KR101436609B1 - Window system - Google Patents

Abstract

The present invention relates to a window system. The window system includes a sash frame; a unit window frame which is arranged on a rail arranged on the sash frame to slide on the rail to be opened or closed; an outer sash which is arranged on the outside of the unit window frame and is made of a steel material; and an inner sash which is arranged in the inner side of the unit window frame and is made of a thermal insulation material.

Description

Window system {WINDOW SYSTEM}

The present invention relates to a window system, and more particularly, to a window system capable of preventing heat loss by improving the structure of a window frame and forming an inner chassis from a heat insulating material such as synthetic resin and an outer chassis from a steel material such as aluminum .

Generally, a window means a window or a door to be installed in an opening of a window or an entrance to block the inside of the building from the outside.

These windows have ventilation, ventilation or mining, and also have two opposing functions to shut the window in and out by closing the window.

As a result, the window must function to introduce external light into the room, to adequately ventilate the room air, and to maintain the insulation and soundproofness in the closed state.

An example of such a window is described in Patent Registration No. 10-789439 (name: Multifunctional Aluminum Window System). The window system prevents rainwater or water for cleaning from being introduced into the room to improve watertightness; Particularly, the outer rail formed on the window frame is formed of a rail having a low height to improve watertightness, airtightness and workability, and a window that is stacked on the outer rail of the window frame and opened and closed to the left and right, The construction of a rigid window system; The window frame and the window pane are firmly supported even in the high wind pressure state where the wind is strong, and the wind pressure resistance is enhanced; When the temperature of the outside air such as the winter season is low, condensation leakage phenomenon caused by the temperature difference between the room air and the outside air is prevented.

However, such a conventional window system has a stepped structure in which the outer rails of the window frames are formed at a lower height than the inner rails to prevent wind or rainwater from entering outside.

Therefore, the cost for manufacturing the stepped window frame increases, and the standard of the window pane coupled to the stepped window frame must be matched. Therefore, the manufacturing cost of the window pane also increases, and even when the window pane is coupled to the window frame, If it takes a long time and is misjudged, it is troublesome to rejoin after dismantling.

However, in such a conventional window system, since the window frame is made of aluminum, the strength is secured, but the heat loss is increased.

The windshield plate is disposed at a predetermined position, mainly an intermediate portion of the window frame frame, to block the gap between the window frame frame and the window frame. Since the windshield plate blocks only a part of the window frame frame but not the entire section, it prevents wind or foreign matter There is no problem.

When the window frame is coupled to the window frame frame, there is a gap between the upper portion of the window frame and the rail of the window frame frame, so that the clearance can be detached and the airtightness may be deteriorated.

Patent registration 10-789439 (Name: Multifunctional aluminum window system)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a chimney frame in which a chassis made of a heat insulating material such as a synthetic resin is disposed, and a chassis made of a steel material such as aluminum, And to provide a window system capable of preventing loss.

Another object of the present invention is to improve the structure of the windshield plate provided at the lower portion of the window frame frame so that even if the lower surface of the window frame frame has a flat shape, wind or rainwater can be prevented from entering the room from the outside, The airtightness can be improved by effectively interposing a gap between the windowpane and the window frame, thereby providing a window system.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above problems,

A window frame frame;

And a window frame slidably disposed on the window disposed on the window frame frame and capable of being opened and closed,

Wherein the window frame is disposed on the outside and comprises an outer chassis made of a steel material; And

And an inner chassis disposed on the inner side and made of a heat insulating material.

As described above, the window system according to the present invention has the following advantages.

First, the outer chassis is formed of a steel material such as aluminum and the inner chassis is formed of a heat insulating material such as a synthetic resin, so that heat loss can be minimized.

Second, the windshield plate is protruded from the side surface of the lower chassis protruding from the upper portion of the window frame frame to extend in the front section. By arranging the lower chassis in multiple, even if the upper surface of the window frame frame is flat, Can be effectively blocked.

