KR101547221B1 - Curtain wall having adjustable mounting structure corresponding to glass thickness and heat insulation structure - Google Patents

Abstract

The present invention relates to a curtain wall having a variable mounting structure, and an insulation structure corresponding to a thickness of a glass. The objective of the present invention is to provide the curtain wall having a mounting structure capable of adjusting a width in correspondence to a thickness of a constructed glass when the glass is mounted on the curtain wall, wherein the glass mounting structure comprises a curtain wall main frame and a separated insulation structure. The curtain wall having a mounting structure and an insulation structure in correspondence to a thickness of the glass comprises: a main frame (1) having a groove (101) in an outdoor direction; a support frame (3) coupled to the groove of the main frame with a first insulation member (2) having a coupling groove (301) in the outdoor direction; a second insulation member (4) having a coupling protrusion part (41) coupled to the coupling groove (301) of the support frame; a width-adjustable frame (5) coupled to the support frame (3) in a hold type to support a load of the glass, capable of adjusting the width by controlling a coupling position with the support frame when the thickness of the constructed glass is changed; a coupling member (7) coupled to the coupling groove formed on one end of the support frame (3) while penetrating the width-adjustable frame (5) and the second insulation member (4) from an outer insulation cover (6) installed in the outdoor surface of the width-adjustable frame; an outer cover (8) fitted in the outside of the outer insulation cover; and a glass support (9) having one end coupled to a fitting groove formed on the groove of the main frame to block air flowing into the groove.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a curtain wall having a variable mounting structure and a heat insulating structure corresponding to glass thicknesses,

The present invention relates to a curtain wall having a variable mounting structure and a heat insulating structure corresponding to a thickness of a glass, and more particularly, it is possible to adjust a width of a curtain wall having a structure corresponding to a thickness of the glass, To a curtain wall having an insulating structure capable of preventing heat loss through the structure.

Generally, when looking at the outer walls of high-rise buildings or skyscrapers, there are many buildings that are finished with glass.

A curtain wall is a lightweight outer wall structure constructed to support only the load of glass that forms the exterior of a building, unlike a column or a beam of a building that supports the load of the entire building. The curtain wall is a non- It is a wall.

Glass is combined between the vertical frame and the horizontal frame, which constitute the curtain wall, to prevent the inflow of snow, wind and noise into the room, and to prevent heat exchange between the indoor space and the outdoor space.

A method of installing glass on a curtain wall is a method of filling a mounting structure (supporting portion) integrally projected on an outdoor side surface of a vertical or horizontal main frame constituting a curtain wall with an adhesive such as silicon between side edges of the glass Is used.

5 and 6 are cross-sectional views illustrating a curtain wall having a dedicated mounting structure according to the conventional glass thickness. As shown in the drawings, the conventional curtain wall structure has a structure in which the supporting portion, on which the glass is mounted, protrudes outward from the main frame of the curtain wall And it is constituted by a mounting structure having different width lengths depending on the glass thickness to be applied. Also, it can be seen that such a conventional glass mounting structure is a monolithic structure made of the same material metal which is transferred from the main frame constituting the curtain wall.

However, since the conventional curtain wall structure has a dedicated curtain wall having a supporting portion having a different length for each glass thickness to be installed,

In addition, if the thickness of the glass to be applied is changed, if the new curtain wall is not provided, there is a disadvantage that the construction schedule is delayed because there is no way to solve the problem in the field on its own,

In addition, since the supporting structure protruding from the curtain wall to the outdoor side is an integral structure made of the same metal as the main frame, the thermal conductivity is high due to the nature of the metal material.

Korean Registered Patent Publication No. 10-1218639 (December 28, 2012) Korean Registered Patent Publication No. 10-1117278 (Feb. Korean Registered Patent Publication No. 10-1247236 (March 19, 2013)

In order to solve the above problems, an object of the present invention is to provide a variable glass mounting structure capable of adjusting a width according to a thickness of a glass to be mounted when the glass is mounted on a curtain wall, So as to prevent heat transfer between the indoor and the outdoor, thereby providing a curtain wall having a heat insulating structure.

