KR20220166446A - Complex window - Google Patents

Abstract

The present invention relates to a complex window system. The complex window system comprises: a window frame part; and a window sash part including at least one pair of window sashes installed on the window frame part to be slidably opened and closed. The window sash part includes: a window frame profile including a synthetic resin material; window frame finishing caps fitted to the outer surface of the window frame profile, having a hollow, and including a horizontal window frame cap and a vertical window frame cap formed of metal; rail assemblies coupled to the upper surface of the window frame profile to support an outdoor window sash included in the window sash part, and including a rail insulation material formed of an insulating material. The horizontal window frame cap and the vertical window frame cap have a fastening groove to which a fastening member for fastening the horizontal window frame cap and the vertical window frame cap to each other is fastened. Therefore, an esthetic sense can be granted to the complex window system.

Description

Composite windows {COMPLEX WINDOW}

The present invention relates to a composite window, and more particularly, to a composite window having an integrated coupling structure between components of a window profile, so that the appearance is beautiful, design is improved, and thermal insulation performance is improved.

In general, windows and doors are words that refer to both windows and doors, and there are various types of windows installed in buildings or indoors, such as sliding windows (non-clerk windows), casement windows, rotating windows, and fixed windows, depending on the opening and closing method. , Gap between window frame (including door frame) and window leaf (including door leaf) to improve functions such as airtightness, watertightness, insulation, sound insulation, wind pressure resistance, etc. It can be classified as a system window that includes special hardware to minimize

Among these system windows, the lift sliding window can slide and move in a state where the window is lifted up by the rotational operation of the handle (opening device) when the window is opened, and when the window is closed, the window is opened through the rotational operation of the handle. It can be lowered and adhered to the window frame. Such a lift-sliding window adopts a method of improving airtightness and heat insulation of the window by providing the window in close contact with the bottom surface of the window frame.

On the other hand, in order to improve the exterior design, durability and heat insulation performance of windows and doors, composite material windows and doors are being used. In the composite material, the profile, which is the basic frame of the window, is made of a synthetic resin material that has advantages in heat radiation and condensation, and the part visible from the outside can be made of a metal material that can stimulate the user's aesthetic sense.

However, such composite material windows and doors may be implemented by combining a plate-shaped aluminum cap with a profile made of synthetic resin by a simple fitting method or by forming coupling protrusions on a profile made of synthetic resin and combining them by rolling.

According to this simple fitting coupling method, there is a limit to strengthening the binding force between the aluminum cap and the profile, and there is a problem in that leakage and leakage occur due to a step difference occurring at the corner of the window frame and the window pane. In addition, according to the method of forming a coupling protrusion on a conventional profile and combining it with an aluminum cap, there is a problem in that processing workability is deteriorated, such as requiring a dedicated cutter when cutting the aluminum cap.

In addition, the conventional lift sliding window adopts a method of maintaining airtightness of the window by providing the window panel in close contact with the bottom surface of the window frame, which may further increase leakage and leakage at the corner portion.

Conventionally, in order to solve this problem, a separate auxiliary material is combined or a silicon treatment process is performed on the outdoor side, but there is a limit to preventing leakage and improving the appearance.

Therefore, in implementing the lift sliding function in composite windows and doors (hereinafter referred to as composite windows), there is a need to improve technology for minimizing water leakage and improving appearance while improving processing workability.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a composite window that minimizes the lifting or separation of the window frame finishing cap by improving the fastening force between the profile and the window frame cap.

In addition, an object of the present invention is to provide a composite window or door that minimizes the occurrence of gaps at the corners of a window frame equipped with a window frame finishing cap.

In addition, an object of the present invention is to provide a composite window that improves design by realizing a finishing structure in which the same material is continuous on the indoor side and the outdoor side.

In order to achieve the above object, a composite window according to the present invention includes a window frame portion and a window portion including at least one pair of window panes slidably installed on the window frame portion, wherein the window frame portion includes a synthetic resin material. A profile, a window frame finishing cap that is fitted to the outer surface of the window frame profile, has a hollow formed therein, and includes a horizontal window frame cap and a vertical window frame cap made of metal, and the window frame profile to support the outdoor window pane included in the window part. A rail assembly coupled to an upper surface and provided with a rail insulation made of a heat-insulating material, wherein the horizontal window frame cap and the vertical window frame cap have fastening grooves for fastening fastening members fastening the horizontal window frame cap and the vertical window frame cap to each other. is formed

The fastening member may be provided as a fastening screw fastened to the horizontal window frame cap and the vertical window frame cap by screwing, and the fastening groove may be formed in the hollow provided in the window frame finishing cap.

