KR20130001976U - Configuring the composite insulation layer sash - Google Patents

Abstract

The present invention is a composite of heat-insulating material with low thermal conductivity, so as to compensate for the strong thermal conductivity, which is the most vulnerable part of the aluminum material, which is selected as the best material for the window frame due to productivity and light weight, ease of handling and construction. The present invention relates to a heat insulating composite window frame structure in which the external temperature and internal temperature are minimized. The chassis constituting the window frame is divided into an outer chassis and an inner chassis, and is insulated between the outer chassis and the inner chassis. Combining integrally to form, the inner chassis to form a glass fixed chassis coupling groove on the top, and forming a coupling projection below the coupling protrusion formed on the lower side of the coupling projection formed a member coupling groove; An outer chassis including a glass support part formed at an upper end thereof, a engaging protrusion formed below the engaging protrusion, and a door coupling part formed at a lower side of the engaging protrusion by forming a member engaging groove; A main insulation chassis formed of a synthetic resin or ceramic material having a glass support part formed with a member coupling groove at the upper right side to be integrally coupled between the inner chassis and the outer chassis and having coupling grooves formed on both sides thereof; Glass fixing chassis coupled to the glass fixing chassis coupling portion of the inner chassis and a hook at the bottom to fix the glass; and configured to be used as a horizontal window frame, and the door frame coupling part of the inner chassis to the horizontal window frame configured as described above An inner finishing chassis coupled to the lower end and forming a coupling piece on an upper surface thereof; An outer finishing chassis which is coupled to the lower end of the outer chassis and forms a coupling piece on an upper surface thereof, and the right end portion integrally extends an airtight portion formed with a member coupling groove on an upper end thereof; It is integrally coupled between the inner and outer chassis to seal the space between the door-to-door coupling portion sealed insulation chassis formed with coupling grooves at both ends of the material or the ceramic; further comprising; used as a vertical window frame It is configured to prevent heat exchange between indoor and outdoor temperature to achieve perfect insulation to minimize energy loss in residential spaces, to prevent condensation, and to form these components into easy-to-assemble prefabricated parts on the job site. Easily assembled and constructed, there is a new effect not found in the window frame chassis.

Description

Configuring the composite insulation layer sash}

The present invention relates to a heat-insulated composite window frame structure, and to improve the thermal conductivity, which is the most vulnerable part of the aluminum material, which is selected as the best material constituting the window frame due to the ease of handling and construction due to productivity and light weight. The present invention relates to a heat-insulated composite window frame structure in which a weak and heat-insulating material is compounded to minimize the exchange of external and internal temperatures.

In order to realize a comfortable space that is cut off from the outside as the civilization develops, the building is constructed, and the window is made of a transparent material for observing the outside scenery and easily touching the outside atmosphere. The material of the window frame is first used as wood. It is evolved and developed in recent years. As the main material is aluminum alloy which is easy to handle and install because it is easy to produce and lightweight due to its extruded molding, it is easy to produce and lightweight. As such, the aluminum material had a fatal disadvantage due to its excellent thermal conductivity.

In general, a window is designed to maximize thermal insulation and soundproofing in which external temperature or noise is not transmitted to the inside, or internal temperature or noise is not transmitted to the outside. We have developed a pair of pairs of glass that form a space between them to achieve a satisfactory level of thermal insulation and sound insulation of the transparent glass that make up the window. Insulation and sound insulation of the window frame constituting does not improve the situation is experiencing a lot of difficulties.

Recently developed to solve the above problems, the insulation window widely used in residential apartments, houses, offices, etc. is made of aluminum or PVC material and the air layer having a low thermal conductivity is formed inside the window to increase the insulation effect and Some form of insulation for window insulation.

