KR101649923B1 - Insulation and airtight performance and drainage performance superior double watertight windows - Google Patents

Abstract

The present invention relates to a double watertight structured window with excellent insulation, airtight and drainage performance, and more specifically, to a double watertight structured window with excellent insulation, airtight and drainage performance, to install quadruple mohair in a window frame to enhance the insulation, airtight and soundproof performance. To improve insulation and airtight performance, a finishing piece is installed in an upper and a lower part of a side of a window frame. To discharge water flowing into the inside of the window frame from the outside of the window frame, a groove is formed in each compartment of the window frame. Since a window rim is completely closed and attached to the window frame, a locking device provides excellent anti-thief performance and the window rim is easily separated from the window frame.

Description

{Insulation and airtight performance and drainage performance superior double watertight windows with excellent insulation and airtightness and drainage performance}

The present invention relates to a double-water-tight structure window having excellent heat insulation, airtightness and drainage performance, and more particularly, to a quartz mohair which is provided on a window frame to provide excellent heat insulation and airtightness and soundproofing performance, A door is provided for each compartment of the window frame for discharging the water flowing into the window frame from the outside of the window frame to the window frame, And a double-water-tight structure window which is excellent in heat insulation and air-tightness performance and drainage performance, which is composed of a locking device provided to easily separate a window from a window frame.

Generally, a window is made of an inner side and an outer side, and a window provided with a glass on the window frame is coupled and slid opened and closed.

In the case of a general window, a clearance is formed to smoothly open and close the window of the window installed in the window frame, and as the clearance is generated, the heat insulating property and the airtightness are deteriorated.

In order to increase the airtightness, mohair is provided at the upper and lower portions where the window frame and the window cover are in contact with each other to increase the airtightness, thereby preventing foreign substances such as dust from entering into the room. However, noise and inflow water are accumulated .

In addition, although drainage grooves for draining water flowing into the window frame are formed to smooth drainage, air is introduced into the interior through the grooves, thereby lowering the efficiency of heating in winter, and causing insects to flow into the room in summer .

In addition, in the case of a window installed in the past, a locking device is used to increase the crime prevention performance, and the window is closed so that the door is automatically locked.

However, in the case of the conventional locking device, the locking device is broken due to the opening and closing of the door many times and the security performance can not be utilized properly. In case of the child, the elderly person and the woman, the locking device can not be easily released and the window can not be opened.

<References>

Application No. 20-2007-0011596 Confidentiality of Window

Application No. 10-2015-0079306 A window-type teblock with an auto-balancing function

In order to solve the above-mentioned problems, the present invention is characterized in that a gas-tight support is provided on the central bottom surface of the window frame and the upper surface corresponding to the bottom surface of the window frame, And the airtight support member of the above-mentioned "shape " is provided to provide mohair on one side surface of the window frame to provide excellent heat insulation and airtightness.

It is also intended that the compartment is formed in the window frame to support the outdoor side and the indoor side window, and to improve the heat insulation, airtightness and watertightness.

In addition, a finishing piece is provided on the upper and lower sides of the window, and a predetermined gap is formed so as not to generate friction with the window frame bottom when sliding the window, and the mohair is provided on the finishing piece side, So as to further improve airtight performance.

In addition, a groove is formed in each compartment located at the lower end of the window frame, and a compartment at the center of the window frame is formed obliquely so as to facilitate the discharge of water, so that water flowing into the window from outside the window frame can be easily discharged to the outside.

Another object of the present invention is to provide a locking device provided with a window frame that is fully closed by being fully closed so that the window pane is excellent in crime prevention performance and is easily detachable from a window frame.

According to an aspect of the present invention, there is provided a window (10) having heat insulation and airtightness and watertightness, the window (100) having a ceiling surface between an outdoor side and an indoor side window (110) A support base 120; A mohair 130 provided on both sides of the window 110 to closely adhere the lower portion and the upper portion so as to perform heat insulation, air tightness and watertight functions; (130) comprises a sponge-like mohair (140) for maximizing heat insulation and airtightness; A membrane-type mohair 150 for bending a side of the sponge-like mohair 140 to maximize water-tight performance; And a control unit.

