KR101552731B1 - Discharging apparatus by outside air pressing and windows using same - Google Patents

Abstract

The present invention relates to a water drainage structure of a window, and more particularly, to a water drainage space formed in a window frame frame so as to be communicated with each other, while forming a pressure hole into which external air can flow, The present invention relates to a drainage structure of an external air pressure type which can drain water stored in a drain hole through a drain hole and maintain drainage performance smoothly even in an extreme environment.

Backing Compressor, Fresh Water Space, Drain Hole,

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a drainage structure of an external air pressure type,

The present invention relates to a water drainage structure of a window, and more particularly, to a water drainage space formed in a window frame frame so as to be communicated with each other, while forming a pressure hole into which external air can flow, The present invention relates to a drainage structure of an external air pressure type which can drain water stored in a drain hole through a drain hole and maintain drainage performance smoothly even in an extreme environment.

Generally, a drainage structure of a window has a so-called stepped drainage structure in which a fresh water space is formed between a rail and a rail so that external rainwater is temporarily stored in the fresh water space in a rainy day and then discharged to outside through the outdoor side rail when the stored water level rises. .

In order to smooth drainage by the stepped drainage structure, the height of the indoor side rail must be higher than the height of the outdoor side rail.

In order to achieve this, an additional profile is provided on the upper side of the indoor side rails so that the height of the indoor side rails is higher than the height of the outdoor side rails as described above.

However, in the case of such a conventional drainage structure, an additional profile must be installed, which complicates the work process, requires additional parts, and increases the manufacturing cost.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a drainage structure that prevents rainwater stored in a fresh water space from being quickly discharged outside through a drain hole by external air, .

In order to accomplish the above object, the present invention provides a window frame frame including a plurality of rails to which a window frame contacts and a fresh water space formed between the rails, wherein fresh water spaces formed in the upper, And a plurality of drain holes communicating with the fresh water space are formed on an outdoor side surface of the upper and lower sill frame, respectively, in the left sill frame or the right sill frame, It is characterized by the drainage structure of the external air pressure system formed.

At this time, both ends of the upper and lower and left and right window frame frames are formed to have an inclination of 45 degrees, and then they are brought into mutual contact so that the fresh water spaces are communicated with each other.

The lower back window frame frame is formed at a position lower than the highest point of the rails of the lower window frame frame and a lower back ischamber formed at the lower side of the area where the window frames contact with each other in the left or right window frame frame, And an upper iso-force hole formed at a position higher than the highest point of the rails of the lower window frame frame.

According to the present invention as described above, it is possible to maintain the drainage performance without installing additional profiles, thereby reducing manufacturing costs.

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

1 is a conceptual diagram showing a window frame BF and a window frame SF of the present invention as a general shutter window.

Fig. 2 and Fig. 3 are sectional views taken along the line A-A and B-B in Fig.

4 is a cross-sectional perspective view of the lower left corner of FIG.

Example

The drainage structure of the present invention is a sash frame BF including a plurality of rails R with which a sash frame SF contacts and a fresh water space S formed between the rails R, BF are formed so that the fresh water spaces S of the upper and lower and left and right window frame frames 110, 130, 120 and 140 are communicated with each other.

2 shows a fresh water space S of the lower window frame 130 and a fresh water space S of the right window frame 140 in FIG. And as a result, the fresh water spaces S of the upper and lower and left and right window frame frames 110, 130, 120 and 140 are all formed to communicate with each other.

To this end, the upper and lower and left and right window frame frames 110, 130, 120, and 140 may be formed to have the same cross section and then be in mutual contact with each other so that the fresh water space S may be formed to communicate with each other.

On the other hand, an equal pressure hole (V) is formed on the upper and lower portions of the area of the left sill frame 120 and the right sill frame 140, 120)

The entire pressure of the fresh water space S communicated with the pressure equalizing hole V becomes equal due to the formation of the pressure equalizing hole V and exposure to atmospheric pressure.

A plurality of drain holes (H) communicating with the fresh water space (S) are formed on the outdoor side surfaces of the upper window frame (110) and the lower window frame (130).

With this configuration, the rainwater stored in the fresh water space S flows in through the iso-compass V and the rainwater stored in the fresh water space S is pressurized by the inflow air, And is rapidly discharged to the outside through the hole (H).

On the other hand, the back pressure V may include an upper back pressure V1 and a lower back pressure V2.

The lower shoulder bolt V2 is formed on the lower side of the area where the window frame SF contacts the left window frame 120 or the right window frame 140. The rail R1 of the lower window frame 130 ) At a position lower than the highest point of the light-emitting layer.

