KR102078730B1 - Insulated frame for windows and doors with adjustable width of glass groove - Google Patents

Abstract

The present invention relates to an insulating frame for windows and doors with a width-adjustable glass groove and more specifically, to a technique of a new concept, which allows glass having a variety of thicknesses to be installed in a glass groove of an insulating frame for windows and doors, and achieves rigidity high enough for withstanding the weight of glass. Insulating frames for windows and doors disclosed in the prior art cannot be constructed in response to the thickness of glass since the insulating frames have a typical glass groove with a fixed width. In addition, the insulating frames have rigidity insufficient for withstanding the weight of glass as well as stably supporting the glass, thereby deteriorating stability. To eliminate the problems, the insulating frame for windows of the present invention can be constructed to properly correspond to glass with a variety of thicknesses by means of selecting stainless bent bars, which are manufactured with various standards to have glass grooves of different widths at the center of upper ends thereof, and installing the same to surround the outer surfaces of divided reinforcing frames. In addition, the divided reinforcing frames can receive the weight of glass as support surfaces of the glass grooves are entirely seated on upper surfaces of the divided reinforcing frames.

Description

Insulated frame for windows and doors with adjustable width of glass groove

The present invention relates to a new concept technology for realizing high rigidity capable of installing glass of various thickness in a glass groove of an insulating frame for windows and doors and sufficiently withstanding the weight of the glass.

In general, window (窓 戶) refers to a variety of windows or doors that are installed in the opening (개구부 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.

As a method to solve this problem, "patent registration No. 1708286, name / cost-saving window insulation frame", which has been previously filed and patented by the applicant of the present invention, has been proposed.

The prior art provides an effect of significantly reducing the cost of the production of an insulating frame for windows and doors that serves to increase the thermal insulation performance by blocking the heat conduction between indoor and outdoor.

When installing the insulating frame for windows and doors, the glass inserts formed in the insulating frames for windows and doors of the prior art cannot be constructed in response to the thickness of the glass, because the width of the glass is fixed to a certain thickness. Problems are caused.

In addition, as the glass installed in the glass insert is seated on the PVC reinforcement cover, the rigidity to withstand the weight of the glass is insufficient, and when the PVC reinforcement cover is removed and the glass is seated on the support protrusion formed on the reinforcement frame, Stability is deteriorated because it cannot support the entire lower part.

The present invention is a method for solving the above-described problem, and a method of installing stainless steel bending bars made of various standards having different widths of glass grooves at the center of the top and installing them to cover the outer surface of the divided reinforcement frame is suitable for glass of various thickness. In order to respond to the problem, we will devise a technology to enable construction.

In addition, the present invention seeks a technique to allow the split reinforcement frame to receive the weight of the glass while the support surface of the glass groove is entirely seated on the upper surface of the split reinforcement frame.

According to the present invention, by selecting a stainless steel bending bar having various widths of glass grooves and grafting them to a divided reinforcement frame, the thickness of the glass can be constructed according to a special purpose, thereby providing excellent utilization and expandability of the product.

In addition, the support surface formed at the bottom of the glass groove is adhered to the upper surface of the divided reinforcement frame as a whole, so that the glass can be supported stably on a flat support surface, and the high strength is realized by the split reinforcement frame directly receiving the heavy weight of the glass. By providing the effect of preventing deformation of the insulating frame for windows and doors and improving durability.

1 is a 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 cross-sectional front view of the present invention divided reinforcement frame
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 assembled state of the window insulation frame and stainless steel bending bar of the present invention
Figure 6 is a front cross-sectional view of a stainless steel bending bar having a different width of the glass groove of the present invention
Figure 7 is a cross-sectional view taken along line AA of Figure 2 of the present invention

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 plurality of divided 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.

A plurality of divided reinforcement frame (10, 10a) of the present invention is to manufacture a heat insulating frame (F) for windows and doors with high efficiency and low cost while reinforcing the strength, the stainless steel bending bar in the middle between the upper surface portion (11) 20) A locking portion 12 for locking and fixing the 20a without flow is formed, an azone filling chamber 13 is formed under the locking portion 12, and the azone filling chamber 13 has heat conduction between indoor and outdoor. In addition to blocking, and a pair of split reinforcement frames 10 and 10a, an azon heat insulating material 14 that serves to integrally connect to each other is installed, and heat conduction is respectively performed above and below the azone filling chamber 13. The prevention cutting portion 15 and the azon inlet 16 are formed.

The plurality of divided reinforcement frames 10 and 10a are formed to have a shorter length than the stainless bending bars 20 and 20a, as shown in FIG. 7, and are spaced apart at intervals inside the stainless bending bars 20 and 20a. It is arranged, and maintains a more robust integrity by applying an adhesive to the side surfaces 21 of the stainless steel bending bars 20 and 20a contacting both side parts 17.

Therefore, when manufacturing the insulation frame for windows and doors (F), the amount of the reinforcement frame is reduced to significantly reduce the production cost, the workability is very excellent, as well as the productivity, and the plurality of divided reinforcement frames (10) (10a) is azone As the heat insulation material 14 is separated on both sides, the heat conduction path of the room is conducted through the divided reinforcing frames 10 and 10a, thereby completely disconnecting the heat conduction path, thereby preventing condensation from occurring. , It provides a special effect of significantly reducing energy by reducing heat dissipation to the outside.

