KR102102162B1 - Insulated frame for windows and doors with adjustable width - Google Patents

Abstract

The present invention relates to an insulation frame for windows and doors capable of adjusting a width to be suitable to a site, and more specifically, to a new technology which conveniently adjusts the width of an insulation frame for windows and doors in accordance with a site finishing condition to perform the optimal customized construction. When an insulation frame for windows and doors is constructed, the width of the insulation frame for windows and doors is required to be changed for construction in accordance with a site finishing condition. Nevertheless, the conventional insulation frame for windows and doors provides the standardized width, thereby causing problems that construction cannot be performed after flexibly responding to the site finishing condition. To solve these problems, in the present invention, a reinforcing frame on the inside continues to be used, while stainless bending bars which are manufactured to various specifications in different widths are selected to be installed so they surround the outer surface of the reinforcing frame. Therefore, construction can be performed while adequately responding to each site′s finishing condition.

Description

Insulated frame for windows and doors with adjustable width

The present invention relates to a technology of a new concept that conveniently adjusts the width of the insulating frame for windows and doors according to the site finishing conditions to perform optimal customized construction.

In general, a window (窓 戶) refers to a variety of windows or doors that are installed in the opening (開口 部) such as a window or doorway to block the interior of the building from the outside.

In recent years, windows with one piece of glass do not have good insulation and sound insulation, so most of the windows and doors installed in government offices, schools, hospitals, and shopping centers that require some insulation or sound insulation use double glass such as fair glass. do.

The frame for windows and doors used to fix the double glass is usually woven into a square frame when constructing doors, windows, interior partitions, etc., and the double glass is installed or entered in the inside area of the square body. The door for is installed.

However, in the conventional frame for windows and doors, both sides are in contact with the interior and the exterior, respectively, based on the double glass. The frame for windows and doors is composed of an integral metal plate material, and thus has good heat conduction, resulting in condensation due to temperature difference between the inside and outside. Of course, due to this condensation phenomenon, the steel reinforcing frame is easily rusted, rust flows down, and a lot of heat is lost to the outside, resulting in a problem of deterioration in insulation.

In order to solve such a problem, there is disclosed a "patent registration No. 1546824, name / insulation frame for windows with improved stiffness and stiffness," which was previously filed and patented by the applicant of the present invention.

The prior art provides an effect of increasing structural rigidity while securing the integrity without flow of the metal outer frame and the PVC extruded material, as well as improving the heat insulating properties by securing a plurality of insulating spaces inside the insulating frame.

When constructing the insulation frames for windows and doors, there is a need to construct different widths of the insulation frames for windows and doors according to the conditions for finishing the windows. In the conventional insulation frames for windows and doors, the width is standardized, so it can be flexibly responded to the conditions of the site finishing. There are no problems.

The present invention is a method for solving the above problems, while using the inner reinforcement frame as it is, by selecting a stainless bending bar made of various standards formed in different widths and installing the outer surface of the reinforcement frame to cover the installation site. We will devise techniques to enable proper response and construction.

According to the present invention, by selecting a stainless steel bending bar formed of various widths and installing it so as to surround the reinforcing frame, the width of the insulating frame for windows can be varied and constructed according to the finishing conditions on the spot, so the workability is excellent and the utilization of the product and It provides an excellent scalability effect.

1 is an exploded perspective view of an insulating frame for windows and doors to which the present invention is applied
Figure 2 is a front cross-sectional view of the insulating frame for windows and doors of the present invention
Figure 3 is a front sectional view of the reinforcement frame of the present invention
Figure 4 is a front cross-sectional view of the present invention stainless steel bending bar
Figure 5 is an enlarged cross-sectional view of the reinforcement frame of the present invention
6 to 7 is a front cross-sectional view of the heat insulating frame for different windows of the present invention
Figure 8 is an enlarged cross-sectional view of a state in which the adhesive is filled in the bending bar fitting groove of the present invention and the adhesive portion is squeezed

Looking at the overall configuration of the insulating frame for windows and doors (F) according to a preferred embodiment of the present invention in accordance with the accompanying drawings, a pair of reinforcement frame (10) (10a), a pair of stainless steel bending bar (20) ( It can be seen that it is divided into components of 20a).

Hereinafter, the present invention made of the above-described schematic configuration will be described in more detail to facilitate implementation.

The pair of reinforcing frames 10 and 10a of the present invention are formed with a top surface portion 12 and a bottom surface portion 13 horizontally at the top and bottom ends of the side portion 11, respectively, as shown in FIG. 3, and the side portion 11 ), The azone filling chamber 14 is formed in the center, and the azone filling chamber 14 blocks heat conduction between indoor and outdoor, and also serves to integrally connect the separated pair of reinforcement frames 10 and 10a to each other. The azon heat insulating material 15 to perform the insertion is installed, and the heat conduction prevention cutting part 16 and the azon inlet 17 are formed above and below the azone filling chamber 14, respectively.

Therefore, as the reinforcement frames 10 and 10a are separated on both sides based on the azon insulation 15, the heat conduction path through which the interior heat is conducted and transmitted to the outdoors through the reinforcement frames 10 and 10a is completely It prevents dew condensation from occurring and provides a special effect to significantly reduce energy by reducing heat loss emitted to the outside.

And the upper and lower sides of the side portion 11, the bending bar fitting grooves 18 and 18a are formed to allow the stainless steel bending bars 20 and 20a to be assembled.

