KR101670709B1 - Curtain wall improved assembly and blocking water performance - Google Patents

Abstract

The present invention relates to a curtain wall improved in assembling property and water hydraulic power, and its object is to provide a curtain wall having a project window, And to provide a curtain wall having a member.
The construction of the present invention comprises a horizontal frame and a vertical frame installed on an outer wall of a building and coupled to support a load of glass; A curtain wall comprising a project window provided for ventilation and ventilation, the curtain wall being made of a synthetic resin material in contact with an elastic packing material provided on a lower surface of the project window to provide heat and heat insulation, And an upper joint member and a lower joint member are formed on the upper end of the cabinet so as to be coupled to the upper portion and the joint portion formed in the horizontal frame in an insertion or insertion manner. The present invention is characterized in that the curtain wall is improved in assemblability and hydraulic force including the above.

Description

[0001] The present invention relates to a curtain wall improved assembly and blocking water performance,

The present invention relates to a curtain wall improved in assemblability and hydraulic performance. More specifically, a curtain wall having a project window is assembled to a project window to assure airtightness, The present invention also relates to a curtain wall having a structure capable of improving the assembling performance and providing the hydraulic power and the heat insulating force.

Structures made of reinforced concrete or steel frames are constructed of the above-mentioned frames made of pillars and beams by the vertical load of the building and the horizontal load caused by wind or earthquake, and the outer wall for protecting the occupants of the building from the outside environment is usually curtain wall ).

Such curtain walls are made of materials such as stainless steel, aluminum, bronze and the like which are used as non-proof partition walls, but in recent years, construction of curtain walls using glass has been increasing.

Therefore, it is often said that a curtain wall is a lightweight outer wall structure constructed to support a glass load that forms the exterior of a building. Advantages of curtain wall using glass are that it has the function of blocking rain or wind from the outside, blocking noise and heat, and improving indoor light.

Among the above curtain walls, the glass curtain wall is provided with a project window for ventilation and ventilation. The project window is usually composed of a structure that is hinged to a vertical frame constituting a curtain wall and rotates around the hinge axis. In addition, the lock mechanism is interlocked with the curtain wall frame by the operation of the handle lever installed in the project window, and the locking and opening operation is performed. The rotating structure and the locking structure of the curtain wall are mostly different from each other only in some structures according to the designer, but the basic construction and operation are well-known structures, and since the structure is not characteristic of the present invention, do.

FIG. 4 is a side sectional view showing an internal structure of a curtain wall having a project window according to a conventional example, FIG. 5 is a side sectional view showing an internal structure of a curtain wall having a project window according to another embodiment of the present invention, Fig.

A curtain wall having a conventional project window as shown in the figure is constructed such that a frame portion hermetically contacting the lower surface of the project window is integrally protruded from the horizontal frame to the outside in order to provide airtightness and heat insulating capability when the project window is closed A structure in which a protruded frame is covered with a rubber material having an elastic force or a structure in which a heat insulating material is filled between the protruded frame and the like is constituted, so that when the curtain wall is constructed, the protruding portion and the curtain wall body are integrally extruded It is structurally disadvantageous that it is not easy to secure a work space when constructing or repairing a project window because it has to be constructed after it is manufactured.

In addition, since the insulation between the curtain wall frame and the protruded metal frame is filled, the structure is complicated and the manufacturing process is long. In addition, since such a structure must be integrally constructed, it is not easy to secure a work space during the construction or maintenance of the project window There are disadvantages.

In addition, since the external air is integrally formed with the horizontal frame of the curtain wall, the external air is thermally transferred to the room through the metal frame, which is structurally insufficient for thermal insulation.

In addition, the rubber material covered with the protruding frame part is deteriorated after being aged, or it is structurally insulated by heat transfer to the room through the exposed metal frame in case of breakage.

In addition, if cracks or breakage occurs in the heat insulating material filled between the curtain wall frame and the protruding metal frame, structural problems such as deterioration of heat insulation and lowering of bearing capacity of the protruding frame may occur. It is difficult to secure and maintenance of the heat insulating part is more difficult.

In addition, since the sealing structure between the conventional project window and the curtain wall frame as described above is formed in a flat shape, the elastic packing material having elastic force formed at the lower part of the project window for sealing can not be opened and closed well due to heavy load during opening and closing, There is a disadvantage that the durability is deteriorated due to the fatigue phenomenon of the packing material.