Third, the airtightness can be improved by mounting the airtight member on the upper portion of the window frame frame to block the space between the window frame and the window frame frame.

1 is a schematic view showing a window frame and a window frame of a window system according to the present invention.
FIG. 2 is a perspective view schematically showing the structure of the screen frame shown in FIG. 1. FIG.
Fig. 3 is an enlarged perspective view of the portion "A" shown in Fig. 2, in which the outer material of the window frame is made of a steel material such as aluminum and the inner material is a heat insulating material such as a synthetic resin.
FIG. 4 is a view showing a structure in which a windshield plate and a hermetic member are mounted on upper and lower portions of a window frame and a window frame shown in FIG. 1. FIG.
FIG. 5 is an enlarged view showing an enlarged structure of a windshield plate in a lower window frame frame shown in FIG. 2. FIG.
FIG. 6 is a perspective view showing a structure in which the inflow plate shown in FIG. 5 is disposed in the lower window frame frame.
FIG. 7 is a view showing a structure in which a hermetic member is disposed in the upper window frame frame shown in FIG. 2. FIG.
8 is an enlarged view showing an enlarged view of the hermetic member shown in Fig.
FIG. 9 is a view showing a two-stage window system as another embodiment of the window system shown in FIG. 1. FIG.

Hereinafter, a window system according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the window system proposed by the present invention includes a window frame 11; And a window frame 14 which is slidably disposed on a rail R disposed on the window frame 11 and which can be opened and closed and which is provided with a steel material on the outside and a heat insulating material on the inside.

In the window system having such a structure, the window frame 11 can be assembled in the empty space formed in the wall 29, thereby assembling the window frame 14. The window frame 11 includes a lower window frame 13; An upper window frame (12); And a connecting window frame 15 for connecting the upper and lower window frame frames 12 and 13.

The upper surface of the lower window frame 13 has a flat shape and the lower chassis 24 and 24a are protruded. A rail (r) is disposed on the upper surface of the lower chassis (24, 24a). The roller 26 of the window frame 14 is placed on the rail r.

Therefore, the window frame 14 can be moved forward and backward along the rail r to open and close the window.

In addition, the window frame 14 can constitute a window system by assembling a plurality of chassis 24.

As shown in FIGS. 2 and 3, the chassis 24 has a structure in which an outer chassis 27 made of a steel material is disposed outside and an inner chassis 25 made of a heat insulating material is disposed inside.

That is, the outer chassis 27 refers to various materials but preferably includes a steel material such as aluminum (Al). Therefore, the outer chassis 27 made of aluminum can maintain sufficient strength.

Further, the inner chassis 25 includes a synthetic resin having high heat insulation property. The inner chassis 25 may be formed of synthetic resin by a method such as injection molding.

Accordingly, the window frame 14 has a structure in which an inner chassis 25 such as a synthetic resin is inserted and assembled into an outer chassis 27 such as aluminum.

Alternatively, when a gap is generated between the inner side of the outer chassis 27 and the inner side chassis 25, the foamed resin may be injected into the gap and foamed to fill the gap to increase the heat insulating property.

As a result, by assemble the window frame 14 with the chassis 24 composed of the outer chassis 27 and the inner chassis 25, it is possible to maintain the strength and minimize heat loss.

On the other hand, a wind plate 16 is disposed between the lower front part of the window frame 11 to prevent wind or foreign matter from entering the room. A hermetic member 18 is disposed above the window frame 11 to block the gap with the window frame 14.

The sidewall plate 16 is provided in the lower window frame 13 to seal between the lower window frame 13 and the window frame 14 to prevent wind or foreign matter from entering the room.

As shown in Figs. 5 and 6, the sideways plate 16 includes a shield plate 20, 20a protruding laterally from the side surface of the lower chassis 24, 24a; And gaskets 22 disposed at the edges of the shield plates 20 and 20a to seal them.

