KR102345085B1 - Curtain Wall With Insulation Block - Google Patents

Abstract

It includes a frame part provided in an open form at one side and a heat insulating structural block coupled to the inside of the frame part, formed to protrude in one direction based on the frame part, and supporting a window member placed on the protruding part, the frame Insulation curtain wall including a heat insulating structural block, characterized in that the portion other than the portion provided with the insulating structural block in the interior of the section is filled with an insulating material.
According to the present invention, since a heat insulating material is filled in the remaining portion of the frame portion except for the portion in which the heat insulating structural block is provided, there is an effect that the heat insulating effect can be further increased.

Description

Curtain Wall With Insulation Block

The present invention relates to a heat-insulating curtain wall including a heat-insulating structural block, and more particularly, to a frame part provided in an open form on one side, coupled to the inside of the frame part, and formed to protrude in one direction based on the frame part, , It relates to a curtain wall, comprising a heat insulating structural block for supporting the window member placed on the protruding portion, characterized in that the remaining portion of the frame portion except for the portion provided with the insulating structural block is filled with an insulating material.

A curtain wall is installed on the outside of a building and acts as a partition that does not support the load of the building. It protects the occupants of the building from outside rain or wind. In addition, the curtain wall is often used in high-rise buildings, and through this, the outer wall of the building is surrounded by glass, etc., and has an aesthetically excellent effect. And since the weight of the building has a great influence on the thickness of columns or beams, light materials are used for the curtain wall to reduce the weight.

Therefore, in general, a frame made of an aluminum alloy material having excellent strength, little deformation, and excellent durability is mainly used. Such a conventional curtain wall has disadvantages in that most of the outer wall is made of glass, and a large amount of heat loss occurs through the frame, which is a metal material, so that the thermal insulation performance is deteriorated and the structure is weak.

As a prior art document for solving the problems of the conventional curtain wall, looking at Korean Patent Registration No. 10-1142918, the prior art document relates to a curtain wall sash assembly with improved airtightness and watertightness, and a rubber in a horizontal sash By installing an elastic piece of material to prevent damage to the sash assembly due to friction between metal and metal, the joint portion of the horizontal and vertical sash improves water tightness and airtightness to prevent damage to the sash assembly. The present invention relates to a curtain wall sash assembly with improved airtightness and watertightness that secures safety of a sash assembly by providing an elastic piece at an end so that the elastic piece acts as a buffer even when a wind load occurs on the sash assembly.

However, according to this prior art, there is a problem in that it is not easy to fill the heat insulating member inside the chassis.

And, according to the prior art, there are problems in that the assembly process of the glass window is cumbersome and inconvenient, such as the glass window is temporarily fixed in an unstable manner in the process of assembling the glass window, and the glass window interferes with the frame.

Korean Patent Publication No. 10-1142918 (2012.04.27.)

The present invention has been devised to solve the problems of the prior art as described above, and it is to form a wide space in the rest of the frame except for the portion where the heat insulating structural block is provided so that a large amount of heat insulator is filled. There is a purpose.

In addition, the insulating structural block of the present invention is composed of a plurality of parts, and by sequentially assembling the plurality of parts in the process of installing the window member, it is possible to avoid interference with the frame while the window member is more firmly fixed. It is an object that the installation process of the window member can be simpler and easier.

The present invention is a frame portion provided in an open form on one side;
a member insertion part provided inside the frame part; and
Including; is coupled to the member insertion portion, is formed to protrude in one direction based on the frame portion, and supports the window member placed on the protruding portion;
The insulating structure block,
a main block having a cross-section formed in a T-shape, a central portion protruding to form a support, and fixing the window member; and
The cross-sectional shape is formed in a T-shape, and the central part protrudes to form a support and is coupled to the main block to prevent the window member from departing from the main block; includes,
a first fastening member for fastening the sub-block and the main block; and
a second fastening member for fastening the main block and the frame unit;
The first fastening member and the second fastening member are disposed to be spaced apart from each other by a predetermined distance along the longitudinal direction of the frame portion,
The sub-block provides an insulating curtain wall comprising an insulating structural block, characterized in that formed in an integral or separate type.
In addition, the frame part of the present invention,
Vertical frame installed perpendicular to the ground;
A horizontal frame coupled to one side of the vertical frame and installed to be parallel to the ground; includes,
When the window member is installed, the frame part is characterized in that it is provided in a grid shape to surround the window member,
The sub-block coupled to the vertical frame is integrally formed, and the sub-block coupled to the horizontal frame has a first sub-block having a rectangular shape in front and an L-shape surrounding the first sub-block. It is characterized in that it consists of a second sub-block formed of
In addition, the present invention is characterized in that a protrusion is formed at the end of the support of the sub-block, and a support fastening groove into which the protrusion is inserted and coupled is formed at the end of the support of the main block.
The present invention further includes a friction member mounted on the upper and lower portions of the protruding support portion of the insulating structural block to support the window member;
The friction member is characterized in that the window member is supported so that it does not slip to improve the dustproof performance.
In addition, the frame part of the present invention,
and a stick bracket coupled to both sides of the vertical frame to couple the vertical frame and the adjacent horizontal frame.

