KR101156879B1 - Air Curtain - Google Patents

Abstract

The present invention relates to an air curtain, and more particularly, to an air curtain that can prevent heating heat emitted by a glass window or a balcony window, minimize disruption to skylight or vista, and be easy to install and remove. It is about.
Air curtain according to a preferred embodiment of the present invention for achieving the above object is an air curtain attached to the glass window to provide a heat insulating effect, the outer sealing line formed by sealing the outer synthetic resin film and the inner synthetic resin film up and down to seal the circumference And an air inlet for injecting air into the lower side of the outer sealing line, a bonding line closely contacting the outer synthetic resin film and the inner synthetic resin film at regular intervals into the outer sealing line so that the air curtain maintains a flat plate shape during air injection. An adhesive material is coated on the glass-bonded surface of the inner synthetic resin film.
The air curtain according to the present invention can prevent the heating heat emitted to the glass window or the porch window due to the thermal insulation performance, and because of the light transmittance of the synthetic resin film does not interfere with the light and vista, and also refracts the light inside the building It will not be seen from the outside as it will have the advantage of privacy, and can be easily installed and removed without damaging the building itself.

Description

Air Curtain {Air Curtain}

The present invention relates to an air curtain, and more particularly, to an air curtain that can prevent heating heat emitted by a glass window or a balcony window, minimize disruption to skylight or vista, and be easy to install and remove. It is about.

Insulation materials of existing buildings have been used for walls, ceilings, and floors, but in the case of windows and veranda windows, it is difficult to use insulation materials due to problems such as ventilation and light, so it is installed in the form of full glass or double glazing to reduce heat loss. Due to their limitations, fundamental difficulties arise in preventing heating loss. In recent years, the construction trend has focused on the skylighting and vista functions of the building, and the window structure made of glass is increasing, and the use area is also widened.

The present invention is to solve the above problems to reduce the heat loss emitted through the glass window or porch window of the building, to minimize the problems of light and view by using a light-transmissive material, and also easy to install and remove the heating Its purpose is to provide air curtains that can be installed only at the time of day and removed other than the heating time so that glass windows or porch windows can perform their original functions.

Air curtain according to a preferred embodiment of the present invention for achieving the above object is an air curtain attached to the glass window to provide a heat insulating effect, the outer sealing line formed by sealing the outer synthetic resin film and the inner synthetic resin film up and down to seal the circumference And an air inlet for injecting air into the lower side of the outer sealing line, a bonding line closely contacting the outer synthetic resin film and the inner synthetic resin film at regular intervals into the outer sealing line so that the air curtain maintains a flat plate shape during air injection. An adhesive material is coated on the glass-bonded surface of the inner synthetic resin film.

The air curtain according to the present invention can prevent the heating heat emitted to the glass window or the porch window due to the thermal insulation performance, and because of the light transmittance of the synthetic resin film does not interfere with the light and vista, and also refracts the light inside the building It will not be seen from the outside as it will have the advantage of privacy, and can be easily installed and removed without damaging the building itself.

1 is a plan view before the air injection of the air curtain according to the first embodiment of the present invention
Figure 2 is a cross-sectional view after the air injection of the air curtain according to the first embodiment of the present invention
Figure 3 is a perspective view of the window mounting process of the air curtain according to the first embodiment of the present invention
Figure 4 is a cross-sectional view (A-A ') after the glass window attached to the air curtain according to the first embodiment of the present invention
Figure 5 is a plan view before the air injection of the air curtain according to a second embodiment of the present invention
Figure 6 is a plan view before the air injection of the air curtain according to a third embodiment of the present invention
7 is a partially enlarged plan view before air injection of an air curtain according to a fourth embodiment of the present invention;
Figure 8 is a perspective view after the air injection of the air curtain according to the fifth embodiment of the present invention
Figure 9 is a cross-sectional view after the air injection (B-B ') of the air curtain according to the fifth embodiment of the present invention
10 is a cross-sectional view of the insulating effect gas injection process of the air curtain according to the sixth embodiment of the present invention
11 is a plan view of an air curtain according to a seventh embodiment of the present invention;
12 is a plan view after attaching the glass window of the air curtain according to the ninth embodiment of the present invention
Figure 13 is a cross-sectional view after attaching the glass window of the air curtain according to the ninth embodiment of the present invention (C-C ')

1, 2, 3 and 4 show a first embodiment of an air curtain according to the present invention.

As shown in Figure 1, the first embodiment of the air curtain according to the present invention is attached to the glass window (G1) to provide a heat insulation effect, the outer synthetic resin film 11 and the inner synthetic resin film 12 up and down An outer sealing line 13 formed by sealing the periphery of the furnace, an air inlet 14 for injecting air into the lower side of the outer sealing line 13, and the outer sealing so that the air curtain maintains a flat plate shape during air injection. A bonding material 15 is attached to the bonding line 15 closely contacting the outer synthetic resin film 11 and the inner synthetic resin film 12 at a predetermined interval inside the line 13 and the glass window G1 of the inner synthetic resin film 12. 16) is coated.

In the first embodiment of the present invention, the air curtain is inflated as shown in Figure 2 when the air is injected into the air inlet 14, wherein the plurality of the bonding line 15 is maintained in the shape of the air curtain flat Make it as shape as possible. At this time, the thickness of the air curtain can be determined according to the spacing of the bonding line 15, which may be appropriately determined in consideration of the size of the glass window G1, the depth of the glass frame G2, etc., but the thickness of 3 to 10 cm. Would be valid.