In addition, a mohair groove 121 is further formed so that the mohair 130 is inserted into both sides of the airtight support 120. The mohair 130 is inserted into the mohair groove 121, 110 so as to perform heat insulation, air tightness and watertight functions.

The upper surface of the window pane 100 may be provided with an airtight closure member formed on the lower side and the upper side of the window 110 to prevent gaps formed on the ceiling surface and the bottom surface of the window frame 100 when the window 110 is coupled to the window frame 100. [ (200); A sliding mohair 210 formed on the lower and inner / outer sides of the airtight finishing piece 200 to prevent the window frame 100 from being damaged by friction during sliding; And further comprising:

Further, a compartment 300 is formed in which the window 110 is coupled to the window frame 100; The compartment 300 includes a first compartment 310, a second compartment 311, a third compartment 312, a fourth compartment 313, a fifth compartment 314, a sixth compartment 314, And the window 110 is coupled to the window frame 100 to form four grooves between the second compartment 311 and the sixth compartment 315 and the mohair is inserted into the four grooves 100, And the indoor side window 110 is coupled to the outdoor side window 110 and the fifth room 314 in the third compartment 312 and the outdoor side window 110 and the indoor side window 110 are connected to each other. A second compartment 311, a sixth compartment 315, which are formed inside the window 110 to improve adiabatic and airtight and watertight functions; Further comprising:

In addition, a drainage groove formed in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313, and the fifth compartment 314 so as to smoothly drain water 340; A first inclined surface 350 formed to drain water from the third compartment 312 toward the second compartment 311; A second inclined surface 360 formed below the first inclined surface 350 to smooth water drained into the window frame 100; A third inclined surface 370 formed so that water flowing into the bottom surface of the fourth compartment 313 flows toward the second inclined surface 360; Further comprising:

The third compartment drain 312 is formed to discharge the water flowing into the third compartment 312 through the third compartment 312 into the fourth compartment 313 and discharged to the second inclined surface 360 -One); And further comprising:

A locking device 400 formed in the frame 110 so as to be locked in the window frame 100 when the window 110 is opened and closed; A binding pin 410 formed at one side of the locking device 400; A binding ring 420 formed to catch the binding pin 410 on the window frame 100; And further comprising:

A handle 430 is formed on one side of the window 110 on which the locking device 400 is located and a window 400 is provided on one side of the window 400 when the window 110 is opened / A detachable member 440 that is driven to easily push the pressing member 110; And further comprising:

The auxiliary frame 160 is formed on the inner side of the window frame 100 so that the width of the frame 20 is equal to the width of the window frame 100. The window 10 to which the window 110 is fixed without being opened and closed is formed of a finishing material 170 formed on the window pane 100 of the fixed window 110 so as not to deteriorate heat insulation and airtightness and soundproofing performance. And further comprising:

According to the present invention, the window frame has a central bottom surface with windows on both sides, a hermetic supporter on the upper surface corresponding to the bottom surface, mohair on the outer surface of each compartment of the window frame on which the window is slid, So that the heat insulation between the window frame and the window pane and the air tightness are improved.

In addition, when the sliding window of the window frame is provided with the upper portion and the lower portion of the window, mohair is provided to prevent the gap between the bottom surface of the window frame and the ceiling surface, thereby improving the heat insulating performance and airtightness .

Further, the groove is formed in each compartment located at the lower end of the window frame, and the compartment at the center of the window frame is formed obliquely, so that the water can be easily discharged.

In addition, the locking device tightly closes the window on the window frame, thereby providing an excellent crime prevention effect, and provides an effect that the window can be easily separated from the window frame by the user.

FIG. 1 is a front view of a window for a double-water-tight structure window excellent in heat insulation, air tightness performance and drainage performance of the present invention.
2 is a side cross-sectional view of a double-water-tight structure window excellent in insulation, airtightness and drainage performance of the present invention.
3 is a plan sectional view of a double-water-tight structure window excellent in heat insulation and air tightness performance and drainage performance of the present invention.
4 is an airtight finishing perspective view of a double-water-tight structure window excellent in heat insulation, airtightness performance and drainage performance of the present invention.
FIG. 5 is a drainage flow chart for a double-water-tight structure window excellent in heat insulation, air tightness performance and drainage performance of the present invention.
FIG. 6 is a state view of a locking device for a double-water-tight structure window excellent in heat insulation, air tightness performance and drainage performance of the present invention.
FIG. 7 is an overall sectional view of a double-water-tight structure window excellent in heat insulation and air tightness performance and drainage performance of the present invention.
8 is a cross-sectional view of another embodiment of a double-water-tight structure window having excellent insulation, airtightness and drainage performance of the present invention.