Patent application No. 10-2009-0104549 (October 30, 2009) is a synthetic resin material consisting of an inner rail portion and an outer rail portion adjacent to a window frame frame of a system window providing a path for opening and closing a window composed of an inner window and an outer window Rail portion of; A thermal cross-linking material provided on one side of the inner rail part and the outer rail part, respectively; And an insulation pad provided on an inner side of the window frame frame to increase an insulation effect. The window frame frame of the window system is insulated. The insulation is provided by two thermal bridge blocking materials respectively provided on the rail part and the outer rail part. It has an effect to prevent condensation, and has a heat insulating pad and a cap inside the window frame frame to block cold air transmitted directly from the window frame to further improve insulation and more reliably prevent condensation. Easily removable through the second locking portion and the second protrusion has the effect that can produce a variety of feelings without replacing the window frame by replacing only the finish having a variety of surfaces. Patent application No. 10-2009-0005505 (2009.01.22) is a rail portion consisting of an inner rail portion and an outer rail portion adjacent to each other the window frame frame of the system window providing a path for opening and closing the window consisting of the inner window and the outer window ; And one side of the inner rail and the outer rail, each having a thermal cross-linking material; a window frame of an insulated system window having a double thermal cross-cutting material comprising a, wherein the inner rail part and the outer rail part are removable from the window frame frame, and the inner rail part and Connection parts are formed to protrude from one side of the outer rail part along the length direction so as to be connected to each other, and one side of the upper center of the inner rail part provided in the lower frame of the window frame provides a movement path of the inner window frame along the length direction The rail is formed to protrude

However, the window frames that have been developed and used so far have coated the outside of the aluminum chassis with a low thermal conductivity plastic material or installed a high thermal insulation material on both sides of the aluminum chassis during construction. Insulation layer is formed by inserting heat-exchange blocking material, which is an insulation material, into the inner space of aluminum sash, which may have better insulation than the existing configuration, but does not maximize the effect because it does not block the heat conducted through the connected aluminum chassis. It was.

The object of the present invention is to provide a window frame having excellent heat insulation with a configuration that integrally combines an excellent heat insulating chassis between the aluminum chassis divided into two when the window frame is configured in view of the above problems.

The present invention for achieving the above object is configured by dividing the chassis constituting the window frame into an outer chassis and an inner chassis and integrally combining the insulating chassis between the outer chassis and the inner chassis, the glass on the top An inner chassis which forms a fixed chassis coupling groove, forms a coupling protrusion under the coupling protrusion, and has a door coupling portion formed with a member coupling groove under the coupling protrusion; An outer chassis including a glass support part formed at an upper end thereof, a engaging protrusion formed below the engaging protrusion, and a door coupling part formed at a lower side of the engaging protrusion by forming a member engaging groove; A main insulation chassis formed of a synthetic resin or ceramic material having a glass support part formed with a member coupling groove at the upper right side to be integrally coupled between the inner chassis and the outer chassis and having coupling grooves formed on both sides thereof; Glass fixing chassis coupled to the glass fixing chassis coupling portion of the inner chassis and a hook at the bottom to fix the glass; and configured to be used as a horizontal window frame, and the door frame coupling part of the inner chassis to the horizontal window frame configured as described above An inner finishing chassis coupled to the lower end and forming a coupling piece on an upper surface thereof; An outer finishing chassis which is coupled to the lower end of the outer chassis and forms a coupling piece on an upper surface thereof, and the right end portion integrally extends an airtight portion formed with a member coupling groove on an upper end thereof; It is integrally coupled between the inner and outer chassis to seal the space between the door-to-door coupling portion sealed insulation chassis formed with coupling grooves at both ends of the material or the ceramic; further comprising; used as a vertical window frame Configured to

The present invention in the construction of the window frame, by separating the window frame chassis to form a thermal insulation window frame to form a prefabricated insulation layer by integrally insulated chassis between them by blocking the heat exchange between the indoor temperature and the outside temperature to ensure perfect insulation By minimizing energy loss in residential spaces, preventing condensation, and forming them into easy-to-assemble prefabricated structures, they can be easily assembled and installed on the job site. There is no new effect.

