KR20220008546A - Structures of insulation and strength reinforced window frame - Google Patents

Abstract

The present invention relates to a structure of a window frame with reinforced insulation and strength, which secures insulation performance in accordance with strength reinforcement and energy-saving eco-friendly construction standards for shaking and earthquake resistance caused by high stories of building structures and facilitates a coupling structure of window frames. An insulation guide bar (11) is installed on a middle groove of the front end of a main frame (10) and a glass supporter (12) is installed on a top groove to install upper pair glass (50). A cap bar (13) is coupled to the front end of the insulation support bar (11) to be finished. A subframe (20) to which an insulation finishing material (21) is coupled and a glass frame (30) to which a glass supporter (31) is coupled by azon (32) are bolted and coupled to the lower end of the main frame (10). A glass insulator (33) is coupled to the glass supporter (31) to install lower pair glass (50'). A J-shaped gasket (34) is coupled between the insulation guide bar (11) and the glass insulator (33).

Description

Structures of insulation and strength reinforced window frame

The present invention relates to a structure of an insulation and strength-reinforced type window frame that facilitates the bonding structure of window frames while securing the strength reinforcement against earthquake resistance and shaking due to the high-rise building structure and the insulation performance meeting the energy-saving eco-friendly construction standards. In more detail, the upper double-glazed glass is installed at the tip of the main frame with an insulating guide bar and a glass supporter, the tip of the insulating support bar is closed with an easy-to-remove cap bar, and a subframe with an insulating finishing material coupled to the lower end of the main frame; It relates to the structure of a window frame in which the lower double-glazed glass can be installed by bolting the glass frame to which the glass supporter is coupled, and combining the glass insulating material and the 'J'-shaped gasket to the glass supporter.

In general, system windows are windows designed and constructed by cutting-edge technology and computer systems. The thickness of the bars constituting the window frame is closely related to the price and is an important factor in determining structural strength, insulation and sound insulation.

As for the system windows, the glass that occupies more than 80% of the window area is based on double-layer glass, and there are energy-saving coated glass, argon gas injected glass, etc., and energy-saving coated glass (Low-E glass) is coated with a special film inside the glass In summer, it blocks radiant heat from the outside, and in winter, it prevents leakage of radiant heat from indoors to increase thermal efficiency. It acts as a coating agent to prevent the phenomenon, and argon gas is injected into the middle layer of the double-layer glass to block heat transfer by convection and to reduce sound waves by absorbing ultraviolet rays.

As prior art related to the conventional combined structure of a window system for heat insulation and strength enhancement, Patent Registration No. 10-1938620 (Structural Reinforcement Type Insulation Window System), Registration Patent No. 10-1973399 (Structure Reinforcement Type Insulation Window System) and Registered Patent No. 10-1932658 (insulated window frame), etc. have been proposed.

The first registered patent includes a frame made of an aluminum material provided on the indoor side, a partition member for blocking the thermal bridge phenomenon by covering the front of the frame, a coupling body for pressing and fixing one end of the partition member, a cover surrounding the outside of the coupling body, and the frame and coupling body It is provided on the inside and has a structure including a reinforcing material to improve structural performance.

The second registered patent includes a frame made of an aluminum material provided on the indoor side, a partition material that surrounds the front of the frame and blocks a thermal bridge phenomenon, a cover that fixes one end of the partition material by pressing it, and the frame and the structure are provided inside the cover to provide structural performance It is a structure including a reinforcement to improve the.

The third registered patent relates to an indoor frame for supporting a glass window inside a building, an outdoor frame for supporting a glass window from the outside of the building, and an insulating frame and an insulating frame interposed between the indoor frame and the outdoor frame to support the glass window. It includes an insulating block disposed on the side to support the glass window, and at the upper end of the indoor frame, an insulating frame engaging groove for coupling with the insulating frame is formed in the longitudinal direction of the indoor frame, and at the lower end of the insulating frame, the insulating frame engaging groove and The heat insulating frame coupling protrusion to be coupled is formed, and the end of the heat insulating frame coupling protrusion is bent in one direction so that it can be coupled to the heat insulating frame locking groove in only one direction. It is an arranged structure.