Hereinafter, preferred embodiments will be described with reference to the accompanying drawings.

FIG. 1 is a front view of the window of the present invention, FIG. 2 is a sectional view of the window of FIG. 1, and FIG. 3 is a sectional view of FIG. 1. 5 is a flow chart of a drain groove formed in a window frame, FIG. 6 is a state diagram of the locking device of the present invention, FIG. 7 is a sectional view of FIG. 1, and FIG. 8 is a view showing another embodiment of Fig.

As shown in FIGS. 1 to 3 and 7, the present invention is characterized in that the window 110 is slid around the window frame 100 in a window 10 in which insulation, airtightness and watertightness are achieved.

A hermetic support 120 formed integrally with the window frame 100 to provide excellent heat insulation and airtightness and soundproofing performance between the outdoor side of the window 10 and the indoor side window 110;

A mohair 130 formed on an inner side surface of the window frame 100 to which the window 110 is coupled and a window 110 side of the airtight support 120; / RTI &gt;

The mohair 130 may include a sponge-type mohair 140 for maximizing heat insulation performance and airtight performance;

And a plurality of curved portions formed on the underside of the sponge-like mohair 140 to maximize watertightness.

A mohair groove 121 is further formed to allow the mohair 130 to be inserted into both sides of the airtight support 120,

And the mohair 130 is inserted into the mohair groove 121 to closely adhere to each other when sliding the room side and the outdoor side window 110 to provide heat insulation, airtightness, and watertightness.

4, the airtight finishing piece 200 is provided on the side of the window 110 to prevent the inflow of wind or water into the gap generated on the sliding surface of the window 110 and the window frame 100, Are combined with each other.

In order to prevent damage due to friction when sliding the window frame 100 on the lower, outer side and inner side of the airtight finishing piece 200 and to maximize the heat insulation and airtightness by preventing the generated gap, the sliding mohair 210 ) Is formed.

As shown in FIG. 5, the compartment 300 is formed such that the window 110 is coupled to the window frame 100 of the present invention.

The compartment 300 includes a first compartment 310, a second compartment 311, a third compartment 312, a fourth compartment 313, a fifth compartment 314, a sixth compartment 314, (315)

The window 110 is coupled to the window frame 100 to form four grooves between the second compartment 311 and the sixth compartment 315 to form a quadruple,

The indoor side window 110 is coupled to the outdoor side window 110 and the fifth room 314 in the third compartment 312 and the indoor side window 110 is connected to the outside of the outdoor side window 110 and the inside of the indoor side window 110 A second compartment 311, a sixth compartment 315, which are formed to improve the adiabatic, airtight, and watertight functions; Further comprising:

In addition, a drainage groove (not shown) formed in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313, and the fifth compartment 314, 340;

A first inclined surface 350 formed on the side of the third compartment 312 so as to smoothly drain water toward the second compartment 311;

A second inclined surface 360 formed below the first inclined surface 350 to facilitate drainage of water flowing into the window frame 100;

A third inclined surface formed so that water flowing into the bottom surface of the fourth compartment 313 flows toward the second inclined surface side; Further comprising:

In addition, a drainage groove formed in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313, and the fifth compartment 314,

A double drainage structure is formed to smoothly drain the water flowing into the window frame 100 by the first inclined surface 350, the second inclined surface 360 and the third inclined surface 370.

The water flowing into the drain groove 340 formed in the second compartment 311 and the third compartment 312 is not introduced into the fourth compartment 313 but flows into the second inclined surface 360 The third compartment drain line 312-1 is further included in the third compartment drain line 312-1.

As shown in FIG. 6, in general, the window 10 is used not only to prevent indoor ventilation, wind pressure, rainfall, inflow of insects, etc., but also has many functions for crime prevention.

The window 10 of the present invention has a crime prevention function using the locking device 400 and provides a user with a convenient use of the locking device 400.