The window frame finishing cap may include an outer window frame cap provided to cover the outer surface of the window frame profile facing the outdoor side and an inner window frame cap provided to cover the inner surface of the window frame profile facing the indoor side.

The window unit further includes an indoor window unit installed on the window frame and disposed inside the outdoor window unit, and the rail assembly includes an outdoor rail supporting the outdoor window unit and is made of a first metal material. A rail body, a second rail body provided to be spaced outward from the first rail body, in contact with the outer window frame cap, and made of a metal material, and a coupling between the first rail body and the second rail body The rail insulation material is made of a heat insulating material and fitted to the window frame profile, and the cover is fitted to the upper part of the second rail body and is provided to cover the second rail body and the rail insulation material and is made of a metal material. may contain a body.

The window frame portion may further include a rail closing cap provided to cover the bottom surface of the window frame profile, made of a metal material, and fitted to the indoor rail so as to be in close contact with the indoor window pane and the floor surface.

The indoor window sash is fitted with a first window sash profile made of synthetic resin and a surface of the first window sash profile facing the indoor side, forms a rail groove together with the first window sash profile, includes a hollow part, and is made of metal. A second window profile comprising a material, wherein the second window profile includes a horizontal second window profile, a vertical second window profile vertically connected to an end of the horizontal second window profile, and a coupling member screwed together. It may include fastening grooves formed in the second horizontal window profile and the vertical second window profile.

The indoor window panes are slidably installed on the window frame profile and are provided as a pair. a first insulator provided to be coupled to the first window sash profile and the second window sash profile and including a heat insulating material, provided to cover the first insulator and vertically extended, and one side coupled to the first insulator and a first windproof frame including a metal material and fitted and coupled to the other side of the first window profile or the second window profile.

The first insulator includes a heat insulating part interposed in the space between the pair of indoor window panes in a closed state, and is provided perpendicularly to the heat insulating part and is connected to the first window pane profile and the second window pane profile. An outdoor window sash, which includes a hook-coupled coupling protrusion and includes a coupling portion covered by the first windbreak frame, and is located on the outermost side among outdoor window sashes provided as a pair, includes an outer window profile and the outer window sash. It may include a reinforcing member made of metal inserted into the inner hollow of the window pane profile, and an insulating cover member interposed between the inner surface of the outer window pane profile and the outer surface of the reinforcing member.

The composite windows formed by combining profiles and members of different materials according to an embodiment of the present invention have a structure in which the window frame finishing cap can be coupled to the window frame profile in multiple ways, so that the fastening force between the profile and/or member made of metal and synthetic resin is increased. can be improved As a result, not only can the lifting, separation or separation of the window frame finishing cap be minimized, but also the finishing of the joint part is beautiful due to this, which can give an aesthetic sense to the window.

In addition, according to an embodiment of the present invention, by coupling the vertical window frame cap and the horizontal window frame cap of the window frame finishing cap to each other through the fastening member and the fastening groove, it is possible to minimize the occurrence of gaps at the corners of the window frame finishing cap, and to improve machining workability. can improve

In addition, according to the present invention, the design of windows and doors can be improved by implementing a finishing structure in which profiles and/or parts made of the same metal material are continuous on the indoor and outdoor sides.

In addition, the present invention can improve thermal insulation by lowering thermal conductivity by providing a heat insulating material between a window frame closing cap made of a metal material and/or rail assemblies.

1 is an external elevation view showing a composite window according to an embodiment of the present invention.
Figure 2 is a side cross-sectional view showing the AA section of Figure 1;
3 is a cross-sectional view showing an exploded view of a window frame according to an embodiment of the present invention.
Figure 4 is a cross-sectional view shown by combining Figure 3;
FIG. 5 is an enlarged view of a portion of FIG. 1, showing a portion where a horizontal window frame cap and a vertical window frame cap are coupled.
6 shows a composite window according to an embodiment of the present invention, and is a view for explaining the continuity of the materials of the indoor and outdoor sides.
7 is a side cross-sectional view showing a composite window according to another embodiment of the present invention.
8 is a partial cross-sectional view of BB of FIG. 1 showing a fastening band for an indoor window pane according to an embodiment of the present invention.
9 is a partial cross-sectional view of BB of FIG. 1 showing a fastening band for an outdoor window pane according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the embodiments described below are suitable for understanding the technical characteristics of the present invention composite windows and doors. However, the technical characteristics of the present invention are not limited to the embodiments described below, or the technical characteristics of the present invention are not limited by the embodiments described below, and various modifications are possible within the technical scope of the present invention.