By means of solving the above problems, according to the present invention, since the insulating material is filled in the remaining portion except for the portion where the insulating structural block is provided in the inside of the frame portion, there is an effect that the insulating effect can be further increased.

In addition, the heat insulating member of the present invention has a soundproofing effect, and the close coupling structure of the heat insulating member installed in the frame part, the window member, and the heat insulating structural block, and the sealant filled in the gap between the couplings have an effect of blocking noise outside the building. have.

In addition, the heat insulating member filled in the frame portion of the present invention is filled in most of the space inside the frame portion to increase the temperature of the outer surface of the frame portion, there is an effect of preventing dew condensation.

In addition, the insulating structural block of the present invention is composed of a plurality of parts, and by sequentially assembling the plurality of parts in the process of installing the window member, the window member is more firmly fixed while avoiding interference with the frame There is an effect that the installation process of the window member can be simpler and easier.

1 is a perspective view showing the configuration of a heat insulating structural block including a separable sub-block of the present invention.
2 is a perspective view showing the configuration of a heat insulating structural block including an integrated sub-block of the present invention.
FIG. 3 is a view showing the opposite side of FIG. 1 .
FIG. 4 is a view showing the opposite side of FIG. 2 .
5 is a view showing the arrangement of screws for assembling the insulating structural block of the present invention.
6 is a view showing the arrangement of screws for assembling the insulating structural block including the separable sub-block of the present invention.
7 is a view showing the arrangement of screws for assembling the heat insulation structural block including the integrated sub-block of the present invention.
8 is a view showing a state in which the heat insulating material and the main block are installed inside the horizontal frame and the vertical frame of the present invention.
9 is a view showing the configuration of the members installed in the horizontal frame of the present invention.
10 is a view showing the configuration of the members installed in the vertical frame of the present invention.
11 is a view showing a front view of a state in which the insulation material and the insulation structural block are installed on the vertical frame and the horizontal frame of the present invention.
12 is a view showing the configuration of the vertical frame, the cap frame, and the heat insulating structural block of the present invention.
Fig. 13 is a view showing a cross-sectional view taken along line BB of Fig. 11;
14 is a view showing the configuration of the vertical frame, the cap frame, and the heat insulating member of the present invention.
15 is a view showing a cross-sectional view taken along line B`-B` of FIG. 11 .
16 is a view showing the configuration of the horizontal frame, the cap frame, and the insulating structural block of the present invention.
Fig. 17 is a view showing a cross-sectional view taken along line AA of Fig. 11 ;
18 is a view showing the assembly sequence of the vertical frame, the cap frame and the insulating structural block of the present invention, (A1) is a frame coupling step in which the vertical frame is coupled, (A2) is the main block is inserted into the vertical frame The block insertion step, (A3) is a window member contacting step in which the window member is in contact with the insulating structural block, and the window member is primarily installed, (A4) is a cap frame coupling step in which the cap frame is wrapped around the sub-block to be.
19 is a view showing the assembly sequence of the horizontal frame, the cap frame, and the insulating structural block of the present invention, (B1) is the main block insertion step in which the main block is inserted into the horizontal frame, (B2) is the lower end of the support of the main block The lower installation step in which the window member is brought into contact with the first sub-block and the first sub-block is installed, (B3) is a temporary installation step in which the window member is seated on the top of the support of the insulating structural block and is temporarily fixed It is a drawing of the installation finishing step that wraps around the sub-block and is combined.
20 is a view showing the assembly sequence of the vertical frame, the cap frame, and the insulating structural block of the present invention, (C1) is a frame installation step in which the vertical frame is coupled and installed, (C2) is a thermal insulation member is inserted into the vertical frame The first step of installing the insulating member, (C3) is the second step of installing the insulating member covering the window member and the sub-block, and the second step of installing the insulating member, (C4) is the insulation of caulking the gap between the cap frame and the window member It is a drawing of the member installation finishing step.