A pair of stainless steel bending bars 20 and 20a are installed to surround the outside of the divided reinforcement frames 10 and 10a in a state where the plurality of divided reinforcement frames 10 and 10a are spaced apart from each other. .

The stainless steel bending bar 20, 20a has a side portion 17 and a bottom portion 18 of a plurality of divided reinforcement frames 10 and 10a, as shown in FIGS. 2 and 4, with the side surface 21 and the side surface ( The lower surface 22 formed horizontally bent at the bottom of 21) is wrapped, and the upper surface 23 formed horizontally bent at the upper end of the side surface 21 is divided so that the glass groove 24 can be formed. The upper surface portion 11 of the reinforcing frame 10 and 10a is not in close contact with the upper and lower spaced apart state, and a glass groove 24 is recessed in the center between the upper surfaces 23.

The stainless steel bending bars 20 and 20a are manufactured in various standards in which the widths W and W1 of the glass grooves 24 are different, as shown in FIG. 6. Therefore, by selecting and installing the stainless steel bending bar 20, 20a having a glass groove 24 suitable for the thickness of the glass 1 to surround the divided reinforcement frame 10, 10a, the glass according to the special purpose ( It can be constructed by varying the thickness of 1), so it provides a special effect with excellent product utilization and expandability.

Here, the stainless steel bending bar 20, 20a is grafted with a technique to block heat conduction between indoor and outdoor, like the split reinforcement frames 10 and 10a.

As a technical configuration for this purpose, as shown in FIG. 5, the front end of the support surface 25 forming the bottom of the glass groove 24 is formed with bending joints 26 bent downwardly, and between the joints 26 indoors and outdoors. A silicone caulking 27 that blocks the heat conduction of the liver is joined, and the joining projections 26 are fastened while being fitted into the engaging portions 12 formed in the divided reinforcing frames 10 and 10a so that a plurality of divided reinforcing frames 10 ) (10a) and stainless steel bending bar (20) (20a) is not separated and maintains a solid integrity with each other, and improves the structural strength of the connecting portion of the separated stainless steel bending bar (20, 20a), and makes the appearance neat It provides a special effect.

In addition, the support surface 25 of the glass groove 24 is entirely seated on the upper surface portion 11 of the divided reinforcing frame 10 and 10a, thereby completely dividing the weight of the glass 1 into the divided reinforcing frame 10 and 10a. ) To realize the high rigidity by receiving directly, prevent the deformation of the insulation frame (F) for windows and doors, improve the durability, and provide a special effect to stably support the glass (1) on the flat support surface (25). .

F: Insulated frame for windows and doors 1: Glass
10, 10a: Split reinforcement frame 11: Upper surface
12: Jam 13: Azone filling chamber
14: azone insulation 15: heat conduction prevention cutting
16: Azon injection port 17: Side part
18: lower part 20, 20a: stainless steel bending bar
21: side surface 22: bottom surface
23: upper surface 24: glass groove
25: base

Claims (4)

A locking portion 12 is formed in the center between the upper surface portions 11, and the azon insulation 14 is inserted into the azone filling chamber 13 formed at the lower portion of the locking portion 12, and the azone filling chamber 13 is provided. ), A plurality of divided reinforcement frames (10) (10a) arranged at intervals while the heat conduction prevention cutting portion (15) and the azon inlet (16) are formed, respectively;
The side surface 17 and the bottom surface 18 of the plurality of divided reinforcement frames 10 and 10a are wrapped around the side surface 21 and the bottom surface 22, and bent horizontally at the top of the side surface 21. The formed upper surface 23 is spaced apart from the upper surface portion 11 of the divided reinforcement frame 10 and 10a, and a pair of stainless steel bending bars in which a glass groove 24 is recessed in the center between the upper surfaces 23 (20) (20a);
An adhesive is applied to the side surface 21 of the stainless steel bending bar 20 and 20a in contact with the side part 17;
The stainless steel bending bars 20 and 20a are made of various standards in which the widths W and W1 of the glass grooves 24 are formed differently, and the stainless steel grooves 24 that are suitable for the thickness of the glass 1 are formed. Selecting the bending bar (20) (20a) is applied to the divided reinforcement frame (10) (10a);
The supporting surface 25 of the glass groove 24 is entirely seated on the upper surface portion 11 of the divided reinforcing frame 10 and 10a, thereby reducing the weight of the glass 1 to the divided reinforcing frame 10 and 10a. Insulating frame for windows and doors with adjustable width of glass grooves, characterized by realizing high rigidity while receiving directly.
delete delete According to claim 1,
At the front end of the supporting surface 25 constituting the bottom of the glass groove 24, bonding projections 26 are bent downward, respectively, and silicon caulking 27 for blocking heat conduction between the interior and exterior between the bonding projections 26 ) Is joined, the joint projection 26 is fitted to the locking portion 12 of the divided reinforcement frame (10) (10a) is fixed, it is possible to adjust the width of the glass groove insulating frame for windows and doors.

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