bar insulation molding material 130 and horizontal bar insulation molding material Each of the 170 blocks effectively, and the chassis frame, such as the thermal insulation material 140, such as foamed stiletto, which is inserted into the chassis frame 100 can effectively block the cold air passing across the chassis frame 100, the chassis frame The condensation phenomenon and the loss of energy on the indoor side of the 100 are effectively prevented.

Although the present invention has been described in detail with reference to specific embodiments thereof with reference to the accompanying drawings, the present invention is not limited to such specific structures. 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 in the following claims. However, it is intended that the present invention cover modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: chassis frame 20: glass wall
22: vertical bar 24: horizontal bar
30: molding material 40: empty space
50: Condensation phenomenon 100: Chassis frame for glass wall installation
110: vertical bar body 112: metal material edge
120: glass wall 122: side corners
126: molding material 130: vertical bar insulation molding material
132a, 132b: fitting groove 140: insulation
160: horizontal bar body 162: metal material corners
170: horizontal bar insulation molding material 172a, 172b: fitting groove
174: glass mounting groove

Claims (6)

In the chassis frame for installing a glass wall,
A vertical bar body formed by bending a metal material;
A vertical bar insulation molding material disposed at an intermediate portion of the vertical bar body to be interviewed at a side edge of the glass wall, and having both side edges bent and fixed by bending the corners of the metal material of the vertical bar body; And
Insulating material inserted into the interior of the vertical bar body; Including the side edge of the glass wall in contact with the vertical bar insulation molding material, and fixed through the silicone molding material for glass wall installation, characterized in that configured for use as a vertical bar Chassis frame. The method of claim 1, wherein the vertical bar heat insulating molding material is formed in each of the recesses facing each other with the fitting grooves, each of the fitting grooves are filled with an epoxy resin, respectively, the edge of the metal material of the vertical bar body 180 A glass frame mounting chassis frame characterized in that it is bent, pressed and fixed. The glass frame mounting chassis frame according to claim 1 or 2, wherein the vertical bar insulation molding material is formed by molding a polycarbonate (PC) material. In the chassis frame for installing a glass wall,
A horizontal bar body formed by bending a metal material;
A horizontal bar insulation molding material disposed at an intermediate portion of the horizontal bar body to be interviewed at the side edges of the glass wall, and having both side edges bent and fixed by bending the corners of the metal material of the horizontal bar body; And
Insulating material inserted into the interior of the horizontal bar body; including the side edge of the glass wall in contact with the horizontal bar insulating molding material, and fixed through the silicone molding material for glass wall installation, characterized in that configured for use as a horizontal bar Chassis frame. According to claim 4, wherein the horizontal bar heat insulating molding material is formed in the center of the glass mounting groove is inserted into the side edge of the glass wall is inserted into the concave, the fitting grooves on both sides of the glass mounting groove are concave facing each other Each fitting groove is filled with an epoxy resin, and the chassis frame for glass wall installation according to claim 1, wherein the edge of the metal material of the horizontal bar body is bent and fixed by bending 180 °. The glass frame mounting chassis frame according to claim 4 or 5, wherein the horizontal bar insulating molding material is formed by molding a polycarbonate (PC) material.

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