21 is a view showing the assembly sequence of the horizontal frame, the cap frame and the heat insulating member of the present invention, (D1) is the first heat insulating member installation step 2 of inserting the heat insulating member in the horizontal frame, (D2) is shown in FIG. When the upper installation step (B3) is completed, the cap frame and the insulating member surround the sub-block, and the secondary installation step 2, (D3) of the insulating member coupled to the window member is a caulking operation in the gap between the cap frame and the window member. Thus, it is a drawing for the insulation member installation finishing step 2 to complete the installation work by filling the gap.
22 is a view showing a cross-section of a state in which the main block and the window member are installed on the vertical frame according to the second embodiment of the present invention.
23 is a view showing a cross-section of a state in which a heat insulating member and a window member are installed on a vertical frame according to a second embodiment of the present invention.
24 is a view showing a cross-section of a state in which the main block and the window member are installed on the horizontal frame according to the second embodiment of the present invention.
25 is a view showing the sequence of a method for installing a window member in a horizontal frame according to a second embodiment of the present invention, (E1) is a main block insertion step of inserting a horizontal frame main block, (E2) is The lower installation step of installing the window member at the bottom of the main block, (E3) is a temporary installation step of temporarily fixing the window member on the top of the main block and caulking, (E4) is the removal of the temporary fixing member and caulking in the gap It is a drawing of the installation finishing stage where the work is done and the finishing work of the installation is carried out.
26 is a view showing a cross-section of a state in which a heat insulating member and a window member are installed on a horizontal frame according to a second embodiment of the present invention.
27 is a view showing a sequence of a method for installing a heat insulating member in a horizontal frame according to a second embodiment of the present invention, (F1) is a heat insulating member installation step in which the heat insulating member is inserted into the horizontal frame, (F2) 25 is a view of the insulation member installation finishing step in which the installation of the window member is completed, caulking the gap to complete the installation from the main block insertion step (E1) to the installation closing step (E4) of FIG. 25 .
28 is a view showing the coupling between the frames through the stick bracket according to the third embodiment of the present invention, and the state in which the insulating structural block and the window member are installed.
29 is a view showing a state in which coupling between frames through a stick bracket and a heat insulating member and a window member are installed according to a third embodiment of the present invention.
30 is a view showing a method of coupling between frames and installing a window member through a stick bracket according to a third embodiment of the present invention, (G1) is a stick bracket fastening step of coupling the stick bracket to both sides of the vertical frame; (G2) is the horizontal frame fastening step of combining the vertical frame and the horizontal frame through the stick bracket, (G3) is the installation finishing step in which the insulating structural block, window member and cap frame are installed in the combined frame, and caulking is performed. is a drawing for
31 is a view showing a state in which an insulating member is installed in addition to the coupling between frames through the stick bracket and the installation method of the window member according to the third embodiment of the present invention, (G1) is a stick bracket on both sides of the vertical frame The stick bracket fastening step of coupling, (G2) is the horizontal frame fastening step of coupling the vertical frame and the horizontal frame through the stick bracket, (G4) is a cross-section of the insulation member installed in the installation closing step (G3) of FIG. It is a drawing for what is shown.

Terms used in this specification will be briefly described, and the present invention will be described in detail.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the entire specification, when a part “includes” a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

Specific details including the problem to be solved for the present invention, the means for solving the problem, and the effect of the invention are included in the embodiments and drawings to be described below. Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

Hereinafter, the present invention will be described in more detail based on a unit-type curtain wall with reference to the accompanying drawings.

The curtain wall according to a preferred embodiment of the present invention is coupled to a frame portion 100 provided in an open form on one side and the frame portion 100 , and in one direction with respect to the frame portion 100 . It is formed to protrude, and includes a thermal insulation structural block 200 for supporting the window member 20 placed on the protruding portion. And the frame part 100, a vertical frame 110 installed perpendicular to the ground, a horizontal frame 120 coupled to one side of the vertical frame 110 and installed so as to be parallel to the ground, and the insulating structural block It includes a cap frame 130 that is coupled to surround the protruding part of the 200 . In addition, an accommodating space is provided inside the frame unit 100 , so that the insulating member 10 may be accommodated in the remaining space except for the portion to which the insulating structural block 200 is coupled.

