KR20170016166A - System window with excellent head insulation and excellent condensation prevention - Google Patents

Abstract

Provided is a system window which includes one more temperature-buffering zones for gradually reducing the temperature difference between a room and the outside by forming one more air layers in a multi-paned glass window. Since the system window is configured so that the temperature difference may be reduced in two stages through the multi-paned glass panels and the air layer, the system window is capable of improving insulation effects as well as preventing condensation caused by a sharp temperature difference Especially, since one more panes of glass are provided at a side of the multi-paned windows to form an air layer, it is possible to reduce additional components and to make the structure simple. As a result, manufacturing and maintenance costs may be reduced and the insulation and condensation prevention effects may be improved. In addition, a through-hole is formed in a weather strip used for closely attaching the glass to a window frame, and indoor air communicates with the air layer through the through-hole. Therefore, the condensation occurs in the air layer or within the pair glasses rather than on the room side even if the condensation occurs due to an increase in temperature of the air layer, which is the temperature-buffering zone, so the condensation prevention effects may be further improved.

Description

{SYSTEM WINDOW WITH EXCELLENT HEAD INSULATION AND EXCELLENT CONDENSATION PREVENTION}

More particularly, the present invention relates to a system window, and more particularly, to a system for adding a glass so that an air layer can be formed at a predetermined interval from an existing pair glass, through which air flows through the pair glass, So that it is possible to prevent the condensation caused by the large temperature difference by preventing the temperature difference between the indoor and outdoor steps which are stepwise different from each other.

Unilaterally, windows are divided into general windows and system windows. The general window means a single window or a window made in the shape of a double window, which is constructed in an apartment or a house. The system window has various functions such as a lift function, a tilting function or a paralle function in addition to the functions of the basic window. It is a window with excellent airtightness and insulation. In such a system window, as in Patent Documents 1 to 3, various techniques have been developed to obtain or improve various functions.

Patent Document 1 discloses a window-type portable air-tightness device for a window and a window system having the window-side air-tight air-tightness device. The window-side portable air-tightness device for a window provided between a window and a windowpane is composed of a hermetic portion formed on one side of a rail- And a pressing portion which is engaged with one side face of the rail so as to correspond to the contact portion and horizontally pressurizes the windowpane when brought into contact with the contact portion to closely contact the airtight portion with the other side face of the rail. . Therefore, when the window is closed, the window provided with the airtight portion is pressed in the horizontal direction by the pressing portion provided on the window frame, so that the pressing portion is horizontally contacted with the window only when the window is closed, The insulation efficiency and the sound insulation efficiency of the windshield.

The window system of Patent Document 2 includes a window frame; An inner window installed on the indoor side in the window frame; An outer window fixed to the window frame and spaced apart from the inner window by a predetermined distance to form a hollow layer with the inner window; A circulation hole formed between the outer window and the window frame to form a flow path for circulating air in the hollow chamber; And an opening / closing device provided at one side of the inner side window to open / close the inner side window from the window frame, wherein the outer side window is made of glass having high absorption rate, tinted glass or glass capable of adjusting the transmittance And a bracket for fixing the window frame to the window frame.

In Patent Document 3, after an area heating element is attached to an outer surface or an inner surface of a window frame frame to a sufficient size, power is applied to the surface heating element to raise the ambient temperature of the window frame frame beyond the dew point, Or the condensation phenomenon occurring on the outer side can be continuously prevented through the heat of the surface heating element, thereby maximizing the heat insulation performance of the window system and also significantly improving the user convenience of the window system.

However, existing system windows have the following problems.

(1) It is usually used for the purpose of rigidity, heat insulation and prevention of condensation of windows by using pair glasses. Existing system windows can have some effect on insulation and prevention of condensation, but they have limitations in obtaining such effects.

(2) In other words, the pair glass is filled with air or other fluids between two glasses to place a buffer zone, thereby reducing the temperature difference between both (indoor and outdoor) with respect to the pair glass so as to prevent heat insulation and condensation .