According to an aspect of the present invention, there is provided a method of manufacturing a glass main body including a main frame installed in a horizontal or vertical direction on an outer wall side of a building to support a load of glass, ;

A supporting frame which is fastened to the groove portion of the main frame together with the first heat insulating member inserted into the groove portion of the main frame by the fixing member and has the fastening groove formed in the outdoor side direction;

A second heat insulating member having a fastening protrusion that is fastened to the fastening groove of the support frame;

A width adjusting frame which adjusts a width of the glass to adjust the fastening position with respect to the support frame when there is a change in the thickness of the glass to be installed,

An outer heat insulating cover installed on an outdoor side surface of the width adjusting frame;

A coupling member for coupling to the coupling groove formed at one end of the support frame through the width adjusting frame and the second heat insulating member in the external heat insulating cover;

An outer cover fitted to the outside of the outer heat insulating cover;

And a glass pedestal provided on the upper or lower surface of the width adjusting frame for supporting the glass and having a bent one end thereof coupled to the fitting groove formed in the groove of the main frame to block air flowing into the groove. By providing a curtain wall having a variable mounting structure and a heat insulating structure corresponding to the thickness of the glass to be characterized.

In a preferred embodiment, the main frame, the support frame and the outer cover are made of a metal material, and the second heat insulating member, the width adjusting frame and the outer heat insulating cover are made of a synthetic resin material.

In a preferred embodiment of the present invention, the support frame is formed by projecting the fastening portion in the outward direction, and a threaded fastening groove is formed on the inner side of the fastening portion so that one end fastening portion of the second heat insulating member is inserted and fastened in a forced fit manner And one or more engaging jaws formed on the inner side of the width adjusting frame may be formed to protrude from upper and lower portions of the front end of the fastening portion.

In a preferred embodiment of the present invention, the width adjusting frame has a plurality of engaging jaws protruding inwardly at regular intervals in an inner space, and a part of the engaging jaw engages with a supporting jaw formed in the engaging portion of the supporting frame, It is possible to constitute a multistage hollow portion by isolating the space portion from the upper and lower surfaces of the two-piece heat insulating member.

In a preferred embodiment, the second heat insulating member is formed with a hollow portion inside the fastening protrusion portion, and a plurality of hollow portions that are not communicated with each other may also be formed inside the body other than the fastening protrusion portion.

According to a preferred embodiment of the present invention, the outer side surface of the outer heat insulating cover is formed with a latching groove, so that the latching protrusion of the outer cover is hooked on the outer side surface of the outer heat- So as to prevent heat conduction through the metal outer cover.

The curtain wall according to the present invention can change its width in a non-cutting manner by using a variable mounting structure according to the thickness of a glass to be installed at the time of glass mounting, If the thickness is changed within a certain range without need, it is possible to cope with a single mounting structure.

In addition, since the glass mounting structure coupled with the curtain wall main frame is spaced apart by the heat insulating material, the heat insulating performance is improved by preventing the thermal conduction by direct contact,

In addition, it is a useful invention having an advantage that the heat insulating performance is improved by forming a multi-stage heat insulating air layer inside the mounting structure which is adjusted according to the thickness of the glass.

1 is a cross-sectional view illustrating a curtain wall structure according to an embodiment of the present invention,
Figure 2 is an exploded view of a curtain wall according to one embodiment of the present invention,
3 is an exemplary view illustrating an example of operation of a width adjusting frame according to an embodiment of the present invention,
4 is a cross-sectional view illustrating a state of a curtain wall having a width adjusted according to a change in glass thickness to be installed according to an embodiment of the present invention,
5 and 6 are cross-sectional views illustrating a curtain wall having a dedicated mounting structure according to a conventional glass thickness.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a cross-sectional view illustrating a curtain wall structure according to one embodiment of the present invention, FIG. 2 is an exploded view of a curtain wall according to an embodiment of the present invention, and FIG. FIG. 4 is a cross-sectional view showing a state of a curtain wall having a width adjusted according to a change in a glass thickness to be installed according to an embodiment of the present invention.

As shown in the drawings, a curtain wall according to an embodiment of the present invention includes a main frame 1 installed horizontally or vertically so as to support a load of a glass and provided with grooves 101 in an outdoor direction, Respectively.

The main frame has a concave groove portion 101 formed on an outdoor side surface, and a first heat insulating member 2 is inserted into the groove portion.