In more detail, referring to FIGS. 1 to 7 , the insulating structural block 200 includes a main block 210 for fixing the window member 20 , and a main block 210 coupled to the main block 210 to the window member ( 20) is composed of a sub-block 220 that prevents the main block 210 from being separated. In addition, the sub-block 220 is formed in two types: an integral type and a separate type. The separate sub-block 220 is composed of a first sub-block 221 and a second sub-block 222, and a portion corresponding to about a quarter of the integrated sub-block 220 is separated. shape that has been That is, the second sub-block 222 surrounds one side of the first sub-block 221 in a 'L' shape and is formed in a form that can be assembled.

In addition, a support 201 protruding from the center is formed on one side of the main block 210 and the sub-block 220 . And the ends of the supporter 201 are screwed in contact with each other, so that the main block 210 and the sub-block 220 are coupled, and the combined main block 210 and the sub-block 220 have a cross-section. It is formed in the shape of '工'. In addition, at the end of the support 201a formed in the main block 210, a support fastening groove 202 is formed so that the ends of the supports 201b, 201c, 201d formed in the sub-block 220 can be inserted. Therefore, the main block 210 and the sub-block 220 can be more tightly coupled.

In addition, in the coupling relationship between the separable type sub-block 220 and the main block 210, a screw protruding from the end of the support 201b through the first sub-block 221 is the support fastening groove. It is fastened to one side of the 202, and the main block 210 and the first sub-block 221 are coupled. Next, the second sub-block 222 is disposed in a shape surrounding the side surface of the first sub-block 221 , passes through the second sub-block 222 and protrudes from the end of the support 201c. is fastened to the other side of the support fastening groove 202, so that the main block 210 and the second sub-block 222 are coupled, and the second sub-block 222 is a side surface of the first sub-block 221. It can be assembled in the form of enclosing the

In addition, in the coupling relationship between the integrated type sub-block 220 and the main block 210, a plurality of screws passing through the sub-block 220 and protruding from the end of the support 201d are the support fastening grooves. It is fastened to one side of the 202, and the main block 210 and the sub-block 220 are coupled.

Accordingly, through the combination of the main block 210 and the sub-block 220, the insulating structure block 200 is formed in a shape having a '工' cross-section, so that the window member 20 is the insulating structure to be seated on the support 201 of the block 200 .

And referring to FIGS. 8 to 11 , the horizontal frame 120 is coupled to both sides of the vertical frame 110 to form a cross shape, and a plurality of the vertical frames and the horizontal frames 110 and 120 are coupled to each other. The frame part 100 is formed in a grid shape. That is, when the window member 20 is installed, the vertical and horizontal frames 110 and 120 are provided in a grid shape to surround the window member 20 .

In addition, when the horizontal frame 120 is divided into quarters, the insulating structural block 200 is installed on one side corresponding to a quarter point and a third quarter point, respectively. And the insulating structure block 200 is installed on one side of the vertical frame (110). However, since the vertical frame 110 receives a relatively small load due to the window member 20 compared to the horizontal frame 120 , the insulating structural block 200 may also be installed less. Although the position at which the insulating structural block 200 is installed has been described according to a preferred embodiment of the present invention, the location and number of the insulating structural block 200 installed may be changed according to the needs of the user.

In addition, the insulating member 10 may be accommodated in the remaining space except for the portion where the insulating structural block 200 is installed. Accordingly, a heat insulating material may be filled in the remaining portion of the frame portion 100 except for the portion in which the heat insulating structural block 200 is provided.

12 to 15 , the frame part 100 has a hollow accommodating hole 101 , and one side is open so that the heat insulating structural block 200 and the heat insulating member 10 are It has a member insertion portion 102 that can be inserted into the inside of the frame portion (100). In addition, the receiving hole 101 is formed in a rectangular shape along the cross-section of the frame part 100 by the length of the frame part 100 .

In addition, the member insertion portion 102 is a space formed by opening one side of the frame portion 100 , and the member insertion portion 102 , the inlet end 104 is the inner side of the frame portion 100 . Since it is bent at a right angle toward the frame part 100 , it is possible to fix the insulating structural block 200 and the insulating member 10 inserted into the frame part 100 .

In addition, a member fixing part 103 is provided on the inner surface of the member insertion part 102 . The member fixing part 103 is formed to protrude from the inner surface of the member insertion part 102 in the inlet direction of the member insertion part 102, and the end of the member fixing part 103 is, It is bent at right angles toward the inside like the inlet side of the part 102 so that the heat insulating structural block 200 and the heat insulating member 10 inserted through the member insertion part 100 can be more firmly fixed. .