1 is an external elevation view showing a composite window according to an embodiment of the present invention, FIG. 2 is a side cross-sectional view showing a cross section A-A of FIG. 1, and FIG. 3 is an exploded view of a window frame according to an embodiment of the present invention FIG. 4 is a cross-sectional view shown by combining FIG. 3, FIG. 5 is an enlarged view of a portion of FIG. 1, and shows a portion where a horizontal window frame cap and a vertical window frame cap are coupled, and FIG. 6 shows a composite window according to an embodiment of the present invention, and is a view for explaining the continuity of the materials of the indoor and outdoor sides.

7 is a cross-sectional side view showing a composite window and door according to another embodiment of the present invention, and FIG. 8 is a partial cross-sectional view of a B-B of FIG. FIG. 9 shows a fastening band for an outdoor window pane according to an embodiment of the present invention, and is a partial cross-sectional view taken along line B-B of FIG. 1 .

Referring to FIGS. 1 to 9 , a composite window 10 according to an embodiment of the present invention may include a window frame portion 100 and a window portion 200 .

The window frame portion 100 may form a main outer frame of the composite window 10 .

The window unit 200 may include at least one pair of window units slidably installed on the window frame unit 100 . An embodiment of the present invention may be made of a double-glazed structure including an outer window and an inner window.

Specifically, the window unit 200 may include an outdoor window unit 210 and an indoor window unit 250 .

The outdoor window 210 is installed on the window frame 100 and may include a metal material.

The indoor window pane 250 is installed on the window frame 100 and is disposed in a direction from the outdoor window pane 210 toward the indoor side, and a metal profile and a synthetic resin profile may be combined with each other to be provided as a composite material. there is. The present invention may be made of a double-glazed structure including an indoor window 250 and an outdoor window 210.

However, the composite window 10 according to the present invention is not limited to the double-glazed structure, and may be made of a single-pane structure or a triple or more multi-pane structure. For example, a plurality of indoor window panes 250 may be provided to realize a triple or more multi-layered window structure.

The window frame portion 100 may include a window frame profile 110 and a window frame closing cap 130 .

The window frame profile 110 may include a synthetic resin material. Specifically, the window frame profile 110 may form a rectangular frame by assembling a plurality of profiles, and for example, the window frame profile 110 may be made of a polyvinyl chloride (hereinafter referred to as PVC) material.

The window frame finishing cap 130 is provided to finish the outer surface of the window frame profile 110, is fitted to the outer surface of the window frame profile 110, has a hollow (h), and may include a metal material.

Specifically, the window frame finishing cap 130 is a part for finishing the surface facing the outdoor side and the surface facing the indoor side of the window frame profile 110. The window frame closing cap 130 may include a metal material, and may be made of aluminum, for example. That is, the present invention may be made of a window frame made of a composite material by combining a window frame profile 110 made of synthetic resin with a window frame finishing cap 130 made of metal.

The window frame finishing cap 130 according to the present invention has a hollow (h) formed therein, and can be fitted to the window frame profile 110 in a multi-locking structure. For example, a plurality of coupling protrusions may be formed in the window frame closing cap 130, and a hooking portion may be formed in the window frame profile 110 to which the coupling protrusions are fitted in a way such as hooking. Conventionally, the window frame finishing cap 130 is formed in a plate shape and simply attached to the window frame profile 110, so there is a limit to strengthening the binding force between the finishing cap and the window frame profile 110. The window frame finishing cap 130 according to the present invention has a structure capable of being fitted in multiple ways with the window frame profile 110, so that the fastening force with the window frame profile 110 can be strengthened.

More specifically, the window frame closing cap 130 may include a horizontal window frame cap 130a, a vertical window frame cap 130b, and a fastening groove s.

The horizontal window frame cap 130a may extend horizontally. Also, the vertical window frame cap 130b may be vertically connected to an end of the horizontal window frame cap 130a.

Specifically, the horizontal window frame cap 130a may be coupled to the horizontal member of the window frame profile 110, and the vertical window frame cap 130b may be coupled to the vertical member of the window frame profile 110. For example, the horizontal window frame cap 130a and the vertical window frame cap 130b may be coupled at the corner of the window frame profile 110, and the surface where the horizontal window frame cap 130a and the vertical window frame cap 130b come into contact with each other is the ground. It may be provided to achieve 45 degrees with respect to (see FIG. 5).