A supporting frame 3 abutting on the outer side of the first heat insulating member 2 is fastened to the groove portion of the main frame together with the first heat insulating member 2 by the fixing member 10 in the groove portion. Further, the support frame is provided with a coupling groove (301) formed with threads in the outward direction.

A second heat insulating member (4) having a fastening protrusion (41) is inserted and fastened to the fastening groove (301) of the support frame in an interference fit manner.

A width adjusting frame 5 is inserted into the outside of the second insulating member 4 from the outdoor side while enclosing the second heat insulating member and is fastened to the support frame 3 in an engagement manner. The width adjusting frame supports the load of the glass and at the same time adjusts the width according to the thickness of the glass to be applied by forward or backward movement.

An external heat insulating cover 6 is provided on an outdoor side surface of the width adjusting frame so that the external heat insulating cover covers the width adjusting frame 5 and the second insulating member 4 by the fastening member 7, (Not shown).

The outer cover (8) is fitted on the outer surface of the outer heat insulating cover in a hooking manner.

The width adjusting frame 5 is disposed on the upper or lower surface of the width adjusting frame 5 to support the glass and has a bent one end connected to the fitting groove 102 formed in the groove of the main frame to block the air flowing into the groove, And a pedestal (9).

In the above, the glass thickness refers to the thickness of a window when it is a single window, and the thickness of a double window when it is a double window. In the case of a double glazing, it refers to the width (thickness) of the double glazing formed by the glazing and the glazing, even though there is no change in the thickness of the glazing constituting the glazing.

The space between the main frame 1, the width adjusting frame 5 and the external heat insulating cover 6 and the glass is filled with an adhesive such as silicon. Such fillers are not limited to silicon alone, but may be used with any adhesive commonly used.

In a preferred embodiment of the present invention, a double-pane panel having a heat-insulating space portion formed by a gap material and having a thickness adjusted is shown.

Specifically, the main frame 1 is a structure for supporting the load of the glass, and the load supporting method is a frame directly protruding from the main frame without supporting the glass load, 3) to support the load. To this end, a first heat insulating member (2) having a predetermined thickness is inserted between the main frame (1) and the support frame (3) so that the outdoor temperature is not directly conducted to the main frame.

This is because the material constituting the main frame 1 is generally made of an aluminum alloy or other metal-containing material, so that it is structurally susceptible to thermal insulation because of its high thermal conductivity due to its material properties. Unless a countermeasure against thermal conductivity is taken, the heating efficiency becomes worse like a building having a general curtain wall structure, thereby increasing heating and cooling costs. Therefore, the main frame 1 and the support frame 3 are fastened to each other with the first heat insulating member 2 interposed therebetween, thereby directly preventing heat transfer.

The first heat insulating member (2) is made of synthetic resin such as PVC. In addition, the first heat insulating member is formed such that a hollow portion 201 having an air layer formed therein is formed to increase the heat insulating effect.

The reason for forming the grooves 101 in the outdoor side direction of the main frame 1 is that if the outdoor side surface of the main frame 1 is made flat and the support frame 3 and the first heat insulating member 2 This is because, when fastened using a fixing member such as a bolt, the structure for supporting the support frame 3 and the first heat insulating member 2 is made only of a fixing member such as a bolt, and thus the glass supporting structure is very weak. Therefore, in the present invention, the groove portion 101 is constituted so that the lower portions of the support frame 3 and the second heat insulating member 2 are housed and supported in the main frame 1, thereby providing structural stability.

When the bent one side of the glass pedestal 9 is inserted into the fitting groove 102, the open space of the groove portion 102 is formed in the front side of the groove portion 101, that is, The air introduced into the support frame 3 can be originally cut off, thereby enhancing the heat insulating effect.

The supporting frame 3 is formed by projecting a fastening part 30 in a direction toward an outdoor side of the supporting frame 3. A fastening groove 301 having threads formed inside the fastening part 30 is formed in the supporting frame 3, 4 are inserted and fastened in an interference fit manner. The material of the second heat insulating member 4 is made of synthetic resin such as PVC like the first heat insulating member to provide heat insulation in the outward direction of the support frame to provide heat insulation so that heat conduction to the main frame is prevented.