A locking device 400 formed in the frame 110 to lock the window frame 100 when the window frame 110 is opened and closed according to the present invention;

A binding pin 410 formed at one side of the locking device 400;

A binding ring 420 formed to catch the binding pin 410 on the window frame 100; And further comprising:

Further, a handle 430 is formed on one side of the window 110 where the locking device 400 is located,

A detachable member 440 driven to one side of the locking device 400 so that the window 110 can be easily pushed around the window frame 100 when the window 110 is opened and closed; And further comprising:

As shown in FIG. 8, the present invention includes a sub-frame 160 formed at one side of the window frame 100 so that the width of the frame 20 is equal to the width of the window frame 100;

The window 10 to which the window 110 is fixed without being opened and closed is formed of a finishing material 170 formed on the window pane 100 of the fixed window 110 so as not to deteriorate heat insulation and airtightness and soundproofing performance. And further comprising:

Hereinafter, an important configuration will be described in detail with reference to the drawings.

As shown in FIGS. 2 to 3 and 7, the airtight support base 120 is formed to be coincident with the window frame, and the gap generated between the indoor side and the outdoor side window 110 is blocked, And the efficiency of the sound insulation performance is improved.

As shown in FIGS. 2 to 3, the mohair 130 is a gap formed between the window 110 and the window frame 100 to prevent wind, insects, water, fine dust, etc. from entering the room.

The mohair 130 includes a sponge-like mohair 140 and a water-film-like mohair 150. The sponge-like mohair 140 and the water-film-like mohair 150 may be selectively installed in accordance with the field construction, (130) are used at the same time.

As shown in FIG. 2 (B), a plurality of embossing protrusions are formed on the surface of the spongy-shaped mohair 140 to prevent the inflow of water. So that the watertightness performance is improved.

In addition, the water-film-like mohair 150 is made of an elastic material and is closely contacted to prevent water from entering due to a part of the embossing projections being pressed.

Generally, the mohair which is generally used is formed of a thin plastic material such as a hair, so that the water flowing on the mohair easily flows into the window frame, and the air gap formed in the mohair is contaminated due to fine dust or the like.

Accordingly, in order to compensate for this, the sponge-like mohair 140 and the membrane-type mohair 150 are integrated and applied to the present invention.

The mohair 130 is formed in the mohair groove 121. One side of the mohair 130 of the mohair 130 is inserted into the mohair groove 121 and the other side is formed of a spongy mohair 140 Is formed.

The water-film-like mohair 150 and the sponge-like mohair 140 are attached and combined by a double extrusion method and are integrally manufactured.

The sponge-like mohair 140 and the sponge-like mohair 140 are integrally formed and inserted into the mohair groove 121 in order to prevent the gap between the mohair and the hair, And the sponge-like mohair 140 is brought into close contact with the window 110, thereby maximizing the effects of air tightness and water tightness.

When the mohair 130 is inserted into the mohair groove 121 so that the mohair 130 is closely attached to the window 110, the mohair 150 may be shaped to maintain its shape, Shaped mohair 140 formed on one side of the mold-shaped mohair 150 is compressed.

The sponge-like mohair 140 is formed between the water-film-like mohair 150 and the window 110. When the window 130 is in close contact with the window 110, the sponge-like mohair 140 is partially pressed to increase the adhesion.

The sponge-like mohair 140 is made of a foamed plastic material, and is preferably made of a foamed plastic material such as PVC (polyvinyl chloride), PE (polyvethylene), or EPDM (Ethylene Propylene Diene Monomer).

Particularly, the EPDM is a synthetic rubber material made of ethylene, propylene and diene, and is used for waterproofing and waterproofing.

The mohair 130 integrated with the sponge-like mohair 140 and the moat-shaped mohair 150 is inserted into the mohair groove 121 formed in the airtight support 120. The mohair 130 inserted into the moat- And the sponge-like mohair 140 is partially brought into close contact with the window 110 by being pushed toward the airtight support 140 in close contact with the window 110, so that the airtight and watertight effect is excellent.

The sponge-like mohair 140 is formed of a foamed plastic material and has a weak fixation force due to soft material which does not act as a support when inserted directly into the mohair groove 121.

In order to compensate for this, a male mold-like mohair 150, which is a soft rubber material, is inserted into the mohair groove 121 to support the mohair 130, And a spongy-shaped mohair 140 are integrally formed to form a composite functional mohair 130.