The fastening member 140 may be provided to couple the horizontal window frame cap 130a and the vertical window frame cap 130b to each other. For example, the fastening member 140 may be provided as a fastening screw fastened to the horizontal window frame cap 130a and the vertical window frame cap 130b by screwing. However, the fastening member 140 is not limited thereto, and various members may be applied as long as the horizontal window frame cap 130a and the vertical window frame cap 130b can be combined.

The fastening groove s may be formed in the horizontal window frame cap 130a and the vertical window frame cap 130b to fasten the fastening member 140 thereto. For example, the fastening groove (s) may be formed in the hollow (h) provided in the window frame finishing cap 130, and a screw thread may be formed to be screwed with the fastening screw that is the fastening member 140. That is, the window frame closing cap 130 according to the present invention is not provided in a simple plate shape, but is formed in a profile shape including a hollow (h), thereby realizing a structure that can be coupled to the window frame profile 110 in multiple ways. At the same time, a fastening groove s capable of fastening the fastening member 140 for coupling the horizontal window frame cap 130a and the vertical window frame cap 130b to each other can be formed.

As described above, according to the present invention, the window frame finishing cap 130 has a structure capable of being coupled to the window frame profile 110 in multiple ways, thereby improving the fastening force of the window frame finishing cap 130, thereby lifting the window frame finishing cap 130. or deviations can be minimized. In addition, since the vertical window frame cap 130b and the horizontal window frame cap 130a of the window frame finishing cap 130 can be coupled to each other through the fastening member 140 and the fastening groove s, the corner portion of the window frame finishing cap 130 It is possible to minimize the occurrence of lifting or gaps in the

In addition, according to the present invention, in order to improve the fastening force of the window frame closing cap 130 and suppress the occurrence of gaps, it is possible to omit the process of combining separate subsidiary materials or processing silicon, so that machining workability can be improved and productivity can be improved. can be increased

Meanwhile, the window frame closing cap 130 may include an outer window frame cap 131 and an inner window frame cap 135 .

The outer window frame cap 131 may be provided to cover the outer surface of the window frame profile 110 toward the outside. The inner window frame cap 135 may be provided to cover the inner surface of the window frame profile 110 toward the inside.

Here, each of the outer window frame cap 131 and the inner window frame cap 135 may include all of the configurations of the window frame finishing cap 130 described above. That is, each of the outer window frame cap 131 and the inner window frame cap 135 may include a vertical window frame cap 130b, a horizontal window frame cap 130a, and a fastening groove s. Also, for example, the outer window frame cap 131 and the inner window frame cap 135 may be made of aluminum, and coupling protrusions 132 and 136 for coupling with the window frame profile 110 may be formed.

Meanwhile, referring to FIGS. 2 to 4 , an embodiment of the present invention may further include an insecticide window 400 installed on the window frame 100 and disposed outside the outdoor window 210 . The insect screen 400 may be slidably provided on the window frame 100 .

Specifically, the outer window frame cap 131 may be formed with an insect screen rail 133 and an auxiliary rail 134 . The insect screen 400 may be slidably installed on the insect screen rail 133 . Auxiliary rail 134 is formed on the outside of the insect screen rail 133, it is possible to prevent separation when opening and closing the insect screen 400. As such, the outer window frame cap 131 may include a double rail structure including the insect screen rail 133 and the auxiliary rail 134 to prevent the insect screen 400 from falling off.

However, the outer window frame cap 131 of the present invention is not limited to the above structure, and may be variously modified according to the structure of the composite window 10. For example, when the fixed window 350 is installed on the outside of the composite window 10 as in another embodiment of the present invention shown in FIG. (134) may not be formed. In this case, the outer window frame cap 131 is coupled to the window frame profile 110 and may serve to support a rail assembly 150 to be described later.

Meanwhile, the window frame portion 100 may further include a rail assembly 150 . The rail assembly 150 may be coupled to the upper surface of the window frame profile 110 and support the outdoor window 210 in a sliding manner.

For example, the pair of outdoor window panes 210 may be provided, and at least one of the pair of outdoor panes 210 may be slidably installed on the window frame 100 . The rail assembly 150 is assembled on the upper surface of the window frame profile 110 and is provided at a position corresponding to the outdoor window 210 to play a role of supporting the outdoor window 210 in a sliding manner.

Specifically, the rail assembly 150 may include a first rail body 151, a second rail body 153, a rail insulation 154, and a cover body 156.