In addition, the main block 210 includes a plurality of adhesive grooves 203 formed on one surface in contact with the main block 210 when the frame unit 100 is installed. And when the plurality of adhesive grooves 203 come into contact with the inner surface of the member insertion unit 102 by applying an adhesive to one surface of the main block 210, the main block 210 is inserted into the member. It is made to be more closely attached to the inner surface of the part 102 to increase the adhesive force.

In addition, the vertical frame 110 consists of two parts consisting of a first vertical frame 111 and a second vertical frame 112 , and has a structure that can be separated and combined, and the inner surface of the vertical frame 110 . It is provided in and includes a coupling member 300 for coupling the first vertical frame 111 and the second vertical frame (112). In addition, the coupling member 300 includes a first intermediate coupling member 301 and a first outer coupling member 302 protruding from the first vertical frame 111 , and the second vertical frame 112 . It includes a second interrupted coupling member 303 and a second outer side coupling member 304 protruding from the.

And the first interrupted coupling member 301 is vertically protruded from one side of the side of the first vertical frame 111 , and the member fixing part 103 is provided on one side of the first interrupted coupling member 301 . is formed In addition, as the central portion of the other side of the first interrupted coupling member 301 protrudes to form a protrusion 305 , the cross-section of the first interrupted coupling member 301 is formed in the shape of the letter ‘T’.

In addition, the second interrupted coupling member 303 vertically protrudes from one side of the side of the second vertical frame 112 , and an end of the second interrupted coupling member 303 is bent at a right angle, and the protrusion The accommodating hole 101 is formed between the first vertical frame and the second vertical frame in contact with the side surface of the 305 .

In addition, the first outer surface coupling member 302 is formed by bending one side of the first vertical frame 111 at a right angle, and the second outer surface coupling member 304 includes the second vertical frame ( 112) is formed by bending one side at a right angle. In addition, the end of the second outer surface coupling member 304 is double bent, and the cross-section of the bent end of the second outer surface coupling member 304 forms a 'L' shape, so that the It may be coupled in a form surrounding the side and the end of the first outer side coupling member (302).

In addition, the first outer surface coupling member 302 and the second outer surface coupling member 304 are coupled to each other to form the outer surface of the vertical frame 110 .

Therefore, when the two parts of the vertical frame 110 are combined, the first vertical frame 111 and the second vertical frame 112 are formed with the receiving hole 101 on the inside of the vertical frame 110 and The member insertion unit 102 is coupled to be formed, and serves to provide a space in which the heat insulating structural block 200 and the heat insulating member 10 can be accommodated.

In addition, referring to FIGS. 16 to 17 , the horizontal frame 120 includes a screw fastening part 121 to be coupled to the vertical frame 110 . The screw fastening part 121 is formed on one side corresponding to a quarter point and a third quarter point, respectively, when the upper end and the lower end of the inner surface of the horizontal frame 120 are divided into quarters, and the horizontal frame ( 120) to be screwed to both sides of the vertical frame 110 . In addition, the screw fastening part 121 is formed in an open cylindrical shape with one side of the outer peripheral surface so that it can be accommodated even if it is not a bolt of a perfect standard.

12 to 17 , a plurality of friction members 40 are provided on one surface of the coupling member 300 and the insulating structure block 200 . In addition, the friction member engaging portion 41 is formed on one surface on which the friction member 40 is provided, the cross-sections of both sides are formed in a 'C' shape, the friction member 40 is the friction member engaging portion ( 41) so that it can be coupled by being inserted in a sliding manner from the side. In more detail, the friction member 40 is installed at a portion in which the main block 210 and the sub-block 220 are in close contact with one surface of the window member 20, so that the window member 20 does not slip. plays a role

In addition, the friction member 40 is installed on a side surface adjacent to the end of the first interrupted coupling member 301 and one side of the protrusion 305 to provide the first and second interrupted coupling members 301 and 301 . (303) makes the bond more firm.

In addition, the friction member 40, the first outer surface coupling member 302 is installed on one surface corresponding to between the second outer surface coupling member 304, the first outer surface coupling member (302) and the second outer surface coupling member 304 to be more firmly coupled, and the friction member 40 is made of an elastic material and has an impact mitigating effect.

In addition, a frame stopper 223 is formed on one side of the sub-block 220 . The frame stopper 223 is formed to protrude outward from one side of the sub-bracket 220 . In addition, when the cap frame 130 is coupled to cover the sub-bracket 220, the inner bent end of the cap frame 130 is formed to be caught by the frame stopping part 223, It allows the sub-block 220 and the cap frame 130 to be firmly coupled. For this reason, the cap frame 130 covers the outer surface of the sub bracket 220 and is coupled, thereby blocking the gap between the window member 20 and the insulating structure block 200 , and forming the cap frame 130 . The insulating member 10 can be inserted into the remaining parts except for the part where the insulating structural block 200 is provided inside.