In addition, the sponge-like mohair 140 and the water-film-like mohair 150 are manufactured by a double extrusion method at the time of manufacturing, and there is no inconvenience that the sponge-like mohair 140 is attached after the water-film-type mohair 150 is installed.

4, the window 110 is coupled to the window frame 100, and insects, wind, water, and dust are introduced into the gaps generated between the window frame 100 and the window 110 .

In order to compensate for this, an airtight finishing piece 200 is formed on one side surface of the window frame 100 in the same shape as the side surface of the window 110, and between the airtight closing piece 200 and the window frame 100 A sliding mohair 210 is formed to prevent friction and gaps.

Reference is made to Fig. 2 to which the airtight finishing piece 200 shown in Fig. 4 is applied.

A gap A is generated between the lower end of the window 110 and the bottom surface of the window frame 100 and the insect and wind are introduced through the window 110. In order to prevent this, The airtight finishing piece 200 is provided on the window frame 100 and the sliding mohair 210 is provided on the lower end of the airtight finishing piece 200 to prevent the window frame 100 from being damaged And can prevent the inflow of wind or insects.

At this time, the airtight finishing piece 200 is formed in the form of a compartment of the window frame 100 and a bottom surface.

As shown in FIGS. 2 and 5, the existing window frame 100 is formed only of the window 110 coupling compartment so that the window 110 is coupled to the window 110, thus failing to provide excellent insulation, airtightness, and watertightness.

In order to solve the above problems, the present invention is characterized in that the compartment 300 is formed on both sides to support the center 110 and the window 110 to which the window 110 is coupled and to improve the heat insulation, airtightness and watertightness.

Accordingly, the first compartment 310, the third compartment 312, and the fifth compartment 314, which are formed so that the window 110 is coupled and slid, are formed from the outdoor side to support the windowpane 110, A second compartment 311 and a sixth compartment 315 are formed at one side of the window 110 to enhance the heat insulation and airtightness and the watertight function and a hermetic support 311 and a sixth compartment 315 are formed between the indoor side window 110 and the outdoor side window 110 120 are formed between the compartment 110 and the compartment 300. The compartment 300 is opposed to the window 110 and the hermetic support 120 is provided with a moiré 130.

Air tightness and watertightness performance and prevention of inflow of worms as the mohair 130 is formed in a quadruple state.

As shown in FIG. 6, in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313, and the fifth compartment 314, Drainage grooves 340 are formed so as to be drained to the outside without being introduced.

The drain groove (340) is formed in a stepped shape when the window frame (100) is cut in a cross section, so that water is rapidly discharged.

The drain groove 340 is formed to penetrate the first compartment 310 and pass through the upper and lower portions of the second compartment 311 and the upper and lower portions of the third compartment 312 pass through.

The lower part of the hermetic supporter 120 penetrates through the fourth compartment 313 to drain the water to the third compartment 312 and the fifth compartment 314 The drainage grooves 340 are formed.

In addition, the second inclined plane 360 is formed to extend in the third compartment 312, and the third compartment drain line 312-1 is formed in the third compartment 312 so that the water is discharged to the outside And is automatically discharged to the pressure.

As shown in FIG. 6, the first inclined surface 350 and the second inclined surface 360 are formed so that water is discharged quickly and no residual water is present as the water is discharged to the outside through the drain groove 340.

The first inclined surface 350 is formed between the second compartment 311 and the third compartment 312 and is formed to prevent the inflow water from easily passing through the third compartment 312.

The second inclined surface 360 is formed so as to prevent water from flowing into the fourth compartment 313 and the fifth compartment 314 when water flows into the third compartment 312 through the first inclined surface 350. [ And a third compartment drain line 312-1 is formed in the third compartment 312 to prevent water from flowing into the fourth compartment 313,

It is possible to prevent the inflow of the primary water from the first inclined surface 350 and prevent the inflow of the secondary water from the second inclined surface 360 and to prevent the inflow of the tertiary water from the third compartment drain line 312-1 do.

Further, in order to rapidly drain the water to the outside when the water flows into the fifth compartment 314 due to a large inflow amount of water, the bottom surface of the fourth compartment 313 is steeply inclined so as to be moved to the second inclined surface 360, (370) are formed.