On the other hand, a curtain wall having a project window flows backward in an upward direction along a frame or a window formed of a curtain wall due to the influence of wind as well as the downward flow of rainwater in the case of rainfall from the outside, In this case, the rainwater may flow into the room along the boundary between the curtain wall and the project window when the project window is opened.

In addition, there is a structural problem in that if the inflowed water is not discharged after it is discharged, stain or permanent discoloration may occur on the surface of the frame, and packing re-corrosion due to continuous contact with water may occur.

Korean Patent Registration No. 10-1448398 (2014.09.30.) Korean Patent Registration No. 10-1153212 (May 30, 2012) Korean Registered Patent Publication No. 10-1265925 (Feb. Korean Utility Model Publication No. 20-2015-0000653 (Feb.

In order to solve the above problems, an object of the present invention is to provide a curtain wall having a structure which is separated and installed in a curtain wall having a project window, and which has a good workability and has an order structure for rainwater and a heat insulating structure, .

Another object of the present invention is to provide a curtain wall which is constructed in such a manner that an upper portion of a heat insulating member contacting an elastic packing material hermetically sealing a lower side of a project window has a tilted structure having a stepped surface, have.

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 to support a load of glass, In a curtain wall comprising a project window installed for ventilation and ventilation,

And an upper water surface is formed on the upper side of the outer side of the project window and an upper water level is formed on the upper side of the upper side, And an upper joint member and a lower joint member formed on an upper end of the frame so as to be inserted or inserted into the upper joint member and the joint member in an inserting manner. .

According to a preferred embodiment of the present invention, the upper fastening piece is formed to have an upwardly bent shape, and may be coupled to an upper fastening part formed of both side support protrusions and fastening grooves formed at the front end of the horizontal frame.

In a preferred embodiment of the present invention, the lower fastening piece is provided with a locking protrusion protruding from the lower surface, and a guiding part formed to be inclined toward the upper end from the locking protrusion is formed, And may be configured to be coupled to the lower coupling portion formed by the projection and the coupling groove.

According to a preferred embodiment, the order portion may include upper upper order pieces protruding forward, lower order pieces formed at a lower side spaced from the upper upper order pieces and a drain groove formed between the upper order pieces and the lower order pieces.

In a preferred embodiment, the upper-order piece and the lower-order piece may be configured to have a downwardly inclined shape.

In a preferred embodiment, the upper-order piece may be configured to protrude longer than the lower-order piece.

In a preferred embodiment of the present invention, the upper main water surface with the tiered inclination is inclined downward toward the outdoors, and a stepped trench is formed along the main water surface having the same inclination at regular intervals to form a stepped water surface .

In a preferred embodiment, the heat insulating member may have at least one hollow portion formed therein.

The curtain wall according to the present invention having the above-described features can be constructed by fitting the heat insulating member structure to the horizontal frame of the curtain wall at the lower side of the project window while the curtain wall is being constructed by providing the inter- Therefore, it is advantageous that construction and maintenance can be conveniently performed in a state in which a space for construction is ensured,

In addition, since the heat insulating member is separated from the metal curtain wall, the outdoor temperature can be prevented from being conducted to the room,

In addition, since the multi-order structure is provided on the front and the top by the heat insulating member, the inflow of rainwater can be prevented,

In addition, since the upper water surface of the water heat insulating member is formed of an inclined structure formed with multi-step water level, the elastic packing material hermetically sealing the lower side of the project window prevents the inflow of rainwater in multiple stages, Therefore, the opening and closing action of the project window is easy, and the rainwater is always discharged to the outdoor side due to the inclined structure. Therefore, the elastic packing material is less likely to corrode due to the water and the durability is improved and the surface is not stained or discolored And the durability is improved. Therefore, the invention is a highly anticipated use in industry.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall side sectional view showing an internal structure of a curtain wall having a project window according to an embodiment of the present invention;
FIG. 2 is a partially enlarged side sectional view showing an internal structure of a curtain wall having a project window according to an embodiment of the present invention,
FIG. 3 is an exemplary diagram illustrating the order function for rainwater in a curtain wall having a project window according to an embodiment of the present invention,
4 is a side cross-sectional view showing an internal structure of a curtain wall having a project window according to a conventional example,
5 is a side sectional view showing an internal structure of a curtain wall having a project window according to another embodiment of the present invention.

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 an overall side sectional view showing an internal structure of a curtain wall having a project window according to an embodiment of the present invention. FIG. 2 is a side view of a curtain wall having a project window according to an embodiment of the present invention. FIG. 3 is an exemplary diagram illustrating the operation of rainwater in a curtain wall having a project window according to an exemplary embodiment of the present invention. Referring to FIG.