The first registered patent inserts a partition material into an insertion frame of a frame with a reinforcing material installed on the inside, inserts a binder with a reinforcing material into the receiving portion of the partition, inserts a heat insulating part on the outside of the assembly, and places double-layer glass left and right or up and down The sequential coupling structure has the advantage of being easy, but the structure connected to the partition member, the assembly, the insulating part and the cover coupled to the front end of the frame part has weak strength, so The support was unstable and there was a problem in terms of insulation performance that did not meet the construction standards for energy-saving eco-friendly houses.

The second registered patent inserts the partition material into the insertion frame of the frame with the reinforcing material installed on the inside, and installs the multilayer glass in such a way that the cover with the reinforcing material installed in the receiving part of the partition material is coupled by the fixing part and the fish zone. The structure has the advantage of being easy, but the structure connected by the partition material, the fixing part (Azone) and the cover connected to the tip of the frame part has weak strength, so the support of the double-glazed glass is unstable. There was a problem that fell short of

The third registered patent relates to installing an insulating block on an indoor frame, inserting and coupling the indoor frame fastening structure and the outdoor frame fastening structure with Azone installed, then coupling the first outdoor frame and bolting, and finally, the second outdoor frame. Although the insulation function was partially improved with the insulation block and Azon part, there was a problem in that the overall support strength was weak and the insulation performance did not meet the construction standards of an energy-saving eco-friendly house.

Therefore, the present invention was created for the purpose of solving the above-mentioned problems of the prior art. A subframe and a glass insulation material in which an upper double-glazed glass is installed as an insulation guide bar and a glass supporter at the front end of the main frame, and a thermal insulation finishing material is combined at the lower end of the main frame The glass frame combined with the glass supporter is bolted to install the lower double-glazed glass to improve the strength of the window frame, and the combined configuration of the insulation guide bar, insulation finishing material and glass insulation material and insulation due to the air chamber formed by the insulation guide bar and insulation finishing material By improving the function, it enables construction with a heat transmittance rate (W/m2K) that meets the insulation performance standards of the construction standards for energy-saving eco-friendly houses, and facilitates the attachment and detachment method of the glass supporters, cap bars, insulation finishing materials and glass insulation materials constituting the window frame. As a result, assembling was improved and maintenance work was convenient, and the structure that bolted the sub-frame and the glass frame to the main frame made it easy to respond to positional fluidity due to the combination structure of horizontal bars and vertical bars, so that It is possible to provide the structure of the window frame that can improve the insulation performance and the strength of the window frame by constructing it according to the reinforced thermal transmittance rate.

The present invention installs an insulating guide bar in the center groove of the front end of the main frame, installs a glass supporter in the upper groove, installs the upper double-glazed glass, connects the cap bar to the tip of the insulation support bar, and finishes, and the insulation finishing material is provided at the lower end of the main frame. The combined subframe and the glass supporter are combined by bolting the glass frame joined by Azone, and the lower double-glazed glass is installed by coupling the glass insulation to the glass supporter. characterized.

In addition, the air chamber can be formed by combining the insulation guide bar installed on the main frame and the insulation finishing material installed on the sub frame, and the sub frame and glass frame installed at the bottom of the main frame are the upper part of the main frame according to the structure of the window frame. and the lower part, and the sub-frame and glass frame installed on the main frame do not form a locking sill and coupling groove, so they can be installed by moving forward and backward from the upper and lower parts of the main frame according to the structure of the window frame. characterized.

Therefore, the present invention improves the heat insulation function by forming an air chamber with the insulation configuration of the insulation guide bar, the insulation finish material and the glass insulation material combined with the insulation guide bar and the insulation finish material in configuring the window frame, so airtightness, insulation, watertightness, wind pressure and It has excellent sound insulation and meets the thermal transmittance required by the construction standards for energy-saving eco-friendly houses. Insulation guide bars and glass supporters are installed at the tip of the main frame constituting the window frame. Glass frame combined with glass insulation material and glass supporter is installed to install double-glazed glass at the upper and lower parts, and the tip of the insulation guide bar is finished with a cap bar to improve strength. In addition to improving workability and assemblability, it is advantageous for maintenance and repair work, and it enables factory assembly of existing construction, which was previously performed on-site, to improve workability and shorten construction period. It has effects such as making it easier to respond to positional fluidity due to the combined structure of horizontal bars and vertical bars, and improving the aesthetics due to the beautiful appearance of the window system due to the above-described combined structure.