The upper shoulder bolt V1 is formed on the upper side of the lower pressurizing hole V2 and is formed at a position higher than the highest point of the rail R1 of the lower window frame 130. [

This is because when the lower backpressure V2 is formed at a lower position than the rail R1 of the lower frame 130, the rainwater stored in the freshwater space S is discharged through the lower backpressure V2, Side rail R2 to the inside of the room, which will be described later.

Further, if the upper iso-pressurized hole V1 is formed at a position higher than the highest point of the rail R1, the inflow of air from the outside is easy.

The process of discharging rainwater by the drainage structure of the present invention will be described with reference to FIGS. 1 to 4. FIG.

First, the rainwater is stored in the fresh water space S of the lower window frame 130 in the rain.

At this time, the stored rainwater is discharged to the outside through a drain hole (H) formed in the window frame (BF).

Although the drain hole H is formed on the left side of the lower window frame 130 in the present embodiment, the drain hole H may be formed anywhere on the lower window frame 130 , It is apparent that the present invention is not limited by the present embodiment in this respect.

If the amount of precipitation is large, the amount of rainwater flowing into the drain hole H is greater than the amount of rainwater discharged through the drain hole H, so that the level of the rainwater stored in the fresh water space S increases.

At this time, when the level of the rainwater approaches the lower iso-pressurized hole V2, the rainwater flows into the left window frame 120 through the lower iso-pressurized hole V2 in the present embodiment.

Since the fresh water space (not shown) of the left window frame 120 communicates with the fresh water space S of the lower window frame 130, the rainwater flowing through the lower isthlet And is discharged to the outside through the drain hole H. [0052]

On the other hand, when the outside air is introduced through the upper iso-compression hole (V1), the inflow air presses the rainwater stored in the fresh water space (S), whereby the rainwater stored in the fresh water space (S) ). ≪ / RTI >

In other words, even when the amount of precipitation is large, the rainwater can be quickly discharged by the present invention.

On the other hand, both end portions of the four window frame frames 110, 120, 130 and 140 are formed to have an inclination of 45 degrees and are brought into mutual contact so that the fresh water space S can communicate with each other.

It is also possible to provide a reinforcing member RE mounted in the fresh water space S and having the same shape as the shape of the fresh water space S.

At this time, it is also possible that the reinforcing member RE has heat insulation performance.

The drainage structure of the present invention described above can also be applied to a door-window structure.

It is widely known that the window is formed of two pairs, three pairs or four pairs, which can be stacked on one side when opened and closed, and one pair of windows is pushed next to another pair.

That is, the window frame frame BF of the present invention as described above can be applied to the door frame window to improve the drainage performance.

On the other hand, in the present embodiment, as shown in Figs. 1 to 4, a dual pane structure, which is one kind of window glass windows, is illustrated.

That is, the rail R is formed on the indoor side and the outdoor side, respectively, so that a fresh water space S is formed therebetween.

It should be understood, however, that the present invention is not limited to the twin window but may be applied to the triple window as well as the twin window, and the present invention is not limited thereto.

Meanwhile, in this embodiment, the fresh water space S has a square cross-sectional shape with an open top.

However, the fresh water space S is intended to store rainwater. As long as the fresh water space S has a different shape, it is of course within the scope of the present invention as far as this object is achieved.

FIG. 1 is a conceptual diagram showing a window frame frame BF and a window frame SF in a general shutter window.

Fig. 2 and Fig. 3 are sectional views taken along the line A-A and B-B in Fig.

4 is a cross-sectional perspective view of the lower left corner of FIG.

Description of the Related Art

BF: window frame frame 110: upper window frame frame

120: left window frame 130: right window frame

140: Lower window frame SF: Thick frame

S: Fresh water space H: Drain hole

R: Rail

Claims (5)

A window frame frame comprising a plurality of rails in contact with a window frame and a fresh water space formed between the rails, And a fresh water space formed respectively in the upper and lower and left and right window frame frames are formed to communicate with each other, And an upper portion of the left window frame frame or a right window frame frame, And a plurality of drain holes communicating with the fresh water space are formed on an outdoor side surface of the upper and lower window frame frames. The method according to claim 1, Wherein both ends of the upper and lower and left and right window frame frames are formed to have an inclination of 45 degrees and are brought into mutual contact so that the fresh water spaces are communicated with each other. The method according to claim 1, And a reinforcing member mounted on the fresh water space. The method according to claim 1, Wherein the back pressure siphon is formed at a lower side of an area where the window frame contacts with the left or right window frame frame and is formed at a position lower than the highest point of the rail of the lower window frame frame, And an upper iso-compression hole formed on an upper side of the lower iso-compression hole and formed at a position higher than a rail maximum point of the lower window frame frame. A door opening window using a volleyball structure according to any one of claims 1 to 4.

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