The azone injection port 17 is not formed separately, but may be injected through the cutting zone after cutting through a cutting operation, such as the heat conduction prevention cutting unit 16 formed on the upper portion, and the side portion 11 is an azone filling chamber By forming the strength reinforcing portions 19 in which both sides of the recess 14 are recessed in the center, the strength is much increased than the side portions 11 formed in a plate shape, thereby providing an effect of preventing warpage or deformation.

The pair of stainless steel bending bars 20 and 20a that are selectively fitted to the pair of reinforcing frames 10 and 10a are horizontally upper and lower surfaces 22 and lower, respectively, above and below the side surface 21. The surface 23 is bent, a pair of assembly protrusions 24 and 24a are formed to be perpendicular to the front ends of the upper surface 22 and the lower surface 23, respectively, and the pair is assembled The protrusions 24 and 24a are assembled by slidingly fitting the bending bar fitting grooves 18 and 18a formed above and below the pair of reinforcing frames 10 and 10a, thereby providing a pair of reinforcing frames 10 It becomes possible to maintain the integrity with (10a).

The pair of stainless steel bending bars 20 and 20a are manufactured in various standards in which widths W, W1, and W2 are formed differently. Therefore, according to the site finishing conditions, the width (W) (W1) (W2) is selected from any of the various types of stainless steel bending bar (20) (20a) of the selected reinforcement frame (10) (10a) of the bending bar fit By assembling and fitting into the grooves 18 and 18a, it is excellent in constructability by providing instant construction in the field, and provides an excellent effect of product utilization and expandability.

The insulating frame (F) for windows and doors of the present invention, as shown in Figure 2, the assembly protrusions 24, 24a of the stainless steel bending bars 20, 20a are reinforced frames 10, 10a, the upper surface portion 12, and By protruding upward and downward from the lower surface portion 13, the glass grooves 30 into which the glass is inserted and fixed are formed between the facing assembly protrusions 24 and 24a.

On the other hand, the present invention is additionally grafted with a technique that allows the pair of reinforcing frames 10, 10a and stainless steel bending bars 20, 20a to maintain mutually robust integrity.

As a technical configuration for this, the assembly protrusions 24 and 24a of the stainless steel bending bars 20 and 20a are inserted into the bending bar fitting grooves 18 and 18a after the adhesive 40 is previously filled as shown in FIG. 8. Given, by compressing the outer surfaces of the side portions 11 and the bending bar fitting grooves 18 and 18a using a compressor system, the assembly protrusions 24 and 24a are integrally joined while being pressed, and a pair of reinforcement frames 10 (10a) and the stainless steel bending bar (20) (20a) provides a special effect of maintaining a solid integrity with each other.

F: Insulation frame for windows and doors 10, 10a: Reinforcement frame
11: Side part 12: Top part
13: lower part 14: azone filling chamber
15: azone insulation 16: heat conduction prevention cutting
17: Azon inlet 18, 18a: bending bar fitting groove
19: strength reinforcement 20, 20a: stainless steel bending bar
21: side surface 22: top surface
23: lower surface 24, 24a: assembly projection
30: glass groove 40: adhesive

Claims (4)

An upper surface portion 12 and a lower surface portion 13 are formed horizontally at the upper and lower ends of the side portion 11, and the azone heat insulating material 15 is inserted into the azone filling chamber 14 formed in the center between the side portions 11 It is installed, and the heat conduction prevention cutting part 16 and the azon inlet 17 are formed above and below each of the azone filling chambers 14, while the bending bar fitting grooves 18 and 18a are respectively formed above and below the side parts 11, respectively. A pair of reinforcing frames 10 and 10a formed;
A pair of assembly protrusions 24 and 24a bent vertically opposite to the front ends of the upper surface 22 and the lower surface 23 formed horizontally bent on the upper and lower sides of the side surface 21, respectively. On the other hand, it consists of a pair of stainless steel bending bars 20 and 20a which are assembled into the bending bar fitting grooves 18 and 18a, respectively formed on the upper and lower sides of the reinforcing frames 10 and 10a;
The stainless steel bending bars 20 and 20a are made of various standards having different widths W, W1 and W2, and the reinforcement frame is selected by selecting the stainless steel bending bars 20 and 20a according to the site finishing conditions (10) (10a) by fitting the bent bar fitting grooves (18) (18a) to the instant construction in the field;
After the adhesive 40 is filled in the bending bar fitting grooves 18 and 18a, the assembly protrusions 24 and 24a of the stainless steel bending bars 20 and 20a are fitted, and the side portions 11 and the bending bars are fitted. Compressing the outer surfaces of the grooves 18 and 18a with a compressor system to integrally join a pair of reinforcement frames 10, 10a and stainless bending bars 20, 20a;
The side portion 11 is a heat-insulating frame for windows and doors that can be tailored to the width of the field, characterized in that the both sides of the azon filling chamber 14 are formed with a recessed strength reinforcement 19.
delete According to claim 1,
The pair of stainless steel bending bars 20 and 20a protrude upward and downward from the upper surface portion 12 and the lower surface portion 13 of the reinforcing frames 10 and 10a, respectively, and assembling protrusions 24 and 24a facing each other. Insulated frame for windows that can be tailored to the width of the field, characterized in that the glass groove 30 to which the glass is inserted and fixed respectively between the top and bottom. delete

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