The first rail body 151 includes an outdoor rail 152 supporting the outdoor window 210 and may be made of a metal material. The outdoor rail 152 is formed at a position corresponding to the rail groove of the outdoor window 210 to support the roller. The first rail body 151 may be made of the same metal material as the window frame closing cap 130 . For example, the first rail body 151 may be made of aluminum. The first rail body 151 may also have a coupling protrusion 151a that can be coupled by being caught on the window frame profile 110 .

The second rail body 153 is provided to be spaced apart from the first rail body 151 in an outward direction and is in contact with the outer window frame cap 131 and may be made of a metal material.

The second rail body 153 may be made of the same metal material as the first rail body 151, and may be made of aluminum, for example. The second rail body 153 is provided to be in contact with at least the outer window frame cap 131, and may be continuously provided with the outer window frame cap 131.

A hollow (h) may be formed between the first rail body 151 and the second rail body 153, and a fastening groove (s) may be formed in the hollow (h) to enable screw coupling of a fastening screw. As a result, each of the first rail body 151 and the second rail body 153 may be coupled to each other by fastening screws to the vertical member and the horizontal member provided therewith.

The rail insulation material 154 is fitted between the first rail body 151 and the second rail body 153, is made of a heat insulating material, and can be fitted to the window frame profile 110.

For example, the rail insulation 154 may be made of polyamide. The polyamide material is a kind of engineering plastic and has a mechanical property similar to that of aluminum in terms of linear expansion coefficient, so it is suitable as a means for blocking heat conduction between the first rail body 151 and the second rail body 153 made of aluminum. can However, the material of the rail insulation material 154 is not limited thereto, and various materials of insulation material may be used.

In addition, the rail insulation 154 may be provided with a wide width in a direction from the first rail body 151 toward the second rail body 153 . Accordingly, it is possible to effectively insulate between the first rail body 151 and the second rail body 153 made of metal.

In addition, the rail insulation material 154 may be formed with assembly protrusions 154a inserted into the assembly grooves of the first rail body 151 and the assembly grooves of the second rail body 153 . Accordingly, the rail insulation material 154 may be fitted and coupled to the first rail body 151 and the second rail body 153 . In addition, the rail insulation 154 may further include coupling protrusions 154b to be fitted and coupled to the window frame profile 110.

In addition, the rail assembly 150 may further include a rail insulation cover 155 covering the rail insulation 154 to protect the rail insulation 154 . The rail insulation cover 155 may be made of the same material as the rail insulation 154 or a synthetic resin material.

The cover body 156 is fitted to the upper portion of the second rail body 153 and provided to cover the second rail body 153 and the rail insulation 154, and may be made of a metal material. Specifically, the cover body 156 may have a coupling protrusion 156a formed so as to be fitted to the second rail body 153, and provided to cover the second rail body 153 and the cover body 156, so that the rail The insulator 154 and the cover body 156 may not be exposed to the outside. Accordingly, the cover body 156 can be made of aluminum together with the second rail body 153 and the outdoor window 210 to be continuous.

The shape and function of the cover body 156 may vary depending on the structure of the composite window 10 . For example, when the glass handrail 310 is installed as in the embodiment shown in FIGS. 2 to 4, the upper surface of the cover body 156 may be spaced apart from the glass handrail 310, in which case the rail insulation ( 154) can serve as a cover. In addition, for example, when the fixed window 350 is installed as in the embodiment shown in FIG. 7, it may serve to cover the rail insulation 154 and at the same time support the fixed window 350 from the bottom.

The indoor window pane 250 may be provided on the window frame profile 110 so as to be liftable and slidable. The window frame profile 110 may include a bottom surface 113, which is a surface facing the window pane, and an indoor rail 111 protruding from the bottom surface 113 and provided to slidably support the indoor window pane 250. there is. The indoor rail 111 is formed at a position corresponding to the rail groove of the indoor window 250 to support the roller. The indoor side rail 111 may protrude from the window frame profile 110 .

Here, the indoor window 250 is made of a lift sliding window structure, so that when a handle is turned to open the window, the indoor window 250 is lifted a certain distance from the indoor rail 111 and is quiet. In a closed state, the indoor window pane 250 and the indoor rail 111 are in close contact with each other so that airtightness, heat insulation, sound insulation, and watertightness can be secured. However, due to the structural characteristics of the lift sliding window, the indoor window 250 and the bottom surface 113 of the window frame profile 110 are separated from each other in a closed state, which may cause a problem in that adhesion is reduced.