Also, between the ends of the plurality of window members 20 installed on the frame part 100 , a sealing member 11 is provided in the remaining parts except for the part where the heat insulating structure block 200 is provided. The sealing member 11 is installed in a gap between the ends of the plurality of window members 20 to ensure watertightness and airtightness.

In addition, a pre-fab method is applied to the frame part 100 to improve the construction accuracy and shorten the construction period by pre-fabricating the main structure and assembling it on-site. In more detail, on the side surfaces of the first vertical frame 111 and the second vertical frame 112, the horizontal frame 120 is pre-fab, so that the first vertical frame 111 and By simply coupling the second vertical frame 112, the frame part 100 can be installed in a grid pattern more quickly.

In addition, in the method of installing the window member 20 to the frame part 100 , referring to FIG. 18 , it is coupled to each other through the coupling member 300 formed on the inner surface of the vertical frame 110 . A frame coupling step (A1) is performed. At this time, the vertical frame 110 is formed in an open shape at one side, so that the member insertion part 102 in which the main block 210 and the heat insulating member 10 can be accommodated is formed. And the coupling of the coupling member 300 may be coupled by at least one or more methods of screw coupling, fitting coupling, and adhesive coupling.

In addition, a main block insertion step (A2) in which the main block 210 is inserted into the member insertion unit 102 formed inside the vertical frame 110 is performed. The main block 210 is fixed to the inlet side end 104 of the member insertion unit 102 and the member fixing unit 103 formed inside, and is fixed by screwing to the vertical frame 110 .

In addition, the window member 20 is brought into contact with both sides of the support 201a formed on the main block 210, and a caulking operation is performed in the gap formed between the window member 20 and the vertical frame 110. By applying the sealant 30, the window member 20 is primarily installed through the window member contact step (A3) for completely sealing the gap.

In addition, by coupling the sub-block 220 to the main block 210 , the sub-block 220 is strongly attached to the window member 20 , and the window member 20 can be completely fixed. Then, the cap frame 130 is coupled to the sub-block 220, and a sealant 30 is applied in a gap formed between the cap frame 130 and the window member 20 to form the window member 220 and A cap frame coupling step (A4) to block the gap formed between the cap frames 130 is performed.

Also, referring to FIG. 19 , a main block inserting step (B1) in which the main block 210 is inserted into the member inserting unit 102 formed inside the horizontal frame 120 is performed. And after the window member 20 is placed in contact with the lower end of the support 201a of the main block 210, the sealant 30 is applied between the window member 20 and the horizontal frame 120 to provide a gap. fill in Thereafter, the first sub-block 221 is preferentially coupled, and a lower installation step B2 of allowing the window member 20 to be primarily fixed to the lower portion of the horizontal frame 120 is performed.

In addition, the window member 20 is seated on the upper ends of the supports 201a and 202b of the main block 210 and the first sub-block 221 so that the window member 20 can be temporarily fixed, A temporary fixing step (B3) of applying the sealant 30 to the gap between the window member 20 and the horizontal frame 120 is performed.

Finally, by combining the second sub-block 222 with the main block 210 , the window member 20 can be completely fixed, and the cap frame 130 supports the sub-block 220 . After the installation closing step (B4) of filling and closing the gap by applying the sealant 30 to the gap between the cap frame 130 and the window member 20, the window member 20 is horizontally connected to the cover. to be fixed to the frame 120 .

Accordingly, the insulating structure block 200 prevents the window member 20 from interfering with the frame part 100, thereby making the installation of the window member 20 simple and easy.

In addition, since the sealant 30 is filled in a gap formed when the window member 20 and the insulating structure block 200 are coupled to the frame part 100 by caulking, external air can be blocked. .

In addition, in the process of filling the frame part 100 with the heat insulating member 10 , referring to FIGS. 18 to 21 , the first vertical frame 111 and the second vertical frame 112 are combined to A frame installation step (C1) of forming the vertical frame 110 is performed. And the first insulation member installation step (C2) of inserting the insulation member 10 custom-made so as not to interfere with the insulation structure block 200 in the member insertion portion 102 provided inside the vertical frame 110 (C2) go through And when the installation of the window member 20 and the sub-block 220 is completed during the window member contact step (A3), the cap frame 130 and the heat insulating member 10 surround the sub-block 220, , undergoes a secondary installation step (C3) of the insulating member coupled to the window member (20). Finally, the sealant 30 is applied to the gap between the cap frame 130 and the window member 20, and the insulation member installation closing step (C4) of filling the gap and completing the installation work is performed.