A support protrusion 302 protrudes from an upper portion and a lower portion of the front end portion of the coupling portion 30. The protrusion protrudes from a lower end of the width regulating frame 5, So that the width adjusting frame 5 is prevented from entering the room side or falling out to the outside, so that the constructed glass width structure can be stably maintained.

The fastening protrusion 41 of the second heat insulating member 4 is strongly fitted into the fastening groove 301 formed inside the front end fastening portion 30 of the support frame 3. The synthetic resin material such as PVC, which is a material of the second heat insulating member, elastically contracts and is constrained by the space of the coupling groove 301 and then provides an expansion force by the elastic force to provide a strong coupling force .

The fastening member 7 penetrates and the forcing of the separation of the support frame 3 is forcibly interrupted. This second heat insulating member 4 is a lengthwise extruded in the same direction with respect to the cross section of the main frame shown.

In the second heat insulating member 4, a hollow portion 411 is formed in the fastening protrusion 41 to provide a heat insulating effect by the air layer. In addition, a plurality of hollow portions 412 which are not communicated with each other are formed inside the body other than the fastening protrusion 41 to provide a heat insulating force by the air layer.

The material of the width adjusting frame 5 is made of a synthetic resin material such as PVC like the first and second heat insulating members to prevent heat transfer. One of the reasons why the width adjusting frame is most important in the present invention is that the width can be adjusted according to the thickness of the glass to be constructed.

The width control frame is designed so that if there is no time to manufacture a new frame or if the thickness of the glass is changed, The width of the width adjusting frame 5 can be reduced by changing the position of the latching jaws 51 to be fastened to the supporting jaws 302 of the first and second connecting members 30 and 30. Here, the width refers to the width in the same sense as the thickness of the glass to be constructed. Also, the glass thickness refers to the thickness of the window in case of a window, and the thickness of the window in case of a window. In the case of a double glazing, it refers to the width (thickness) of the double glazing formed by the glazing and the glazing, even though there is no change in the thickness of the glazing constituting the glazing.

Specifically, the width adjusting frame 5 is formed by protruding and protruding inwardly a plurality of latching jaws 51 arranged at regular intervals in the inner space so as to reduce the width structure. The width adjusting frame is a member extruded in the longitudinal direction like the main frame, and the engaging jaw is also extruded in the longitudinal direction.

At this time, the latching jaw 51 comes into contact with the surface of the second heat insulating member 4 to provide a supporting force for holding the width adjusting frame structure with respect to the load of glass, and at the same time, the adjacent latching jaws 52, Stage hollow portion 521 by contacting the upper and lower surfaces of the second heat insulating member 4 while isolating the space portion. These hollows promote the heat insulation.

The material of the outer heat insulating cover 6, which is installed in contact with the outdoor side surface of the width adjusting frame 5, is made of a synthetic resin material such as PVC, and the temperature of the outdoor side through the outer cover made of a metal material such as aluminum, Thereby preventing heat conduction from occurring. A hollow portion 601 is formed in the outer heat insulating cover 6 to enhance the heat insulating performance by the air layer structure.

The outer heat insulating cover 6 is a member extruded in a direction of installation of the main frame 1 such that the coupling member 7 is extended from the outer heat insulating cover 6 to the width adjusting frame 5, And the plurality of grooves are arranged at regular intervals so as to be threadedly engaged with the nut-type fastening grooves formed at one end of the support frame 3, so that the fastening members 7 penetrate toward the interior direction.

The fastening member 7 may penetrate through the second heat insulating member in the state where the through groove is formed. If there is no through groove, the fastening member 7 may be rotated by spiraling to the support frame while forming the through groove.

In addition, the fastening member lid 71 may be sealed in the groove of the external heat insulating cover 6 where the head part of the fastening member 7 is inserted to maintain the airtightness.

A hooking groove 602 is formed on the outer side surface of the outer heat insulating cover 6 so that the hooking jaw 801 of the outer cover 8 is hooked. And the height of the outer cover made of a metal material such as aluminum is formed to be smaller than the height of the outer heat insulating cover 6 to prevent heat conduction through the metal outer cover 7 Respectively.