1 is a coupling structure diagram showing the overall coupling structure of the window frame of the present invention;
Figure 2 is a state diagram in which the window frame of the present invention is installed;

Hereinafter, the configuration and operation of the subject matter of the present invention will be described in detail in connection with the accompanying drawings.

1 is a combined structure diagram showing the overall combined structure of the window frame of the present invention. The upper double-glazed glass is installed in the main frame by an insulation guide bar and a glass supporter, and the lower double-glazed glass is installed by installing a sub-frame and a glass frame at the lower end of the main frame. The installed structure is shown, and FIG. 2 shows an embodiment in which the main frame is installed on the system window and used as a state diagram in which the window frame of the present invention is installed.

In the structure of the window frame 100 supporting the upper and lower double-glazed glass 50, 50 ' and the window frame in the system window constructed in the building structure,

Install the insulation guide bar 11 in the center groove of the front end of the main frame 10, install the glass supporter 12 in the upper groove, install the upper double-glazed glass 50, and install the cap bar at the tip of the insulation support bar 11 ( 13) is combined and finished, and the subframe 20 to which the insulating finishing material 21 is coupled to the lower end of the main frame 10 and the glass frame 30 to which the glass supporter 31 is coupled by Azone 32 are bolted. The lower double-layer glass 50' is installed by coupling the glass insulation material 33 to the glass supporter 31, and between the insulation guide bar 11 and the glass insulation material 33, a 'J' type gasket (34) is a structure bound to

The air chamber 40 can be formed by combining the insulation guide bar 11 installed on the main frame 10 and the insulation finishing material 21 installed on the subframe 20 .

The sub-frame 20 and the glass frame 30 installed at the lower end of the main frame 10 can be installed in the upper and lower portions of the main frame 10 according to the structure of the window frame 100 .

The sub-frame 20 and the glass frame 30 installed in the main frame 10 do not form a locking sill and a coupling groove, so that according to the structure of the window frame 100, , to enable counteraction installation by reversing.

In the drawings, reference numerals 22 and 22' denote rubber gaskets.

In this way, the present invention enhances the thermal insulation function while reinforcing the strength of the window frame structure so that it can meet the thermal transmittance required by the construction standards for energy-saving eco-friendly houses, and maximizes the strength and insulation effect of the window frame as well as improves airtightness. In order to save energy for heating and cooling by preventing dew condensation occurring in the winter season, the insulating guide bar, insulating finishing material and glass insulating material are organically combined, and the air chamber is formed with the insulating guide bar at the tip of the main frame and the insulating finishing material of the sub frame. Supporter, cap bar, insulation finishing material and glass insulation material can be easily combined and detached to improve workability, maintenance and repair work is advantageous. it is for

As shown in Fig. 1, the present invention provides a structure of a window frame 100 in which upper and lower double-glazed glass 50, 50' are installed in order to construct a system window. It consists of a main frame 10, a sub-frame 20, and a glass frame 30, but is configured by combining and assembling the insulation guide bar 11, the insulation finishing material 21, and the glass insulation material 33 to each frame.

The window frame 100 is coupled by bolting the insulation guide bar 11 to the center groove of the front end of the main frame 10 in order to install the double-layer glass 50, 50 ′ on the upper and lower portions, and the glass is placed in the upper end groove. The supporter 12 is slide-inserted to install the upper double-glazed glass 50 on the upper part of the glass supporter 12, and the cap bar 13, which is easily detachable, is inserted at the tip of the insulation guide bar 11 and installed.

Inward and outward of the upper multi-layer glass 50, that is, the cap bar 13 and the outer surface of the multi-layer glass 50, the upper tip of the main frame 10 (the upper part of the glass supporter 12) and the multi-layer glass 50 The inner surface is finished with sealant caulking, and also between the lower end where the insulating guide bar 11 and the cap bar 13 are coupled and the tip of the insulating finishing material 21 to be described later is also finished with sealant caulking.