Accordingly, the window frame portion 100 provided in the present invention may further include a rail closing cap 170. The rail closing cap 170 is provided to cover the bottom surface 113 and may be made of a metal material. In addition, the rail closing cap 170 may be fitted to the indoor rail 111 so as to be in close contact with the indoor window pane 250 and the floor surface 113 .

For example, the cross-sectional shape perpendicular to the longitudinal direction of the rail cap 170 may be formed in a U shape open toward the bottom. The window frame profile 110 may further include a water barrier 112 provided on the indoor side of the indoor rail 111 and an intermediate rail 114 provided on the outdoor side of the indoor rail 111. The rail closing cap 170 is provided between the indoor rails 111, between the indoor rails 111 and the water barrier 112, and between the indoor rails 111 and the middle rail 114, so that the indoor window panes ( 250) and the bottom surface 113. A coupling protrusion 171 may be formed on a side surface of the rail closing cap 170 so that it is caught on the indoor rail 111, the intermediate rail 114, and the water barrier 112 to be fitted.

The rail closing cap 170 may provide airtightness between the indoor window 250 driven by the lift sliding method and the bottom surface 113 . In addition, since the rail closing cap 170 is made of a metal material, exposure of the window frame profile 110 made of synthetic resin can be minimized.

In this way, the window frame portion 100 is a portion exposed to the outside, the outer window frame cap 131, the second rail body 153, the cover body 156, the outdoor window 210, and the rail finishing cap ( 170) is made of a metal material (for example, aluminum material), and the same material is continuously provided, so that the exterior design of the window or door can be improved.

Meanwhile, the indoor window pane 250 may include a first window pane profile 251 and a second window pane profile 253 .

The first window pane profile 251 may include a synthetic resin material and may be disposed on an outer portion of the indoor window pane 250 . For example, the first window profile 251 may be made of PVC material. A reinforcing material made of steel may be inserted into the first window profile 251 .

The second windowpane profile 253 is fitted to the surface of the first windowpane profile 251 facing the indoor side, forms a rail groove together with the first windowpane profile 251, includes a hollow part, and includes a metal material. can For example, the second window profile 253 may be made of aluminum.

That is, the indoor window 250 may be made of a composite material in which a profile made of synthetic resin and a profile made of metal are combined. At this time, since the second window profile 253 made of a metal material is disposed indoors, continuity of material with the inner window frame cap 135 can be realized. Accordingly, the design of the composite window 10 may be improved.

The first windowpane profile 251 may be formed in a profile shape including a hollow (h), and the second windowpane profile 253 may be formed in a profile shape including a hollow (h) corresponding thereto. The first window profile 251 and the second window profile 253 may form a rail groove together. In addition, the second windowpane profile 253 may include a plurality of coupling protrusions 254 and may have a structure capable of being coupled with the first windowpane profile 251 in multiple ways.

In addition, the second window profile 253 may include a horizontal second window profile 253 extending horizontally and a vertical second window profile 253 vertically connected to an end of the horizontal second window profile 253. there is. Ends of the vertical second window profile 253 and the horizontal second window profile 253 may be coupled to each other. Here, the same reference numerals are used for the horizontal second window profile 253 and the vertical second window profile 253.

In addition, the second creative profile may further include a coupling member (not shown) and a fastening groove (s).

The coupling member may be provided to couple the second horizontal window profile 253 and the vertical second window profile 253 to each other. For example, the coupling member may be provided as a screw member, but is not limited thereto.

The fastening groove s may be formed in the second horizontal window profile 253 and the second vertical window profile 253 so that the coupling member is screwed together. For example, the fastening groove (s) may be formed in the hollow (h) of the second horizontal window profile 253 and the second vertical window profile 253, but is not limited thereto.

Accordingly, the second window profile 253 can be coupled to the first window profile 251 in multiples, so that the fastening force of the first and second window profile 253 can be improved. In addition, by coupling the horizontal second window profile 253 and the vertical second window profile 253 to each other through the coupling member and the fastening groove s, lifting or cracking at the corner of the second window profile 253 is prevented. can be minimized.

In addition, by providing the second window profile 253, which is a portion exposed when viewed from the inside, made of a metal material, the continuity of the material together with the inner window frame cap 135 can be achieved to improve the design of the window.

Meanwhile, referring to FIG. 8 , the indoor window pane 250 may further include a first insulator 260 and a first windbreak frame 270 .

The first insulator 260 is vertically installed at the portion (fastening band) where the pair of indoor window panes 250 overlap each other in a closed state, and the first window pane profile 251 and the second It is provided to be coupled to the window profile 253 and may include a heat insulating material. For example, the first heat insulator 260 may be made of a polyamide material, but is not limited thereto and various heat insulating materials may be applied.