(3) However, existing pair glasses were limited in their use due to the possibility of insulation and condensation prevention only for the difference in the indoor and outdoor temperatures depending on the thickness of the glass and the thickness and the width of the buffer zone.

(4) If the indoor / outdoor temperature difference is large or the room temperature is set too high or low depending on the season, the temperature difference between the outdoor and the outside becomes large, and the condensation phenomenon becomes serious.

Korean Registered Patent No. 1425934 (Registered on July 28, 2014) Korean Registered Patent No. 1518835 (Registered on May 5, 2015) Korean Registered Patent No. 1523474 (Registered on May 5, 2015)

The present invention takes this point into consideration and further includes an air buffer layer on one side of the pair glass so that a temperature buffer zone for reducing the temperature difference between the indoor and the outdoor is formed in a stepwise manner, The object of the present invention is to provide a system window which can prevent a condensation phenomenon caused by a sudden temperature difference as well as increase a heat insulation effect.

Particularly, the present invention is configured so that a glass is further formed on one side of the pair of glasses to form an air layer, so that it is possible to minimize the additional structure while reducing the manufacturing cost and the maintenance cost, Another purpose is to provide a system window that can further enhance the effect.

Further, according to the present invention, a through hole is formed in a weather strip used for closely adhering a glass to a window frame, and the indoor air is communicated with the air layer through the through hole, so that the internal temperature of the air layer, It is possible to minimize the occurrence of condensation on the indoor side by causing it to occur in the air layer or the inside of the pair of glasses, thereby further improving the dew condensation preventing effect.

In order to achieve the above object, the present invention provides a system window having excellent heat insulation and dew condensation prevention, comprising: a window frame (100) having a closed curve; A pair of glasses (200) installed in the window frame (100) in such a manner that one edge portion is closely contacted; And a glass 300 installed in the window frame 100 in close contact with the other edge of the window frame 100 and spaced apart from the pair of glasses 200 by a predetermined distance to form an air layer 310 therebetween And the air chamber 310 communicates with a surface of the window frame 100 where the glass frame 300 and the window frame 300 are in contact with each other.

Particularly, a weather strip 110 is interposed between the window frame 100 and the glass 300, and the glass 300 is installed over the spacers 320 provided at the predetermined intervals in the window frame 100 And a plurality of through holes 111 are formed in the weather strip 110 at predetermined intervals so that outside air is communicated with the air layer 310 through the gap between the window frame 100 and the glass 300.

Lastly, the window frame 100 is fixed to the lower part of the lower part of the pair of glass 200 and the glass 300, where moisture is generated from both sides of the pair glass 200 and the glass 300, And a water collecting passage 120 capable of discharging water are formed over the entire length.

The system window excellent in heat insulation and prevention of condensation according to the present invention has the following effects.

(1) An air layer is formed separately from the pair glass so that the temperature difference between the inside and outside of the room is controlled step by step through the pair glass itself and the air layer so that the condensation phenomenon on the glass surface can be reduced.

(2) In particular, according to the present invention, by adding a glass to a system window formed of only existing pair glasses, a simple structure is formed to constitute an air layer, thereby reducing the dew condensation phenomenon as compared with existing window systems, .

(3) In addition, it is possible to reduce the manufacturing cost and the maintenance cost by minimizing the additional construction, while improving the heat insulation effect while eliminating the condensation phenomenon.

(4) On the other hand, according to the present invention, since the air layer is configured to communicate with the room, the temperature difference between the room temperature and the air layer is reduced to cause a large temperature difference between the outside and the air layer, And can be prevented from being formed on the indoor side.

(5) Condensation or the like formed on the glass surface constituting the air layer can be collected and discharged to the outside by forming a collecting channel in a window frame constituting the air layer, thereby preventing propagation of bacteria or rotting of water droplets caused by condensation A pleasant indoor environment can be created.

1 is a front view for showing a system window according to the present invention;
FIG. 2 is a perspective view of an assembled system window according to the present invention, taken along line AA in FIG. 1; FIG.
FIG. 3 is a perspective view explaining the configuration of FIG. 2 to show the overall configuration of a system window according to the present invention; FIG.
FIG. 4 is a cross-sectional view taken along the line AA in FIG. 1 to show a state of joining system windows according to the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should properly define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and scope of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Thus, various equivalents And variations may be present.