The water is drained to the outside by the compartments in the stepped shape by the drain grooves 340 and the second compartments 311 and the third compartments 312 The first inclined face 350, the second inclined face 360 and the third inclined face 370 formed between the third compartment 312 and the fourth compartment 313 between the third compartment 312 and the fourth compartment 313, .

As shown in FIG. 7, in the case of the locking device 400, the locking device 400 is widely used in automobile doors or doors used as a slide type. However, It is possible to open and close the existing window 10 more easily by adding an additional function to open and close the window 10.

And the handle 430 connected to the binding ring 420 is also actuated at the same time as the window 110 is slid closed by the user.

Therefore, when the window 110 is closed, the locking device 400 is automatically operated simultaneously with the handle 430. When the window 110 is slid open, the binding ring 420 is coupled The window 110 is opened and closed by being detached from the pin 410.

The user may have difficulty in opening and closing the window 110 through the locking device 400. The large window 10 may be opened or closed by a user as well as a female depending on the size of the window 10. [ There is a problem that a large force is required to be applied.

Accordingly, the locking device 400 of the present invention is configured such that when the coupling ring 420 is released from the binding pin 410, the detachable member 440 provided above the binding ring 420 is operated So that the user can hold the handle 430 and open the window 110 by opening the window 110 with a small force without applying a large force.

The detachable member 440 is connected to a resilient spring or a handle 430, so that the detachable member 440 is always operated simultaneously with the operation of the handle 430.

7 is a cross-sectional view of the window 10 according to the present invention. As shown in the figure, the AA portion of the window 10 is shown in cross section, and the airtight finishing piece 200 is divided into an upper portion and a lower portion The mohair 130 provided on the airtight support 120 is shown only as one side. However, as shown in FIG. 3, the mohair 130 is installed on both sides between the indoor side and the outdoor side window 110 .

8A shows another embodiment of the present invention. In FIG. 8A, when the window 10 is embedded in the frame 20, the width of the frame 20 and the width of the window 100 do not match, There is a possibility that a fine gap is formed between the frame 20 and the window frame 100, so that the wind may flow into the window frame 100.

Accordingly, the auxiliary frame 160 is installed inside the frame 20, which is generated on the indoor side, on the indoor side surface of the window frame 100, So that the widths of the frame 20 and the window frame 100 are not generated but are made uniform.

The window frame 100 is manufactured in accordance with the standard and the auxiliary frame 160 corresponding to the width of the width of the window frame 100 according to the width of the frame 20 is manufactured .

In the figure, (B) shows a window 110 in which an upper part of a window 10 is fixed, and a window 110 in which a lower part is slid, The upper window 110 is fixed and the window 110 is provided on one side of the window frame 100. In order to prevent the thermal insulation and the airtightness and the soundproofing performance from being deteriorated by the gaps of the window frame 100, (170) is inserted.

The finishing material 170 is made of a material selected from the group consisting of a rubber material and a metal material.

8 shows a cross section of the window 10 in the C-C direction. The window 110 is composed of two window frames 110 on the indoor side and the outdoor side.

The window (10) of the present invention provides

To maintain the watertightness at 35, the wind pressure to withstand at least 360 degrees, and the insulation performance

And sound insulation performance is aimed at more than 28db.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: window 20: frame
100: Window frame 110:
120: airtight support 121: mohair home
130: mohair 140: sponge-like mohair
150: male mold mohair 160: auxiliary mold
170: Finishing material
200: confidential finishing piece 210: sliding mohair
300: compartment 310: first compartment
311: second compartment 312: third compartment
312-1: Third compartment drain 313: Fourth compartment
314: fifth compartment 315: sixth compartment
340: drain groove 350: first inclined surface
360: second inclined surface 370: third inclined surface
400: Locking device 410: Coupling pin
420: coupling ring 430: handle
440: Desorption member

Claims (10)