More specifically, the first insulator 260 may include an insulator 263 and a coupling portion 261 .

The insulator 263 may be interposed between the pair of indoor window panes 250 in a closed state. The insulation part 263 may be formed in a shape including a hollow (h). Heat transfer between the pair of indoor window panes 250 may be blocked by the insulator 263 . A locking groove 264 may be formed in the heat insulation part 263 so that the protrusion of the first windbreak frame 270 is inserted and fitted.

The coupling portion 261 extends perpendicularly to the heat insulating portion 263 and includes coupling protrusions 262 hooked to the first window pane profile 251 and the second window pane profile 253, and the first windbreak frame 270 ) can be covered by

The first windbreak frame 270 is provided to cover the first insulator 260 and extends vertically, one side of the first insulator 260 and the other side of the first window pane profile 251 or the second window pane profile 253 It is fitted into and may contain a metal material. For example, the first windbreak frame 270 may be made of aluminum.

Specifically, the first windbreak frame 270 is simultaneously coupled to the first insulating material 260 and the window sash profile and is provided to cover the first insulating material 260 and the first window sill profile 251, so when viewed from the indoor side , Continuity of the second window profile 253 and the material can be implemented. As a result, the design of the window can be improved.

Meanwhile, referring to FIG. 9 , outdoor window panes 210 may be provided as a pair. Also, the outdoor window 210 positioned at the outermost side of the outdoor windows 210 may include an outside window profile 211, a reinforcing member 213, and an insulation cover member 214.

A hollow part may be formed inside the outer window profile 211. Here, the outer window profile 211 may be made of a metal material, and may be made of aluminum, for example.

The reinforcing member 213 may be made of a steel material inserted into the inner hollow of the outer window profile 211 . The reinforcing member 213 may serve to reinforce the rigidity of the outer window profile 211 . However, since the reinforcing member 213 is made of steel, the temperature of the outside air can be transferred to the inside. To solve this problem, the present invention may include a heat insulating cover member 214.

The insulation cover member 214 may be interposed between the inner surface of the outer window profile 211 and the outer surface of the reinforcing member 213. The heat insulation cover member 214 may cover at least a portion of the outer surface of the reinforcing member 213, for example, to cover a portion of the side surface and the interior side of the reinforcing member 213, as in the illustrated embodiment. can be provided.

In the present invention, heat conduction can be minimized even when the reinforcing member 213 made of steel is inserted into the outer window profile 211 by the heat insulation cover member 214. Accordingly, it is possible to improve the thermal insulation performance of the windows and doors, and at the same time, the wind pressure performance can be improved by the reinforcing member 213 made of steel.

In addition, each of the pair of outdoor window panes 210 may further include a second heat insulating material 220 and a second windproof frame 230 .

The second insulator 220 is vertically installed at the part where the pair of outdoor windows 210 overlap each other in a closed state, and is provided to be coupled to the outer window profile 211, and is made of a heat insulating material. can include For example, the second heat insulator 220 may be made of a polyamide material, but is not limited thereto, and various heat insulating materials may be applied.

The second windbreak frame 230 is provided to cover the second insulator 220, extends vertically, is fitted to the second insulator 220 and the outer window profile 211, and may include a metal material. For example, the second windbreak frame 230 may be made of aluminum.

Specifically, the second windbreak frame 230 may be simultaneously coupled to the second insulator 220 and the outer window profile 211 and cover the second insulator 220 . As a result, when viewed from the outdoor side, continuity between the outer window profile 211 and the material can be realized, and accordingly, the design of the window can be improved.

When the composite window according to the embodiment of the present invention is used, the window frame closing cap has a structure capable of being coupled to the window frame profile in multiple ways, so that the fastening force is improved, thereby minimizing the lifting or separation of the window frame finishing cap.

In addition, according to an embodiment of the present invention, by coupling the vertical window frame cap and the horizontal window frame cap of the window frame finishing cap to each other through the fastening member and the fastening groove, it is possible to minimize the occurrence of gaps at the corners of the window frame finishing cap, and to improve machining workability. can improve

In addition, according to the present invention, design can be improved by realizing a finishing structure in which the same material continues on the indoor and outdoor sides.

Although the specific embodiments of the present invention have been described above, the spirit and scope of the present invention are not limited to these specific embodiments, and are described in the claims by those skilled in the art to which the present invention belongs. Various modifications and variations are possible without changing the gist of the present invention.