In addition, the first insulating member installation step 2 ( D1). And when the upper installation step (B3) is completed and the installation of the window member 20 and the sub-block 220 is completed, the cap frame 130 and the heat insulating member 10 attach the sub-block 220 to each other. Wrapped and passed through the second installation step 2 (D2) of the insulating member coupled to the window member (20). Finally, the sealant 30 is applied to the gap between the cap frame 130 and the window member 20, and the insulation member installation closing step 2 (D3) is performed to fill the gap and complete the installation work. Accordingly, the heat insulating member 10 may be filled in the frame part 100 .

Hereinafter, with reference to the accompanying drawings according to a second embodiment of the present invention, the present invention will be described in more detail based on a grating-type curtain wall. Compared with the first embodiment, this embodiment is different from the process in which the window member 20 is installed in the frame part 100 and the state in which the installation is completed. In this embodiment, the description of the first embodiment is used for the configuration overlapping with the first embodiment.

22 to 24 , in the insulating curtain wall including the insulating structural block according to the second embodiment, when viewed from the outside of the building, the cap frame 130 except for the window member 20 is not visible. It has an aesthetic effect. In more detail, the main block 210 is installed in the member insertion part 102 provided in the frame part 100 , and the window member 20 is installed in the main block 210 . And the sealant 30 is applied between the window member 20 and the frame part 100 through a caulking operation. In addition, by filling the gap between the plurality of window members 20 in contact with both ends of the support 201a formed on the main block 210 and the support 201a with the sealant, the window member 20 is It is installed in the frame part (100).

In addition, in the assembly method of the insulating curtain wall including the insulating structural block according to the second embodiment, referring to FIG. 25 , the main block ( 210) through the main block insertion step (E1). And after the window member 20 is placed in contact with the lower end of the support 201a of the main block 210, the sealant 30 is applied between the window member 20 and the horizontal frame 120 to provide a gap. fill in Thereafter, the first sub-block 221 is preferentially coupled, and a lower installation step E2 of allowing the window member 20 to be primarily fixed to the lower portion of the horizontal frame 120 is performed.

And by seating the window member 20 on the upper ends of the supports 201a and 202b of the main block 210 and the first sub-block 221 so that the window member 20 can be temporarily fixed, A temporary installation step (E3) of installing the window member 20 to the horizontal frame by applying the sealant 30 to the gap between the window member 20 and the horizontal frame 120 is performed.

Finally, the coupling of the first sub-block 221 is released, and the sealant 30 is applied to the gap between the window member 20 and the support 201a formed in the main block 210 to finish the installation. Through step (E4), the window member 20 is fixed to the horizontal frame 120 .

In addition, referring to FIGS. 26 and 27 , the insulating member 10 custom-made so as not to interfere with the insulating structural block 200 is inserted into the member inserting unit 102 provided inside the horizontal frame 120 . Insulation member installation step (F1) to go through. And when the main block insertion step (E1) to the installation closing step (E4) is completed, and the installation of the window member 20 is completed, the horizontal frame 120 and the window member 20 are located in the gap between the The insulation member installation finishing step (F2) of painting and finishing the sealant 30 is performed.

Hereinafter, the present invention will be described in more detail based on a stick-type curtain wall with reference to the accompanying drawings according to a third embodiment of the present invention. The present embodiment is different from the first embodiment in the structure of the vertical frame 110 and the method of coupling between the vertical frame and the horizontal frames 110 and 120 . In this embodiment, the description of the first embodiment is used for the configuration overlapping with the first embodiment.

Referring to FIGS. 28 and 29 , the vertical frame 110 is coupled to both sides of the vertical frame 110 , and a stick bracket 400 for coupling the vertical frame 110 and the adjacent horizontal frame 120 to each other. Including, the stick bracket 400 is a rectangular parallelepiped bracket and is coupled to the outer surface of the vertical frame 110 by a screw fastening method, and the horizontal frame 120 is coupled to the side of the vertical frame 110 . make it possible In more detail, when a rectangular parallelepiped stick bracket 400 is coupled to both sides of the vertical frame 110, and the ends of the horizontal frame 120 are in contact with both sides of the upper limb vertical frame 110, the horizontal frame 120 The inner surface of the stick bracket 400 is brought into contact with each other, and a screw is passed through the inner surface of the member insertion part 102 formed in the horizontal frame 120, and the horizontal frame 120 and the stick By fastening the bracket 400, the horizontal frame 120 and the vertical frame 110 are coupled.