In addition, the outer cover 8 is configured to have a space portion which is spaced apart from the outer heat insulating cover except for the inner portion of the latching jaw 801, thereby minimizing the portion where the outdoor temperature is conducted to the outer heat insulating cover.

Hereinafter, with reference to Figs. 1 to 4, a state in which the cross-sectional width of the curtain wall is narrowed according to the variation of the glass thickness to be constructed will be described.

As shown in FIG. 1 and FIG. 4, it can be seen that the modified structure of FIGS. 1 and 4 has the same structure except for the thickness of the glass, the holding jaws of the width adjusting frame, and the supporting widths of the fastening portions.

That is, according to the present invention, a width adjusting frame made of a synthetic resin material such as PVC is moved back and forth in order to fix itself on the spot in accordance with the supplied thickness of glass, so that the holding jaw is moved forward or backward by one or more, So that the thickness variation can be quickly responded to by the non-cutting method. In such a state, the width adjustment according to the present invention is completed.

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 appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): main frame (2): first heat insulating member
(3): Support frame (4): Second insulation member
(5): width adjusting frame (6): outer heat insulating cover
(7): fastening member (8): outer cover
(9): glass base (10): fixing member
(30): fastening part (41): fastening part
(51): engagement stop (71): fastening member lid
(101): groove portion (102): fitting groove
(201, 411, 412, 521, 601): hollow
(301): fastening groove (302): supporting jaw
(602): engagement groove (801): engagement jaw

Claims (6)

A main frame provided in a horizontal or vertical direction on an outer wall side of the building so as to support a load of the glass and having a groove formed in an outward direction;
A supporting frame which is fastened to the groove portion of the main frame together with the first heat insulating member inserted into the groove portion of the main frame by the fixing member and has the fastening groove formed in the outdoor side direction;
A second heat insulating member having a fastening protrusion that is fastened to the fastening groove of the support frame;
A width adjusting frame which adjusts a width of the glass to adjust the fastening position with respect to the support frame when there is a change in the thickness of the glass to be installed,
An outer heat insulating cover installed on an outdoor side surface of the width adjusting frame;
A coupling member for coupling to the coupling groove formed at one end of the support frame through the width adjusting frame and the second heat insulating member in the external heat insulating cover;
An outer cover fitted to the outside of the outer heat insulating cover;
And a glass pedestal provided on the upper or lower surface of the width adjusting frame for supporting the glass and having a bent one end thereof coupled to a fitting groove formed in the groove of the main frame to block air flowing into the groove, ,

Wherein the width adjusting frame has a plurality of engaging jaws protruding inwardly at regular intervals in an inner space and partly engaging with a supporting jaw formed at the upper and lower ends of the coupling parts of the supporting frame, Wherein the curtain wall has a variable mounting structure and a heat insulating structure corresponding to the glass thickness, wherein the curtain wall is configured to contact the upper and lower surfaces of the two-piece heat insulating member to isolate the space portion to form a multi-step hollow.
The method according to claim 1,
Wherein the main frame, the support frame and the outer cover are made of a metal material, and the second heat insulating member, the width adjusting frame and the outer heat insulating cover are made of synthetic resin. One curtain wall.
The method according to claim 1,
The support frame is constructed such that the fastening portion is projected outwardly in the outward direction and a fastening groove formed with a screw thread is formed in the fastening portion so that one end fastening portion of the second heat insulating member is inserted and fastened in a forced fit manner, And a supporting jaw is protruded from the upper and lower ends of the front end portion so as to engage with at least one engaging jaw formed inside the width adjusting frame, thereby providing a curtain wall having a variable mounting structure and a heat insulating structure corresponding to the glass thickness.
delete The method according to claim 1,
And a plurality of hollow portions which are not in communication with each other are formed inside the body other than the fastening protrusion portion. The variable mounting structure and the heat insulating structure corresponding to the thickness of the glass are characterized in that the second heat insulating member is formed with a hollow portion inside the fastening protrusion portion, And a curtain wall.
The method according to claim 1,
Wherein the outer heat insulating cover has an outer side surface formed with an engaging groove so as to engage with the outer surface of the outer cover, Wherein the curtain wall has a variable mounting structure and a heat insulating structure corresponding to the thickness of the glass.

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