As shown in the drawings, a curtain wall structure according to an embodiment of the present invention includes a horizontal frame 1 and a vertical frame 2 installed on an outer wall of a building to support the load of the glass 3, And is configured to support the provided project window 4. The horizontal frame and the vertical frame are extruded metal products and cut to the required length. As the metal material to be used, aluminum material is commonly used.

The horizontal frame and the vertical frame are usually a frame having a cross section with an internal cross-sectional shape, and each frame of the building is composed of one or a plurality of layers. Vertical frames between neighboring upper and lower horizontal frames are combined by a conventional fastening method such as welding or bolt screwing, and horizontal and vertical frames are combined in a lattice form as a whole to constitute a wall structure.

Although the horizontal frame is mainly supported by the load of the glass, the metallic member or the synthetic resin support member supporting the lower surface of the glass is installed at every predetermined interval of the horizontal frame extruded in the longitudinal direction, So as to support and support the lower surface. By providing such a support member, the glass load can be safely supported directly by the rigidity of the horizontal frame. However, the glass load supporting structure using such a supporting member 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 project window is directly installed on a vertical frame supporting a horizontal frame and is configured to support a load or to install a separate vertical frame between upper and lower horizontal frames and then to hinge with both vertical frames to rotate up and down while supporting the load. However, the construction and operation method of such a project window is a known construction as described above, so that a detailed description will be given by a known technique.

In the opening and closing operation of the project window 4, the water insulating member 5 according to the present invention, which is in contact with the elastic packing material 41 formed on the lower surface of the project window and hermetically works, And can be assembled in various ways according to the site conditions.

The elastic packing material is a member having elasticity and is installed in a longitudinal direction over a portion where the project window and the horizontal frame are in contact with each other. The resilient packing material can be installed as a consumable member in a manner that it can be easily mounted in the lateral direction. The elastic padding material is composed of one piece of a rubber material or a synthetic resin material having elasticity. In addition, if the elastic packing material has a short contact distance with the heat insulating member, the bending area increases and the contact area with the heat insulating member becomes wider, and the yarn heat insulating member is constantly sealed due to the elastic force.

Further, the heat insulating member is formed of an extruded material and has a length corresponding to at least a horizontal frame. The heat insulating member 5 is made of a synthetic resin such as PVC having a low thermal conductivity and good heat insulation performance. Of course, other synthetic resin materials known in the art may be used as long as they have the same performance as PVC.

The horizontal frame 1 is formed at the front end portion, that is, at the center of the outdoor side surface with the upper side engaging portion 11 and the lower side engaging portion 12 for the assembly installation of the heat insulating member 5, So as not to be detached from the assembled state. To this end, the upper and lower coupling parts are formed with coupling grooves 112 and 122 formed by supporting protrusions 111 and 121 protruding from both sides as shown in the figure.

The heat insulating member 5 is formed with an upper fastening piece 51 and a lower fastening piece 52 having different shapes toward the interior direction so that the upper and lower fastening portions 11 and 12 formed on the horizontal frame Respectively. The upper fastening piece 51 is formed to have a bent shape and the lower fastening piece 52 is formed with a latching protrusion 521 protruding from the lower surface. The guide portion 522 is provided with a latching force by the latching jaw 521 at the time of insertion into the room from the outdoor side or through the lateral bending of the horizontal frame, The one end of the heat insulating member 5 is guided to provide an elastic force to be inserted.

As described above, according to the selection in the field, the assembling method is inserted at the front portion of the horizontal frame of the curtain wall which is pre-installed or inserted laterally and fastened.

The upper fastening piece 51 is first obliquely hooked into the fastening groove 112 formed by the side support projections 111 of the upper fastening portion 11 and then the lower fastening piece 52 is rotated The guide portion 522 contracts due to the elastic force while being guided by the support protrusion 121 and is expanded at the end portion of the guide portion so that the support protrusion 121 of the lower engagement portion 12 And is engaged with the fastening groove 122 to be formed.

The upper fastening piece 51 and the lower fastening piece 52 are respectively fastened to the fastening grooves 112 formed by the supporting projections 111 of the upper engaging portion 11 through the side surfaces of the horizontal frame And the lower protrusions 121 of the lower engaging portion 12, and then pressed in the lateral direction to push it in.

The heat insulating member (5) is formed with a water receiving portion (53) toward the outdoor side. The order part is composed of an upper upper order piece 531 protruding forwardly, a lower ordering piece 532 formed on the lower side spaced apart from the upper side order piece 531 and a drain groove 533 formed in a space between the upper order piece and the lower order piece.

