KR101662663B1 - Curtain wall adjustable gap of glass water structure - Google Patents

Abstract

The present invention relates to a curtain wall having a glass clearance control structure, and it is an object of the present invention to provide a curtain wall having a glass clearance control structure, in which when a glass curtain wall is subjected to a construction error of a vertical frame or a horizontal frame, And the curtain wall having a structure capable of utilizing the supplied glass without scrapping by adjusting the glass gap adjusting member to be combined.
The construction of the present invention comprises a horizontal frame and a vertical frame installed on an outer wall of a building for supporting a load of glass and a curtain wall formed on an interface between the glass and the horizontal and vertical frames and including a seal and a sealant, A heat insulating fastening member to which the horizontal frame and one end are fitted; An outdoor frame fitted to the other end of the heat insulating fastening member; A glass gap regulating member fitted and joined to upper and lower ends of the glass located in the upper and lower directions of the heat insulating fastening member to adjust a vertical gap between the glass and the horizontal frame; And an elastic air flow member formed on the glass gap adjusting member and made of a plurality of elastic air flowing pieces contacting the heat insulating fastening member to block the air flow in the curtain wall inner space portion. .

Description

Curtain wall adjustable gap of glass water structure

The present invention relates to a curtain wall capable of controlling a glass clearance, and more particularly, because of a construction tolerance of a curtain wall or a glass standard to be supplied, it is possible to adjust the clearance without disposing the glass The present invention relates to a curtain wall having a structure having a structure.

In the case of buildings made of reinforced concrete tanks or steel frames, the vertical loads of buildings, horizontal loads caused by winds or earthquakes are caused by the above-mentioned frames made of pillars and beams, and the outer walls for protecting residents in buildings from external environments are curtains The Curtain Wall is in charge. There are materials such as stainless steel, aluminum, bronze and the like which are used for the curtain wall. In recent years, the construction of the curtain wall using the glass is increasing, and it is often said that the curtain wall is used to support the glass load constituting the exterior of the building It also refers to a lightweight outer wall structure constructed. Advantages of the curtain wall using such a glass include the ability to block rain or wind from the outside, to block noise or heat, and to improve indoor light.

A method of constructing a curtain wall using glass is a method of supporting a load of glass on a supporting structure (seating structure) protruding outward from a horizontal frame and then attaching a sealant such as silicone along the side of the glass to the frame have.

As another method, there is a method of horizontally pressurizing the glass to the main frame while fixing the vertical load to the horizontal frame and using the cap and the anchor bolt at the outdoor side. At this time, when the glass is pressurized and fixed, the anchor bolts are directly passed through the holes formed in the glass and then bonded to the main frame.

Another method is to press the glass horizontally toward the main frame by using a cap and anchor bolts on the outdoor side while supporting a vertical load with a horizontal frame, and to insert a heat insulating material such as polyamide or azon into the inner hollow space It can be installed by increasing the insulation strength and bonding strength.

However, in the conventional curtain wall construction as described above, due to a construction error of a vertical frame or a horizontal frame, when the installation space is slightly larger than the installation space of the glass, or when the quality of the supplied glass is not good, , It is impossible to re-install the vertical frame and the horizontal frame after completion of construction, and the glass of the defective standard supplied with a slight clearance can not be used. In this case, not only the construction air is delayed but also there is a problem of wasting resources and increasing the cost due to disposal of all the glass.

In addition, the conventional curtain wall structure has a structure focused on safely supporting the load of the glass member used as the exterior material in the horizontal and vertical frames, so that the horizontal or vertical main frame constituting the curtain wall and the durability in which the glass, the cap and the anchor bolt are combined In many cases, the space is not provided with any heat insulation or order structure, and most of the space is left in an empty space. Therefore, heat conduction phenomenon due to convection in the hollow space or a vertical frame made of a metal material, a horizontal frame and an anchor bolt, There is a problem in that the heat insulating property is low due to the structure such as the phenomenon that the heat conduction to the room occurs.

Therefore, there is a need for a heat insulating structure for the inner space of the curtain wall structure.

Korean Registered Patent Publication No. 10-1483487 (Jan. 12, 2015) Korean Patent Registration No. 10-1247236 (Mar. 19, 2013) Korean Patent Registration No. 10-1218639 (December 28, 2012) Korean Registered Utility Model Registration No. 20-0448617 (2010.04.22.)

In order to solve the above problems, it is an object of the present invention to provide an apparatus and a method for controlling a gap between a glass frame and a glass frame when the glass frame has a clearance with respect to a vertical frame or a horizontal frame, The present invention provides a curtain wall having a structure capable of utilizing the supplied glass without disposal by adjusting using a member.