10: composite window 100: window frame
110: window frame profile 111: indoor side rail
112: water barrier 113: bottom surface
130: window frame closing cap 130a: horizontal window frame cap
130b: vertical window frame cap 131: outer window frame cap
132: coupling protrusion 133: insect screen rail
134: auxiliary rail 135: inner window frame cap
136: coupling protrusion 140: fastening member
150 rail assembly 151: first rail body
152: outdoor rail 153: second rail body
154: rail insulation 154a: assembly protrusion
154b: coupling protrusion 155: rail insulation cover
156: cover body 170: rail closing cap
200: window part 210: outdoor window part
211: outer window profile 213: reinforcing member
214: insulation cover member 220: second insulation
230: second windbreak frame 250: indoor window
251: first window profile 253: second window profile
254: coupling protrusion 260: first insulator
261: coupling part 262: coupling protrusion
263: heat insulation part 264: locking groove
270: first windbreak frame 310: glass handrail
350: fixed window 400: insect screen
s: fastening groove h: hollow

Claims (8)

It includes a window frame portion and a window portion including at least one pair of window panes installed to be slidably opened and closed on the window frame portion,
the window frame
A window frame profile containing a synthetic resin material;
A window frame finishing cap fitted to the outer surface of the window frame profile, formed with a hollow, and including a horizontal window frame cap and a vertical window frame cap made of metal; and
A rail assembly coupled to the upper surface of the window frame profile to support the outdoor window pane included in the window pane and having a rail insulation material made of a heat insulating material;
The horizontal window frame cap and the vertical window frame cap have fastening grooves formed so that fastening members fastening the horizontal window frame cap and the vertical window frame cap to each other are fastened. According to claim 1,
The fastening member is provided as a fastening screw fastened to the horizontal window frame cap and the vertical window frame cap by screwing,
The fastening groove is formed in the hollow provided in the window frame closing cap. According to claim 1,
The window sill finish cap
an outer window frame cap provided to cover an outer surface of the window frame profile facing the outdoor side; and
A composite window comprising: an inner window frame cap provided to cover an inner surface of the window frame profile toward the inside of the room. According to claim 3,
The window unit further includes an indoor window unit installed on the window frame and disposed inside the outdoor window unit,
The rail assembly is
a first rail body including an outdoor rail supporting the outdoor window and made of a metal;
a second rail body provided to be spaced apart from the first rail body in an outward direction, in contact with the outer window frame cap, and made of a metal material;
The rail insulation material fitted between the first rail body and the second rail body, made of a heat insulating material, and fitted to the window frame profile; and
A composite window comprising: a cover body fitted to an upper portion of the second rail body, provided to cover the second rail body and the rail insulation material, and made of a metal material. According to claim 4,
The window frame part is provided to cover the bottom surface of the window frame profile, is made of a metal material, and further includes a rail closing cap fitted to the indoor rail so as to be in close contact with the indoor window pane and the floor surface. According to claim 4,
The interior window sash
A first window profile comprising a synthetic resin material; and
A second window profile that is fitted to the surface of the first window profile facing the indoor side, forms a rail groove together with the first window profile, has a hollow part, and is made of a metal material,
The second windowpane profile includes a horizontal second windowpane profile, a vertical second windowpane profile vertically connected to an end of the horizontal second windowpane profile, and a coupling member to be screwed together with the horizontal second windowpane profile and the vertical second windowpane profile. A composite window including a fastening groove formed in a window profile. According to claim 6,
The indoor window panes are slidably installed on the window frame profile and provided as a pair,
The indoor side window,
a first insulator that is vertically installed at a portion where the pair of indoor window panes overlap each other when the pair of indoor window panes are closed, is coupled to the first window pane profile and the second window pane profile, and includes a heat insulating material; and
A first windbreak frame provided to cover the first insulator, extending vertically, having one side coupled to the first insulator and having the other side fitted into the first window profile or the second window profile, and including a metal material; A composite window containing more. According to claim 7,
The first insulator is
an insulator interposed in a space between the pair of indoor windows in a closed state; and
A coupling portion provided perpendicularly to the heat insulation portion, including coupling protrusions hooked to the first windowpane profile and the second windowpane profile, and covered by the first windbreak frame;
The outdoor window sash located on the outermost side of the pair of outdoor window sash lamps includes an outer sash profile, a reinforcing member made of metal inserted into the inner hollow of the outer sash profile, and an inner surface of the outer sash profile. A composite window comprising a heat insulating cover member interposed between outer surfaces of reinforcing members.

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