The upper-order piece and the lower-order piece are configured to have an inclined shape in a downward direction so that they naturally flow down when rainwater flows in. Particularly, the upper-order part protrudes longer than the lower-order part, and the rainwater flowing backward from the lower-side glass or the horizontal frame can not ascend.

The draining groove is a space in which the rainwater flowing in the upper level part or the lower level part flows in the side or lower direction. The rainwater is prevented from moving in the vertical direction by the space and drains the rainwater.

Due to the above-mentioned order structure, the rainwater is prevented from flowing into the room through the upper surface of the heat insulating member located at the lower portion of the project window.

A seal 6 such as rubber or a sealant 7 such as silicone is used to provide a buffering force against vibration and a bearing force and water tightness against vibration between the lower portion of the lower order portion and the upper surface of the glass .

On the upper surface of the heat insulating member 5, there is formed an upper water surface 54 which is inclined downward toward the outdoors so that the elastic packing material hermetically sealing the lower surface of the project window is in contact with the project window It gradually increases in weight so that the opening and closing actions of the project window are facilitated and the rainwater is discharged to the outside at all times. As a result, the elastic packing material also has less corrosion due to water, and fatigue caused by continuous banding is reduced, thereby improving durability. Further, no staining or discoloration occurs on the surface.

In addition, the upper car water surface 54 is formed with a plurality of step chambers 541 formed at regular intervals along the slopes having the same slope to have stepped slopes. That is, the slope of the upper vehicle water surface is formed to have the same slope, and the slope of the upper slope is increased at each point. The degree of jaw blows windblown so that some rainwater flows along the slope and plays a role of preventing the height of the level jaws from exceeding due to the backward flow along the slope. If there is rain water over the level jaw, it will flow downward by the inclined structure or obstruct the continuous inflow to another level jaw.

In addition, the order jaw also serves to promote drainage of rainwater. When a certain volume of rainwater collects over the orderly jaws, the load increases and flows downward or sideways, overcoming the surface tension of the rainwater formed on the upper water surface.

The heat insulating member (5) has at least one hollow portion (55) formed therein. The hollow portion is configured to increase the heat insulating force and reduce the load to prevent sagging. When the hollow portion is formed, the heat transfer is blocked by the air layer, and the heat insulating force is increased.

Also, since the weight of the synthetic resin material is reduced as much as the space in which the air layer is formed, the load applied to the upper engaging piece 51 and the lower engaging piece 52 is reduced, thereby increasing the durability of the assembly.

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): Vertical frame
(3): Glass (4): Project window
(5): heat insulating member (6): packing
(7): sealant (11): upper joint part
(12): lower coupling portion (41): elastic packing material
(51): upper fastening piece (52): lower fastening piece
(53): order portion (54): upper car water surface
(55): hollow portion (111, 121): support projection
(112, 122): engaging groove (521): engaging jaw
(522): guide portion (531): upper order piece
(532): Lower order piece (533): Drain groove
(541): order chin

Claims (8)

A horizontal frame and a vertical frame installed on an outer wall of the building and coupled to support a load of the glass; In a curtain wall comprising a project window installed for ventilation and ventilation,
And an upper water surface is formed on the upper side of the outer side of the project window and an upper water level is formed on the upper side of the upper side, And an upper joint member and a lower joint member formed on the upper end of the frame so as to be inserted or inserted into the joint member,
And the drain portion is formed in a space between the upper order piece and the lower order piece, and the drain hole is formed in a space between the upper order piece and the lower order piece,
Wherein the upper order piece and the lower order piece have a shape inclined downward and the upper order piece is protruded longer than the lower order piece,
Wherein the upper side water surface having the tiered inclined surface is inclined downwardly toward the outdoors direction and the tiered water level surface is formed at regular intervals along the water level surface having the same inclination, And curtain walls with improved hydraulic power.
The method according to claim 1,
Wherein the upper fastening piece is formed to have a shape bent to an upper side and is coupled to an upper engaging portion formed of both side support protrusions formed in a front end portion of the horizontal frame and a fastening groove, month.
The method according to claim 1,
The lower fastening piece is formed with a guide protrusion protruding from the lower surface and formed with an inclined guide portion inclined upward toward the upper end from the stopping protrusion, and is formed with both side support protrusions and fastening grooves formed at the front end of the horizontal frame And is configured to be coupled to the lower coupling portion.
delete delete delete delete The method according to claim 1,
Wherein said heat insulating member has at least one hollow portion formed therein.

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