Another object of the present invention is to provide an air-tightness and a thermal insulation effect by providing an elastic air-flow member having an elastic force capable of preventing air flow in the curtain wall inner space or air convection through the space, have.

It is another object of the present invention to provide a multi-layered structure with neighboring heat insulating members by joining a horizontal metal frame located in a room and a metallic outdoor frame located outdoors with only a heat insulating fastening member without a fastening member.

According to an aspect of the present invention, there is provided a horizontal frame and a vertical frame installed on an outer wall of a building for supporting a load of glass, And a sealing and a sealant. The curtain wall comprises: a heat insulating fastening member to which the horizontal frame and one end are fitted; An outdoor frame fitted to the other end of the heat insulating fastening member; A glass gap regulating member fitted and joined to upper and lower ends of the glass located in the upper and lower directions of the heat insulating fastening member to adjust a vertical gap between the glass and the horizontal frame; And an elastic air flow member formed of a plurality of elastic air flow pieces formed on the glass gap adjusting member and contacting the heat insulating coupling member to block air flow in the curtain wall inner space portion. By providing a curtain wall.

According to a preferred embodiment of the present invention, there is a glass gap adjusting member which is fitted on both side surfaces of the glass to adjust the horizontal clearance between the glass and the vertical frame, and a plurality of elastic air guide pieces formed on the glass gap adjusting member and in contact with the vertical frame And an elastic swash plate member.

In a preferred embodiment of the present invention, the glass clearance adjusting member is formed to have a 'C' -shaped cross section, and serrations formed on both side supporting portions, which are in contact with and supported by the inserted glass, have.

In a preferred embodiment, it may further comprise a buffer material between the glass contacting the teeth.

According to a preferred embodiment of the present invention, the horizontal frame may include an upper elastic protrusion having an upper latching protrusion formed at an outdoor side center portion and a lower elastic protrusion having a lower latching recess formed therein, so as to form a fitting latching protrusion for interference with the heat insulating fastening member.

According to a preferred embodiment of the present invention, the heat insulating fastening member includes: a fastening groove portion having an upper fastening piece with an upper fastening tab formed at an inner side end thereof and a lower fastening piece with a lower fastening tab, A latching protrusion protruding in the vertical direction on the outdoor side end to be fitted into the outdoor frame; And at least one hollow portion formed therein.

In a preferred embodiment, the outdoor frame includes: a frame engaging groove portion formed at a central portion in a direction toward the inside of the room and in which an engaging end formed at the other end of the heat insulating fastening member is inserted; And a cap engaging groove to which the cap is fastened at both ends of the frame engaging groove portion.

The curtain wall according to the present invention having the above-described characteristics can be manufactured by using a glass gap adjusting member which is coupled to the glass periphery when there is a construction error of the vertical frame or the horizontal frame or when the supplied glass standard has a slight clearance with the construction space By adjusting the glass position, the supplied glass can be utilized without being discarded, so that it is possible to save the air shortening and construction cost,

Also, since the elastic air flow member having an elastic force formed on the glass gap adjusting member blocks the inflow of air into the curtain wall inner space or obstructs the air flow due to the convection phenomenon,

In addition, the metal frame horizontal frame supporting the glass load and the outdoor frame for the glass joint finish and the outdoor frame for side support are fitted together using the nonmetallic re- Which is advantageous in industrial use because it has the advantage that it blocks the heat conduction path between the metal materials flowing into the metal material.

1 is a perspective view of a curtain wall according to an embodiment of the present invention,
FIG. 2 is an exemplary view showing an internal spatial definite sectional structure of a curtain wall according to an embodiment of the present invention,
FIG. 3 is a cross-sectional view illustrating a rise of a glass gap adjusting member according to an embodiment of the present invention,
FIG. 4 is a cross-sectional view illustrating a descent of a glass gap adjusting member according to an embodiment of the present invention,
5 and 6 are views showing positions where glass gap adjusting members according to an embodiment of the present invention are assembled around a glass to be installed.

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 perspective view of a curtain wall according to an embodiment of the present invention, FIG. 2 is an exemplary view showing an internal spatial definite sectional structure of a curtain wall according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating a descent of the glass clearance adjusting member according to an embodiment of the present invention, and FIGS. 5 and 6 are cross-sectional views illustrating an embodiment of the present invention. And the glass clearance adjusting member according to the example is assembled around the glass to be installed.