More specifically, the shielding plates 20 and 20a are made of a rigid material and made of, for example, aluminum (Al). The shield plates 20 and 20a may be integrally formed on the side surfaces of the lower chassis 24 and 24a, or may be detachably connected.

The blocking plates 20 and 20a are preferably disposed over the entire section of the lower window frame 13.

The leading edges of the blocking plates 20 and 20a are arranged close to the wall 29 of the window frame 14 to block the gap.

Therefore, it is possible to prevent the outside wind from flowing into the room through the space between the lower window frame 13 and the window frame 14.

As a result, wind and foreign matter are primarily prevented by the blocking plates 20 and 20a, and then can be blocked by the gasket 22 in a secondary manner.

The gasket 22 is engaged with the upper surface of the rim of the wind plate 16 and contacts the lower portion of the wall 29 of the window frame 14 to block the gap.

The gasket 22 may be made of a material such as a resilient material such as rubber or synthetic resin. The gasket 22 is disposed at the edge of the shielding plates 20 and 20a and fixed by being inserted into the coupling groove 23 formed on the upper surface of the shielding plates 20 and 20a. At this time, the coupling groove 23 is formed over the entire upper surface of the shield plates 20 and 20a.

Therefore, the gasket 22 is fixed by being inserted into the coupling groove 23 of the shield plates 20 and 20a. The gasket 22 may be disposed over the whole area of the lower window frame 13 like the shield plates 20 and 20a.

The blocking plates 20 and 20a and the gaskets 22 are disposed over the entire section of the lower window frame 13 to block the gap between the lower window frame 13 and the window frame 14, The inflow of wind and the inflow of foreign matter can be minimized even when the upper surface of the windshield is a flat shape rather than a stepped shape.

Further, when a plurality of lower chassis 24 and 24a are arranged, a plurality of blocking plates 20 and 20a are arranged to block the inflow of wind or rainwater.

The outdoor side shield plate 20 protrudes outward with respect to the lower chassis 24 and the indoor side shield plate 20a protrudes toward the indoor side with respect to the lower chassis 24a in the blocking plates 20, do. The gaskets 22 and 22a are also composed of the outdoor side gasket 22 and the indoor side gasket 22a. Therefore, it is possible to shut off wind or foreign matter entering from the outdoor side and also to block wind or foreign matter flowing out from the indoor side.

The blocking plates 20 and 20a are disposed at a predetermined height h from the upper surface of the lower window frame 13 and are preferably in inverse proportion to the height h1 of the hermetic member 18 described later. That is, since the window frame 14 is disposed on the upper portion of the shielding plates 20 and 20a, the closer the barrier plates 20 and 20a are arranged than the upper surface of the lower window frame 13, The height h1 of the hermetic member 18 contacting the upper portion of the window frame 14 becomes small.

The height h of the blocking plates 20 and 20a is inversely proportional to the height h1 of the airtight member 18. [ The height h1 of the hermetic member 18 is determined according to the height h of the shielding plates 20 and 20a in designing the window system so that the height h1 at which the hermetic member 18 exhibits maximum airtightness, Can be easily predicted and reflected in the design.

7 and 8, a hermetic member 18 is disposed at a lower portion of the upper window frame 12 so that a gap between the lower portion of the upper window frame 12 and the upper portion of the window frame 14 (G).

In this hermetic member 18, the body 32 is made of a material having elasticity, for example, polyamide. The inside 34 has a rectangular cross-sectional shape in which an empty space is formed.

Therefore, when an external force is applied to the hermetic member 18, the shock is absorbed and buffered by the elasticity.

Although the hermetic member 18 has been described above as a rectangular cross-sectional shape, the present invention is not limited thereto, and may have various cross-sectional shapes such as a circular cross section or an elliptic cross section.

This airtightness member 18 is disposed on the bottom surface of the upper chassis 36 disposed at the lower portion of the upper window frame 12.