Figure 1 is an exemplary separation state showing the horizontal window frame configuration of the present invention.
Figure 2 is an exemplary view showing a combined window frame configuration of the present invention.
Figure 3 is an exemplary separation state showing the horizontal window frame configuration of the present invention.
Figure 4 is an example of a combined state showing a horizontal window frame configuration of the present invention.
5 is an exemplary embodiment of the present invention.

The construction of the present invention will be described in detail with reference to the accompanying drawings.

In constructing the adiabatic composite window frame, first, in order to form a horizontal window frame, as shown in FIG. 1, a glass fixing chassis coupling groove 11 is formed on the upper side, and a coupling protrusion 12 is formed below the coupling protrusion. At the lower side of 12, the inner chassis 10 having the door-to-wheel coupling portion 13 having the member coupling grooves 14 formed therein is formed by long extrusion molding of aluminum.

And to form a glass support portion 21 on the top and the engaging projection 22 thereunder and the lower side of the engaging projection 22 to form a door-to-door coupling portion 23 formed with a member coupling groove 24 It is made of a material by extrusion molding long to configure the outer chassis (20).

In this way, the glass support part 31 having the member coupling groove 34 is formed on the upper right side so as to be integrally coupled between the inner chassis 10 and the outer chassis 20 which have been extruded. The main thermal insulation chassis 30 which consists of synthetic resin or ceramic which formed (32) is comprised.

It is coupled to the glass fixing chassis coupling portion 11 of the inner chassis 10 to form a long glass fixing chassis 40 having a hook 42 at the bottom to fix the glass made of aluminum or synthetic resin. .

The inner chassis 10, the outer chassis 20, the main insulation chassis 30, the glass fixing chassis 40, which are configured as described above, are cut in accordance with the standard of the window frame to be constructed, and the inner chassis 10 and the outside are The main insulation chassis 30 is integrally bonded between the chassis 20 as shown in FIG. 2 to form a single body, and when the glass fixing chassis 40 is coupled thereto, the horizontal window frame is completed.

Here, the glass fixing chassis 40 constitutes the window frame as a whole, and when the glass is coupled, the glass fixing chassis 40 couples the hooks 42 to the glass fixing chassis coupling grooves 11 of the inner chassis 10 to fix the glass. It is.

In order to complete the horizontal window frame as described above and to form the vertical window frame, as shown in Figure 3, the glass fixing chassis coupling groove 11 is formed on the top, and the coupling protrusion 12 is formed thereon, and the coupling protrusion ( The lower side of 12) is formed by extrusion molding the inner chassis 10 formed with the door-to-wheel coupling portion 13 having the member coupling grooves 14 made of aluminum.

And to form a glass support portion 21 on the top and the engaging projection 22 thereunder and the lower side of the engaging projection 22 to form a door-to-door coupling portion 23 formed with a member coupling groove 24 It is made of a material by extrusion molding long to configure the outer chassis (20).

In this way, the glass support part 31 having the member coupling groove 34 is formed on the upper right side so as to be integrally coupled between the inner chassis 10 and the outer chassis 20 which have been extruded. The main thermal insulation chassis 30 which consists of synthetic resin or ceramic which formed (32) is comprised.

It is coupled to the glass fixing chassis coupling portion 11 of the inner chassis 10 to form a long glass fixing chassis 40 having a hook 42 at the bottom to fix the glass made of aluminum or synthetic resin. .

In addition, the inner finishing chassis 50 having a coupling piece 52 formed on the upper surface of the inner chassis 10 so as to be connected to the lower end of the door-to-door coupling part 13 of the inner chassis 10, and the upper surface to be coupled to the lower end of the outer chassis 20. A coupling piece 62 is formed at the right side, and the outer end chassis 60 formed of an aluminum or synthetic resin material is formed at the right end thereof so as to extend integrally the sealing part 63 having the member coupling groove 64 formed thereon. Mold.