As shown in the figure, the curtain wall structure according to an embodiment of the present invention is provided with a horizontal frame 1 installed on the outer wall side of the building to support the load of the glass 7. [ The horizontal frame is a frame having a "ㅁ" cross-section in which the overall shape is an empty interior, and is composed of one or a plurality of buildings in each layer of the building, and between the upper and lower horizontal frames adjacent to each other with the glass in the middle, The frame is joined by a conventional fastening method such as welding or bolt screwing to form a wall structure that supports the load of the glass 7 by joining the horizontal and vertical frames in a lattice form as a whole.

Although not shown in the drawing, the horizontal frame extruded in the longitudinal direction is formed by protruding a metal material or a synthetic resin material supporting member supporting the load of glass at a predetermined interval so that the horizontal frame can directly support the load of the glass. Such a support structure is generally used and is not a structure showing the main technical idea of the present invention, so a detailed description thereof will be omitted. The horizontal frame and the not-shown vertical frame are extruded with a metal material and cut to the required length. As the metal material, aluminum material is commonly used.

The front end of the horizontal frame, that is, the center of the outdoor side, is integrally formed with a convex fitting protrusion 11. The fitting type fastening protrusions have upper and lower elastic protrusions 111 and 112 which are spaced apart from each other by a predetermined distance. The upper and lower elastic protrusions have upper and lower locking protrusions 113, and 114, respectively, so that the upper and lower locking jaws 213 and 214 of the heat insulating fastening member 2, which are respectively held in the upper and lower locking jaws, are engaged and tightened.

The upper and lower latching jaws 213 and 214 are symmetrically arranged on the inside of the upper and lower fastening pieces 211 and 212 constituting the fitting type fastening groove portion 21 constituting one end of the heat insulating fastening member 2 One or more upper and lower stoppers 213 and 214 are formed and fastened to the upper and lower fasteners of the fastening protrusion at a plurality of places.

Each of the elastic protrusions 111 and 112 is made of a metal material so that when the fastening groove 21 of the heat insulating fastening member 2 is elastically unsealed at the time of fastening and then elastically restored after fastening, A strong fastening force is maintained between the fastening grooves 113 and 114 and the fastening grooves 213 and 214 of the fastening groove portion.

The heat insulating fastening member 2 is a fastening member that is positioned between the outdoor frame 3 and the horizontal frame 1 and attaches the outdoor frame 3 fastened to one end thereof to the horizontal frame 1, Unlike the frame (3) and the horizontal frame (1), it is made of a synthetic resin re-insulating material, and the two members are fastened while blocking the heat conduction between the metal materials. Any synthetic resin material such as polyamide or azone may be used as the heat insulating fastening member to be used, or any synthetic resin material may be used as long as it has good heat insulating properties and good rigidity. Further, it is more preferable that the material has a flame retardant property or a fire-retardant property so as not to discharge a toxic substance during a fire.

At one end of the heat insulating fastening member 2, that is, at the inner end of the heat insulating fastening member 2, the fitting type fastening recessed portion 21 is formed as described above. The fastening groove portion has a vertically spaced structure to receive the fastening protrusion 11 through the internal space. At this time, the upper and lower fastening pieces 211 and 212 constituting the upper and lower parts of the fastening groove 21 are formed with fastening protrusions 213 and 214 formed symmetrically on the inner side, respectively, Is less than the width length between the outer side portions of the upper and lower elastic protrusions constituting the protruding portion. Since the elastic protrusions 111 and 112 are made of a metal material as described above, the ends of the elastic protrusions 111 and 112 are elastically deformed when fastened to the fastening recesses 21 of the heat insulating fastening member 2, So that strong fastening force is maintained between the fastening protrusions 113 and 114 of the fastening protrusions and the fastening protrusions 213 and 214 of the fastening recesses.

A locking end 22 is vertically protruded from the other end of the heat insulating fastening member 2, that is, on the outdoor side end, and is engaged with a frame engaging recess 31 formed in the center of the outdoor frame 3 do. In the fastening method, the frame coupling grooves of the outer frame made of a length are pushed in the horizontal direction to the engaging end, or the other end of the engaging step is rotated with the part of the frame engaging groove portion being in the open state, It may be inserted into the other side of the engaging groove portion. When installed as described above, the outdoor frame is firmly fastened to the heat insulating fastening member without any other fastening means such as a piece or a screw, so that the workability is good and no separate fastening groove is formed. Therefore, the air tightness is good and the heat conduction by the metal piece, So that the heat insulating force is increased.

It is preferable that the heat insulating fastening member 2 is formed in the longitudinal direction when at least one hollow portion 23 is extruded inside for the purpose of heat insulation and weight saving. The hollow portion at one side fastening groove portion is formed to be open to the inside of the room, It is preferable that an elastic force is increased when the upper and lower fastening pieces constituting the groove are tightly coupled with the fastening protrusions to facilitate the fastening.