At the lower end of the main frame 10, a sub-frame 20 into which a thermal insulation finishing material 21 is slidably inserted is bolted to the lower end of the main frame 10, and a glass supporter 31 is coupled to the lower end of the sub-frame 20 by Azone 32. The glass frame 30 is coupled by bolting to the subframe 20 .

A lower double-glazed glass 50 ′ is installed by slidingly inserting a glass insulating material 33 on the upper portion of the glass supporter 31 of the glass frame 30 .

A 'J'-shaped gasket 34 is installed between the insulating finishing material 21 and the glass insulating material 33 to block outside air.

Between the glass supporter 31 and the insulating finishing material 21, the lower end of the subframe 20 and the rear end of the glass frame 30, rubber gaskets 22 and 22' are installed and sealed, respectively.

The upper end of the outer surface of the lower multi-layer glass 50', the tip of the glass insulating material 33, the inner surface of the lower multi-layer glass 50', and the glass frame 30 are finished with sealant caulking.

The lower end of the insulation guide bar 11 installed in the main frame 10 and the insulation finishing material 21 installed in the subframe 20 are combined to form an air chamber 40 to improve insulation performance.

As shown in FIG. 2 , when the window frame 100 of the present invention is installed and used in the system window, the subframe 20 and the glass frame 30 are the upper part of the main frame 10 according to the structure and arrangement of the window frame 100 . Or it may have a coupling structure installed at the bottom.

In addition, the subframe 20 and the glass frame 30 installed on the upper or lower part of the main frame 10 can be installed by moving forward or backward according to the structure and arrangement of the window frame 100 .

The sub-frame 20 and the glass frame 30 are not formed with a locking protrusion or a coupling groove, so that the arrangement and installation can be easily varied and installed.

The window frame 100 of the present invention as described above is a glass supporter 12 coupled to the main frame 10, the subframe 20 and the glass frame 30, the cap bar 13 (to the insulation support bar 11) Combination], a fitting method and a slide insertion method are applied so that the coupling and detachment of the insulating finishing material 21 and the glass insulating material 33 can be easily made to facilitate attachment and detachment, thereby making assembly and separation convenient.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone with ordinary skill in the art to which the invention pertains without departing from the gist of the invention as claimed in the claims. and such modifications shall be within the scope of the claims.

10: main frame 11: insulation guide bar
12: glass supporter 13: cap bar
20: subframe 21: insulation finish
30: glass frame 31: glass supporter
32: azone 33: glass insulation
34: 'J' type gasket 40: air chamber
50,50': double-glazed glass 100: window frame

Claims (4)

In the structure of the window frame 100 supporting the upper and lower double-glazed glass 50, 50 ' and the window frame in the system window constructed in the building structure,
Install the insulation guide bar 11 in the center groove of the front end of the main frame 10, install the glass supporter 12 in the upper groove, install the upper double-glazed glass 50, and install the cap bar at the tip of the insulation support bar 11 ( 13) is combined and finished, and the subframe 20 to which the insulating finishing material 21 is coupled to the lower end of the main frame 10 and the glass frame 30 to which the glass supporter 31 is coupled by Azone 32 are bolted. The lower double-layer glass 50' is installed by combining the glass supporter 31 with the glass insulating material 33, and between the insulating guide bar 11 and the glass insulating material 33, a 'J' type gasket 34 The structure of the insulation and strength-reinforced window frame, characterized in that it is combined with The method of claim 1,
Heat insulation and strength, characterized in that the air chamber 40 can be formed by the combination of the insulation guide bar 11 installed on the main frame 10 and the insulation finish material 21 installed on the subframe 20 . Structure of reinforced window frame. The method of claim 1,
The sub-frame 20 and the glass frame 30 installed at the lower end of the main frame 10 are characterized in that they can be installed in the upper and lower portions of the main frame 10 according to the structure of the window frame 100. Insulation and strength-reinforced window frame structure. 4. The method according to any one of claims 1 to 3,
The sub-frame 20 and the glass frame 30 installed in the main frame 10 do not form a locking protrusion and a coupling groove, so that, depending on the structure of the window frame 100, , The structure of the insulation and strength-reinforced type window frame, characterized in that it can be installed by reversing it.

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