In addition, in the coupling sequence of the vertical frame and the horizontal frames 110 and 120 and the window member 20 through the stick bracket 400 , referring to FIGS. 30 and 31 , both sides of the vertical frame 110 . The stick bracket 400 is fastened to the stick bracket fastening step (G1). In addition, the inner surface of the horizontal frame 120 is in contact with the outer surface of the stick bracket 400, through the screw passing through the inner surface of the member insertion portion 102 formed in the horizontal frame (120). A horizontal frame fastening step (G2) in which the horizontal frame 120 and the stick bracket 400 are fastened is performed. Finally, the insulating structural block 200, the insulating member 10, and the window member 20 are installed in the vertical and horizontal frames 110 and 120 coupled to each other, and the sealant ( 30) and the sealing member 11 are filled and finished so that the window member 20 can be fixed to the frame part 100 through the installation closing steps G3 and G4.

Therefore, according to the present invention, it is possible to form a large space in the remaining portion of the frame portion 100 except for the portion in which the heat insulating structure block 200 is provided, so that a large amount of heat insulating material is filled.

In addition, according to the present invention, the window member 20 is installed so that the window member 20 can be temporarily fixed through the first sub-block 221 while the window member 20 is installed. There is an effect that the process can be made simpler and easier.

10: insulation member
11: sealing member
20: window member
30: sealant
40: friction member
41: friction member engaging part
100: frame part
101: receptacle
102: member insertion part
103: member fixing part
104: the inlet end
110: vertical frame
111: first vertical frame
112: second vertical frame
120: horizontal frame
121: screw fastening part
130: cap frame
200 ; Insulation Structure Block
201,201a,201b,201c,201d: support
202: support fastening groove
203: adhesive groove
210: main block
220: sub block
221: first sub-block
222: second sub-block
223: frame stopper
231: first fastening member
232: second fastening member
300: coupling member
301: first interrupted coupling member
302: first outer side coupling member
303: second interrupted coupling member
304: second outer side coupling member
305: protrusion
400: stick bracket

Claims (6)

A frame portion provided in an open form at one side;
a member insertion part provided inside the frame part; and
Including; is coupled to the member insertion portion, is formed to protrude in one direction based on the frame portion, and supports the window member placed on the protruding portion;
The insulating structure block,
a main block having a cross-section formed in a T-shape, a central portion protruding to form a support, and fixing the window member; and
The cross-sectional shape is formed in a T-shape, and the central part protrudes to form a support and is coupled to the main block to prevent the window member from departing from the main block; includes,
a first fastening member for fastening the sub-block and the main block; and
a second fastening member for fastening the main block and the frame unit;
The first fastening member and the second fastening member are disposed to be spaced apart from each other by a predetermined distance along the longitudinal direction of the frame portion,
The sub-block is an insulating curtain wall comprising an insulating structural block, characterized in that formed in an integral or separate type. According to claim 1,
The frame part,
Vertical frame installed perpendicular to the ground;
A horizontal frame coupled to one side of the vertical frame and installed to be parallel to the ground; includes,
When the window member is installed, the frame part is characterized in that it is provided in a grid shape to surround the window member,
The sub-block coupled to the vertical frame is integrally formed, and the sub-block coupled to the horizontal frame has a first sub-block having a rectangular shape in front and an L-shape surrounding the first sub-block. Insulation curtain wall comprising an insulating structural block, characterized in that consisting of a second sub-block formed of. According to claim 1,
Insulation curtain wall comprising a heat insulating structural block, characterized in that a protrusion is formed at the end of the support of the sub-block, and a support fastening groove into which the protrusion is inserted and coupled is formed at the end of the support of the main block. According to claim 1,
It further comprises a; friction member mounted on the upper and lower portions of the protruding support portion of the insulating structural block to support the window member;
The friction member is an insulating curtain wall comprising an insulating structural block, characterized in that by supporting the window member so as to improve the vibration-proof performance. delete 3. The method of claim 2,
The frame part,
Insulated curtain wall comprising a heat insulating structural block comprising a; is coupled to both sides of the vertical frame, the stick bracket for coupling the vertical frame and the adjacent horizontal frame.

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