A frame engaging groove 31 is formed at a center of the outdoor frame 3 in the direction toward the inside of the room so that one side end of the heat insulating fastening member 2 is inserted and engaged and cap engaging grooves 32 are formed respectively at both side ends And a cap (6) coupled to the outdoor side of the outdoor frame is fastened.

The outdoor frame is a longitudinal extruded material made of a metal material and is engaged with the other side end locking end 22 of the heat insulating fastening member 2 to close the gap between the upper and lower glass supported on the horizontal frame 1 on the outdoor side And the sealant 8 such as silicone and the packing 9 are used to block the gap between the glass and the glass, thereby effecting order and airtightness.

The glass mounted on the curtain wall is formed by sealing the gap between the horizontal frame 1 and the outdoor frame 3 with a sealant 8 such as silicone to form a clearance between the horizontal frame 1 and the outdoor frame 3, So that the load imposed on the horizontal frame 1 is dispersed.

In addition, the packing 9, which is an elastic material formed of a longitudinal material, functions as a buffer against shocks while filling in the gap between the room side of the outdoor frame and the glass. The packing 9 serves as a hermetic function for shutting off the flow of air introduced into the gap, Thereby preventing the glass breakage caused by the glass.

Meanwhile, the glass located in the upper and lower sides of the heat insulating fastening member 2 is provided with a glass clearance adjusting member 4 fitted to the upper and lower ends, respectively, to adjust the vertical mounting position of the glass to adjust the clearance.

The reason why the glass clearance adjusting member is needed is to use the glass without disposing the glass when the construction error of the vertical frame or the horizontal frame or the supplied glass standard has a slight gap with the construction space. The glass clearance adjusting member is not assembled only on the upper and lower surfaces of the glass, and the glass clearance adjusting member is not mounted on the upper and lower surfaces of the glass, It can also be installed on the side and right sides to adjust the left and right clearance of the glass.

The glass gap adjusting member is formed to have a 'C' -shaped cross-section so that the glass is inserted through the space. The glass support member 41, which is in contact with and supported by the glass, A toothed portion 42 having a slanting line in the inserting direction of the glass is formed.

Further, a buffering member 43 formed in the longitudinal direction is further provided between the glass contacting the teeth, so that a buffering force can be provided to the contact between the two.

Preferably, the glass clearance adjusting member and the buffering member are made of a synthetic resin material having elasticity such as EPDM and made of a material having good weatherability, stain resistance, durability and elasticity. Of course, any of the known synthetic resin materials may be used as long as this purpose can be achieved as well as EPDM.

The glass gap adjustment method is to compensate the clearance due to the construction error of the vertical frame or the horizontal frame or to compensate the gap of the supplied glass size by a little clearance with the construction space, It is enough to insert glass. Also, when the glass gap adjusting member is used, the glass can be adjusted again when additional adjustment is required. Further control is difficult to adjust due to the serrations rather than first glass insertion, but is not impossible to control.

The glass gap adjusting member 4 is also provided with elasticity members made of a plurality of elastic air guide pieces made of an elastic material which is in contact with the heat insulating fastening member 2 to cut off the air flow in the curtain wall inner space, The air-flow member 5 is formed. The elastic piece is not shown, but a member such as a supporting plate is formed at one end thereof, and is formed so as to support one of the elastic piece pieces arranged adjacent to each other when formed in the glass gap adjusting member after extrusion molding.

The method of forming the elastic air-curtain member in the glass gap adjusting member may be a known fixing method using an adhesive or a bolt nut, and may be extruded and formed integrally with the glass clearance adjusting member. Preferably, the elastic force is increased and formed separately so as to provide a continuous elastic force in a bent state.

Further, when the elastic air bearing member is formed on the glass gap adjusting member fitted to both side surfaces of the glass, the elastic air bearing member comes into contact with the vertical frame to perform the airtight action and the heat insulating action.

The elastic wind-felt member 5 is preferably made of a synthetic resin material having elasticity such as EPDM and made of a material having good weatherability, stain resistance, durability and elasticity. Of course, any of the known synthetic resin materials may be used as long as this purpose can be achieved as well as EPDM.

Since the plurality of individual elastic air portion restraints constituting the elastic swing member 5 are thin in thickness, the flexible property is further increased, and the elastic force is maintained so that the contact force with the heat insulating fastener member 2 is maintained at all times. Since it is in constant contact with the surface of the heat insulating fastening member (2), airtightness and heat insulating force for the space portion are provided.