(Configuration)

A system window having excellent heat insulation and prevention of condensation according to the present invention includes a window frame 100, a pair glass 200 mounted on the window frame 100, and a glass 300 ).

Particularly, the glass 300 is installed to face the pair glass 200, and at this time, the glass layer 300 is mounted on the window frame 100 so that an air layer 310 is formed therebetween. Thereby reducing the temperature difference and reducing the temperature difference between the air layer 310 and the air layer 310. As a result, the condensation phenomenon caused by the temperature difference can be reduced and the insulation effect can be enhanced. will be.

Hereinafter, this configuration will be described in more detail.

The window frame 100 is generally formed in a closed curve shape to support the pair glass 200 and the glass 300 to be described later, as shown in Figs. At this time, the window frame 100 includes a frame made of a general lattice-shaped technique using a material such as synthetic resin, aluminum alloy, and metal. In addition, the window frame 100 may be formed in a polygonal shape as well as in a lattice shape.

At this time, the window frame 100 is formed in the shape of a groove having a width so that the pair glass 200 and the glass 300 to be described later can be easily accommodated and fixed as shown in FIGS. 1 to 4 . Of course, when the pair glass 200 and the glass 300 are mounted using an unillustrated fixture or the like instead of the fitting method, the flat glass 200 and the glass 300 can be manufactured in various shapes such as a plane other than the recessed groove.

In a preferred embodiment of the present invention, the window frame 100 has a window frame 100 on one side of the window frame 100, preferably on the side where the glass 300 is mounted, as shown in FIGS. 1 to 4 It is preferable to further configure the strip 110 and mount the glass 300 on the window frame 100 using the weather strip 110. [ Here, the weather strip 110 may be manufactured using a conventional technique such as sponge or rubber, which is used in the technical field of the present invention in which rain, rainwater, water, dust, etc. are mounted between a glass and a window frame .

In addition, in the preferred embodiment of the present invention, the weather strip 110 is provided on the edge portion of the window frame 100, which is in contact with each other between the window frame 100 and the window 300, as shown in Figs. 1 to 4 Since it is installed in the longitudinal direction, it is made long. At this time, it is preferable that the weather strip 110 is formed with a plurality of through holes 111 at a predetermined interval in the width direction so that air can flow in and out between the window frame 100 and the glass 300 . At this time, the air flowing in and out is configured to communicate with the air layer 310, which will be described later, and its connection and operation will be described later.

As shown in FIGS. 1 to 4, the window frame 100 is provided with a pair of water collectors 120 (see FIG. 1) over a whole length of a pair of pairs of the pair glasses 200 and the glass 300, ). Moisture and moisture are generated on both sides of the pair glass 200 and the glass 300 by the water collecting channel 120. As the moisture and moisture are gravitationally received and flow down, As shown in Fig. Although not shown in the drawing, it is preferable that a drain hole is formed in the water collecting passage 120 so that water collected outside the window frame 100 can be drained by using a drill or the like. In the drawing, an example in which the water collecting passage 120 is formed on the lower surface of the air layer 310 is shown.

The pair glass 200 is formed by injecting a fluid such as air or nitrogen between two glasses and sealing them as shown in [Figure 2] to [Figure 4], so that the air flow and the heat flow between these two glasses So that the temperature difference is not generated. Thus, it is possible to use the one manufactured by a conventional technique which can obtain the condensation and the heat insulation effect at a time.

Such a pair of glasses 200 is mounted so that the rims of the pair of glasses 200 can be stably held in contact with the inside of one frame of the window frame 100 as shown in Figs. 2 to 4. At this time, it is preferable that outside glass, dust, rainwater, etc. are mounted on the portion of the pair glass 200 that contacts the window frame 100 through the window frame 100 by using silicone or the like. Such silicon and the technique of applying the silicone to the window frame and mounting the silicon is generally used in the art to which the present invention is applied for the purpose of airtightness and sealing.