In a window (10) in which insulation, airtightness and watertightness are achieved,
A hermetic supporter 120 integrally formed on the bottom surface of the window frame 100 between the outdoor side and the indoor side window 110;
A mohair (130) inserted into the mohair groove (121) so that the lower portion and the upper portion are in close contact with each other on both sides of the window 110 to provide heat insulation and airtight and watertight functions; / RTI &gt;
The mohair 130 includes a sponge-like mohair 140 and a water-film-like mohair 150, which are manufactured to be integrated with each other by a double extrusion method,
A plurality of embossing protrusions, which are made of soft rubber, are formed on one side of the membrane module mohair 150 to maximize watertightness performance.
The sponge-like mohair 140 is formed of a foamed plastic material having elasticity and is formed on an opposite surface of the embossing protrusions to maximize heat insulation performance and airtightness performance,
When the mohair 130 is in close contact with the window 110, the mohair 150 maintains its shape and the sponge-like mohair 140 is compressed toward the moiré 150 to increase adhesion, Waterproof structure having excellent heat insulation and airtightness performance and drainage performance.
The method according to claim 1,
A mohair groove 121 is further formed to allow the mohair 130 to be inserted into both sides of the airtight support 120,
Wherein the mohair (130) is inserted into the mohair groove (121) to closely contact the indoor side and the outdoor side window (110) when sliding, so that the thermal insulation and the airtightness and the watertightness function are performed. This excellent double-water-tight structure window.
The method according to claim 1,
Upon joining the window 110 to the window frame 100,
A hermetic closing piece 200 formed below and above the side surface of the window 110 to prevent a gap formed on a ceiling surface and a bottom surface of the window frame 100;
A sliding mohair 210 formed on the lower and inner / outer sides of the airtight finishing piece 200 to prevent the window frame 100 from being damaged by friction during sliding; Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.
The method according to claim 1,
Further comprising a compartment (300) formed in the window frame (100) such that the window pane (110) is coupled,
The compartment 300 includes a first compartment 310, a second compartment 311, a third compartment 312, a fourth compartment 313, a fifth compartment 314, a sixth compartment 314, (315)
A window 110 is coupled to the window frame 100 to form four grooves between the second compartment 311 and the sixth compartment 315 so that the mohair 130 is inserted into the groove, Respectively,
The indoor side window 110 is coupled to the outdoor side window 110 and the fifth room 314 in the third compartment 312 and the indoor side window 110 is connected to the outside of the outdoor side window 110 and the inside of the indoor side window 110 And a second compartment (311) and a sixth compartment (315) for enhancing heat insulation, airtightness and watertightness are formed.
5. The method of claim 4,
A drainage groove 340 is formed in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313 and the fifth compartment 314 so as to drain water smoothly. and;
A first inclined surface 350 formed to drain water from the third compartment 312 toward the second compartment 311;
A second inclined surface 360 formed below the first inclined surface 350 to smooth water drained into the window frame 100;
A third inclined surface 370 formed so that water flowing into the bottom surface of the fourth compartment 313 flows toward the second inclined surface 360; Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.
6. The method of claim 5,
A drain groove 340 formed in the first compartment 310, the second compartment 311, the third compartment 312, the fourth compartment 313 and the fifth compartment 314,
Wherein a double drainage structure is formed to smoothly drain the water flowing into the window frame (100) by the first inclined surface (350), the second inclined surface (360), and the third inclined surface (370) Double-water-tight window with excellent performance and drainage performance.
5. The method of claim 4,
A third compartment drain line 312-1 formed to discharge water flowing into the third compartment 312 through the third compartment 312 to the second inclined surface 360 without flowing into the fourth compartment 313, ); Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.
The method according to claim 1,
A locking device 400 formed in the frame 110 so as to be locked in the window frame 100 when the window 110 is opened and closed;
A binding pin 410 formed at one side of the locking device 400;
A binding ring 420 formed to catch the binding pin 410 on the window frame 100; Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.
9. The method of claim 8,
A handle 430 is formed on one side of the window 110 where the locking device 400 is located,
A detachable member 440 driven to one side of the locking device 400 so that the window 110 can be easily pushed around the window frame 100 when the window 110 is opened and closed; Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.
The method according to claim 1,
An auxiliary frame 160 formed on an inner side of the window frame 100 so that a width of the frame 20 is equal to a width of the window frame 100;
The window 10 to which the window 110 is not opened or closed is formed of a finishing material 170 formed to prevent airtightness and soundproofing performance from being deteriorated in the indoor window frame 100 of the fixed window 110; Wherein the double-water-tight structure window is excellent in heat insulation and air-tightness performance and drainage performance.

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