The height (length) of the elastic wind-driven member 5 is formed to be longer than the gap between the glass clearance adjusting member 4 and the heat-insulating fastening member 2. By constituting in this way, the elastic force is constantly provided, and airtightness and heat insulation power are maintained by blocking the space portion while contacting in a bent state.

In one embodiment, the cap 6 is formed with a "C" -shaped cross section and has cap engagement grooves 32 formed at both ends of the outdoor frame 3, And the outer frame of the metal material is wrapped around the outdoor side to make the outer appearance look good.

In this embodiment, not only the "C" -shaped end face but also the cap engaging protrusions 61 projected toward the inside at both ends are fastened to the cap engaging recesses 32 formed at both ends of the outdoor frame 3 The cap can be freely configured with a variety of materials and colors.

Hereinafter, the operation and effect of the present invention will be described.

In order to construct the curtain wall of the non-bearing wall of the building, a vertical frame made of a metal material is installed, and a horizontal frame coupled to the horizontal frame is coupled to a vertical frame by bolt nut coupling or welding.

Then, the heat insulating fastening member and the outdoor frame are successively fitted to each other in a non-abutting manner.

Then, the glass is inserted into the glass gap adjusting member 4 around the glass, and then it is confirmed that the glass is fit in the glass mounting space. If there is a clearance, adjust the insertion height between the glass gap adjustment member and the glass to adjust it to the space to be constructed.

Then, the position-adjusted glass is brought back to the installation position, and the glass clearance adjusting member 4 is configured to support the load on the metal member or the synthetic resin support member provided on the horizontal frame.

Thereafter, the cap is fused to the outdoor frame, the packing is pushed into the gap between the outdoor frame and the glass, and the sealant is closed.

At this time, the outdoor frame to which the cap is coupled may be pre-assembled with the heat insulating fastening member, or the outdoor frame may be joined after the heat insulating fastening member is installed.

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): horizontal frame (2): heat insulating fastening member
(3): outdoor frame (4): glass clearance adjusting member
(5): elastic sweep member (6): cap
(7): glass (8): sealant
(9): packing (11): fastening protrusion
(21): fastening groove portion (22): fastening end
(23): hollow portion (31): frame engaging groove
(32): cap engagement groove (41): both side support portions
(42): tooth portion (43): cushioning material
(61): cap stopping step (111): upper elastic projection
(112): lower elastic projection (113): upper stopping jaw
(114): lower stopping jaw (211): upper fastening piece
(212): lower fastening piece (213): upper fastening jaw
(214): lower jaw

Claims (7)

A curtain wall comprising a horizontal frame and a vertical frame installed on an outer wall of a building for supporting a load of glass and a seal and a sealant formed at an interface between the glass and the horizontal and vertical frames to perform an airtight and watertight function,
A heat insulating fastening member to which the horizontal frame and one end are fitted;
An outdoor frame fitted to the other end of the heat insulating fastening member;
The upper and lower ends of the glass located on the upper and lower sides of the heat insulating fastening member or both side surfaces of the glass or both sides of the glass so that when there is a clearance between the glass and the horizontal frame, And a horizontal gap between the vertical frame and the vertical frame;
And an elastic air flow member formed on the glass gap adjusting member and composed of a plurality of elastic air flow pieces for blocking air flow from the curtain wall inner space or the vertical frame in contact with the heat insulating coupling member or the vertical frame,
The glass gap regulating member is formed to have a 'C' -shaped cross section, and serrated portions formed in a direction in which the glass is inserted are formed on both side supporting portions which are in contact with and supported by the inserted glass, A curtain wall capable of adjusting the glass clearance.
delete delete delete The method according to claim 1,
Wherein the horizontal frame comprises an upper elastic protrusion having an upper latching protrusion formed at the center of the outdoor side and a lower elastic protrusion having a lower latching recess formed therein to form a fitting engagement protrusion for interference with the heat insulating fastening member. month.
The method according to claim 1,
Wherein the heat insulating fastening member comprises: a fastening groove portion having an upper fastening piece having an upper fastening tab formed on an inner side end thereof and a lower fastening piece formed with a lower fastening tab,
A latching protrusion protruding in the vertical direction on the outdoor side end to be fitted into the outdoor frame;
And at least one hollow portion formed inside the curtain wall.
The method according to claim 1,
The outdoor frame includes a frame engaging groove portion formed at a central portion in a direction toward the inside of the room and in which an engaging end formed at the other end of the heat insulating fastening member is inserted;
And a cap engaging groove on both sides of the frame engaging groove to engage the cap.

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