When the edge of the pair of glasses 200 is inserted into the window frame 100 as described above, the pair of spacers 210 are attached to the bottom of the window frame 100 at predetermined intervals as shown in the drawing And then mounted on it.

As the glass 300, as shown in [FIG. 1] to [FIG. 4], a glass 300 manufactured by a common technique used in the technical field of the present invention is used. At this time, the edge of the glass 300 is mounted on the window frame 100 so as to face the pair of glasses 200 described above.

Particularly, the glass 300 forms an air layer 310 with a predetermined gap between the glass 300 and the pair glass 200. The air layer 310 serves as a buffer zone for reducing the air temperature difference between the pair of glasses 200 and the glass 300.

That is, the pair glass 200 functions to adjust the temperature difference between the outdoor temperature and the air layer 310 so that the temperature difference between the outdoor temperature and the air layer 310 does not become large, And serves to buffer the temperature difference so as not to spread too much. Therefore, even if the temperature difference between the indoor and the outdoor is large, the temperature rises or falls sequentially through the two temperature buffer zones, so that the condensation phenomenon that occurs due to the sudden temperature difference between the indoor and the outdoor can be prevented. The air layer 310 serves as a blocking wall, and a heat insulating effect can be expected.

As shown in Figs. 2 to 4, the glass 300 thus constructed is fitted with the rim portion sandwiched between the window frame 100 described above. At this time, the above-described weather strip 110 is mounted between the glass 300 and the window frame 100 for the purpose of airtightness or the like. At this time, the weather strip 110 flows into the air layer 310 through the through hole 111 formed in the weather strip 110, by the external air (indoor air) of the window frame 100 as shown in FIG. It is preferable to configure it. This prevents the condensation phenomenon on the surface of the glass 300 by minimizing the temperature of the room 300 and the temperature of the air 310 as much as possible or minimizing the temperature difference and prevents the condensation phenomenon from occurring between the glass 300 and the pair of glasses 200 It is preferable to make it possible to minimize the occurrence of water droplets or the like on the indoor side.

In addition, the glass 300 may be configured such that the lower edge portion of the glass frame 100, which is mounted on the lower portion of the window frame 100, spans a plurality of spacers 320 at predetermined intervals as shown in FIGS. 2 to 4 , It is preferable that the air in the air layer 310 is configured to flow through the gap between the spacers 320 so that the air that escapes through the through holes 111 to the room side or vice versa flows.

According to the present invention as described above, a temperature buffering effect that prevents a sudden change in temperature of the indoor / outdoor air is obtained through the construction of the pair of glasses, and the indoor / outdoor air does not suddenly change in temperature again through the air layer. It is possible not only to prevent the condensation phenomenon caused by the difference but also to increase the adiabatic effect.

100: window frame
110: Weather Strip
111: Through hole
120: Collecting road
200: Fair glass
300: Glass
310: air layer

Claims (3)

A window frame 100 in the form of a closed curve; A pair of glasses (200) installed in the window frame (100) in such a manner that one edge portion is closely contacted; And a glass 300 installed in the window frame 100 in close contact with the other edge of the window frame 100 and spaced apart from the pair of glasses 200 by a predetermined distance to form an air layer 310 therebetween ,
Wherein the window frame (100) and the glass (300) are communicated with the air layer (310).
The method according to claim 1,
A weather strip 110 is interposed between the window frame 100 and the glass 300,
The glass 300 is installed over the spacers 320 provided in the window frame 100 at predetermined intervals,
Wherein a plurality of through holes (111) are formed in the weather strip (110) at predetermined intervals so that outside air is communicated with the air layer (310) through the space between the window frame (100) and the glass (300) System window with excellent condensation prevention.
The method according to claim 1,
The window frame (100)
In the lower part where the lower edge of the pair glass 200 and the glass 300 is accommodated,
Wherein a water collecting passage (120) capable of discharging moisture and moisture generated on both sides of the pair glass (200) and the glass (300) is formed over the entire length.

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