The lower portion of the airtight member 18 is brought close to the upper portion of the window frame 14, thereby minimizing the gap G between the window frame 14 and the window frame 14. [

Therefore, airtightness can be improved by sealing the gap G between the lower side of the upper chassis 36 of the upper window frame 12 and the upper portion of the window frame 14.

Since the space between the lower portion of the upper chassis 36 and the upper portion of the window frame 14 is filled with the hermetic member 18, the range of clearance of the window frame 14 can be minimized.

Therefore, the airtightness member 18 can minimize the clearance of the window frame 14, thereby preventing the window frame 14 from being separated from the window frame frame.

Meanwhile, as shown in FIG. 9, another embodiment of the present invention can be applied to a window system having upper and lower two stages.

That is, the window frame frames 40, 42, and 44 have a two-stage structure by being composed of the lower window frame frame 44, the upper window frame frame 42, and the intermediate window frame frame 40.

At this time, the middle window frame frame 40 has the same structure as the upper window frame frame 42 at the lower part, and has the same structure as the lower window frame frame 44 at the upper part.

Therefore, the lower window frame 46 is disposed between the lower window frame 44 and the intermediate window frame 40, and the front window can be moved forward and backward. Further, the upper window frame 48 is disposed between the intermediate window frame 40 and the upper window frame 42 so that the window frame can be moved forward and backward.

In the window system of such a two-stage structure, the wind plate 50 and the airtight member 52 are disposed at each end.

In other words, the landing plate 50 is disposed on the lower chassis 54 of the lower window frame 44 and on the lower chassis 54 protruding from the upper portion of the middle window frame 40. [

Therefore, it is possible to prevent the outdoor wind from flowing into the room through the lower window frame 46 and the upper window frame 48.

The airtight member 52 is disposed on the chassis 58 of the intermediate window frame 40 and is disposed on the upper chassis 60 of the upper window frame 42. [

Therefore, the gap between the lower window frame 46 and the intermediate window frame 40 can be sealed, and the gap between the upper window frame 48 and the intermediate window frame 40 can be sealed.

In the window system of the two-stage structure as described above, the inflow of wind can be effectively blocked and the airtightness can be maintained by applying the wind plate 50 and the hermetic member 52.

10: window system
11: window frame frame
14: Thick frame
16: windward plate
20, 20a:
22: Gasket
24, 24a: Lower chassis
25: outer chassis
26: Rollers
27: Inner chassis
36: upper chassis
40: Medium window frame frame
42: Upper window frame frame
44: Lower window frame frame

Claims (6)

delete A window frame frame;
A window frame slidably disposed on the window arranged on the window frame and opened and closed;
A windshield plate disposed at a lower front portion of the window frame for preventing wind or foreign matter from entering the room by blocking the window frame frame and the lower portion of the window frame; And
And a hermetic member disposed between the upper and lower surfaces of the window frame and blocking the upper portion of the window frame and the upper portion of the window frame,
Wherein the window frame is disposed on the outside and comprises an outer chassis made of a steel material; And
And an inner chassis disposed on the inner side and made of a heat insulating material,
Wherein the outer chassis is made of aluminum, the inner chassis is made of synthetic resin, the foaming resin is injected between the outer chassis and the inner chassis,
The airbag plate includes: a shield plate protruding laterally from a side surface of a lower chassis projecting from an upper surface of a lower window frame; A gasket disposed over the entire circumference of the blocking plate and having elasticity to elastically contact and seal the lower portion of the wall of the window frame,
Wherein the airtight member has elasticity, a hollow space is formed therein, a rectangular cross-sectional shape,
Wherein the height of the air inflow plate from the upper surface of the lower window frame frame and the height of the airtight member are inversely proportional to each other. delete 3. The method of claim 2,
Wherein the gasket is inserted and fixed in a coupling groove formed at an edge of the shield plate. delete delete

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