And coupling grooves 72 formed at both ends of a synthetic resin or ceramic material integrally coupled between the inner finishing chassis 10 and the outer finishing chassis 20 to seal the space between the door lock coupling parts 13 and 23. The sealed thermal insulation chassis 70 is formed to be made of synthetic resin or ceramic material for a long time.

The inner chassis 10 and the outer chassis 20, the main insulation chassis 30, the glass fixing chassis 40, the inner finishing chassis 50, the outer finishing chassis 60, and the sealed insulating chassis 70 configured as described above. Cut to fit the size of the window frame to be constructed, as shown in Figure 3, the main insulation chassis 30 is integrally bonded between the inner chassis 10 and the outer chassis 20 to form a single body, On the lower side of the door coupling portion 13 formed on the lower side of the inner chassis 10, the inner closing chassis 50 is integrally bonded to each other and integrally bonded to the door closing portion 23 formed on the lower side of the outer chassis 20. Combining the outer finishing chassis 60 by integrally bonding, and then closing the space between the inner finishing chassis 50 and the outer finishing chassis 60 with a closed insulation chassis 70 to form a vertical window frame and When the glass fixing chassis 40 is combined here, the vertical window frame is completed.

Here, the glass fixing chassis 40 constitutes the window frame as a whole, and when the glass is coupled, the glass fixing chassis 40 couples the hooks 42 to the glass fixing chassis coupling grooves 11 of the inner chassis 10 to fix the glass. It is.

In some cases, the sealing portion 63 of the outer finishing chassis 60 may be removed so that the right end of the outer finishing chassis 60 coincides with the right end of the outer chassis 20.

The present invention described above is carried out on the window frame during building construction is excellent in insulation, easy to assemble and convenient to use immediately,

10: inner chassis 11: glass fixing chassis coupling groove 12, 22: coupling protrusion
13, 23: door coupling 14, 24, 34, 64: member coupling groove 20: outer chassis
21: glass support 30: main insulation chassis 31: glass support
32, 72: engaging groove 40: glass fixing chassis 42: hook
50: inner finish chassis 52, 62: coupling piece 60: outer finish chassis
63: sealed portion 70: sealed insulation chassis

Claims (2)

In constructing a composite window frame,
A glass fixed chassis coupling groove 11 is formed on the upper side, and a coupling protrusion 12 is formed thereunder, and a door coupling portion 13 having a member coupling groove 14 is formed on the lower side of the coupling protrusion 12. An inner chassis 10;
The outer chassis constituting the door-to-wheel coupling part 23 having the glass support part 21 formed at the top and the coupling protrusion 22 formed thereon and the member coupling groove 24 formed at the lower side of the coupling protrusion 22. 20);
A glass support part 31 having a member coupling groove 34 is formed on the upper right side so as to be integrally coupled between the inner chassis 10 and the outer chassis 20, and the coupling grooves 32 are formed on both sides thereof. A main insulation chassis 30 made of a synthetic resin or ceramic material;
It is coupled to the glass fixing chassis coupling portion 11 of the inner chassis 10 and a glass fixing chassis 40 formed with a hook 42 at the bottom to fix the glass; Insulated composite window frame structure. The method of claim 1,
An inner finishing chassis 50 that is coupled to the lower end of the door coupling portion 13 of the inner chassis 10 and has a coupling piece 52 formed on an upper surface thereof;
The outer finish is formed to be coupled to the lower end of the outer chassis 20, the coupling piece 62 is formed on the upper surface, the right end portion to integrally extend the sealing portion 63 formed with the member coupling groove 64 on the upper end. Chassis 60;
Coupling grooves 72 are formed at both ends of a synthetic resin or ceramic material integrally coupled between the inner finishing chassis 10 and the outer finishing chassis 20 to seal the space between the door locking unit 13 and 23. Insulated composite window frame structure, characterized in that configured to be used as a vertical window frame further comprises;

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