In the first embodiment of the present invention as shown in Figure 3, the air curtain is inflated by the injection of air, and then the inner synthetic resin film 12, each corner and the air curtain of the glass window (G1) to be in close contact with the glass window (G1) It shall be attached tightly between each corner of At this time, the adhesive material 16 applied to the inner synthetic resin film 12 prevents detachment by continuing adhesion even after the air curtain and the glass window G1 are in close contact with each other.

In the first embodiment of the present invention, the air curtain will be said to be suitable injection rate of 50 to 70% based on the maximum injection amount during air injection. When the air injection amount of the air curtain is injected at the maximum injection amount, the air curtain swells to the maximum, and the contact area between the inner synthetic resin film 12 and the glass window G1 is limited when the glass window G1 is bonded and the insulation effect is reduced. When the air injection amount of the air curtain is 50 to 70%, as shown in FIG. 4, the contact area between the inner synthetic resin film 12 and the glass window G1 is widened to increase the thermal insulation effect, and the adhesive material. The adhesion area of (16) is also widened, and the adhesion force can be further increased.

5 is a second embodiment of an air curtain according to the present invention.

The second embodiment of the air curtain according to the present invention as shown in Figure 5 is attached to the glass window (G1) to provide an insulating effect, the outer synthetic resin film 11 and the inner synthetic resin film 12 up and down An outer sealing line 13 formed by sealing the circumference of the nest, an air inlet 14 for injecting air into the lower side of the outer sealing line 13, and the outer sealing line so that the air curtain maintains a flat plate shape during air injection. (13) An adhesive material 16 is attached to the bonding point 17 in which the outer synthetic resin film 11 and the inner synthetic resin film 12 are in close contact with each other at a predetermined interval, and the glass window G1 bonding surface of the inner synthetic resin film 12. ) Is applied.

In the second embodiment of the present invention, the air curtain is expanded when the air is injected into the air inlet 14, wherein the plurality of the junction points 17 to maintain the shape of the air curtain flat. At this time, the bonding point 17 has a function of maintaining the shape of the air curtain after the air injection, thereby widening the contact area between the glass window (G1) bonding surface and the inner synthetic resin film (12), thereby adhering the adhesive force together with the thermal insulation effect. It will be possible to further increase the thickness of the air curtain according to the interval of the bonding point 17 will be said, which maximizes the bonding area between the glass window (G1) and the internal synthetic resin film 12 to bond with adhesion It will also increase performance.

In the second embodiment of the present invention, the process of attaching the air curtain to the glass window G1 and the air injection amount will be the same as the process of the first embodiment.

6 is a third embodiment of an air curtain according to the present invention.

As shown in FIG. 6, the third embodiment of the air curtain according to the present invention is an air curtain attached to the glass window G1 to provide a heat insulating effect, wherein the outer synthetic resin film 11 and the inner synthetic resin film 12 are up and down. The outer synthetic resin film 11 formed inside the outer sealing line 13 so as to form a plurality of outer sealing line 13 formed by sealing the circumference of the air and the air curtain 18 in which the air curtain is independently sealed. And a plurality of inner sealing lines 19 for sealing the inner synthetic resin film 12 in the longitudinal direction, and a plurality of air inlets for injecting air into the air tube 18 under the outer sealing line 13, respectively. 14 and the adhesive material 16 is coated on the bonding surface of the glass window G1 of the inner synthetic resin film 12.

In the third embodiment of the present invention, the air curtain, by injecting air into each of the air inlet 14, each air tube 18 is inflated, a plurality of independent air tube ( 18) it is possible to limit the extent of the damage in case of damage that can occur during long-term use to the individual air tube (18) increases the utilization.

In the third embodiment of the present invention, the process of attaching the air curtain to the glass window G1 and the air injection amount will be the same as the process of the first embodiment.

7 is a fourth embodiment of an air curtain according to the present invention.

In the third embodiment of the air curtain according to the present invention as shown in Fig. 7, the inner sealing line 19 is separated from the center in the state of maintaining the airtightness of the independent air tube 18 in the third embodiment. It is characterized in that the incision 20 is installed to enable.

In the fourth embodiment of the present invention, the air curtain is an incision line 20 installed at the center of the inner sealing line 19, which is a damaged air tube 18 in case of breakage of the individual air tube 18 which may occur during long-term use. It is possible to remove through the incision 20 on both sides and to reinstall the undamaged individual air tube 18, and also to install the individual air tube 18 at the time of initial attachment to the glass window G1. By cutting along the incision line 20 in accordance with the width of the) it is possible to adjust the width of the air curtain.

8 and 9 show a fifth embodiment of the air curtain according to the present invention.

As shown in Figure 8, the fifth embodiment of the air curtain according to the present invention is attached to the glass window (G1) in the air curtain providing an insulating effect, the outer synthetic resin film 11 and the inner synthetic resin film 12 up and down An outer sealing line 13 formed by sealing the periphery of the furnace, an air inlet 14 for injecting air into the lower side of the outer sealing line 13, and an outer synthetic resin film so that the air curtain maintains a flat plate shape during air injection. A hard synthetic resin plate 21 is attached to the outer side of the inner side and the inner side of the inner side synthetic resin film 12, and the adhesive material is attached to the glass window G1 bonding surface of the inner side synthetic resin film 12 and the hard synthetic resin plate 21. (16) was applied.

In the fifth embodiment of the present invention, the air curtain is swollen when air is injected into the air inlet 14 as shown in FIG. 9, wherein the hard synthetic resin plate 21 installed on the outside of the air curtain is made of the air curtain. Hold the shape to keep it flat. This is because the synthetic resin film swells upon air injection, but this phenomenon is suppressed by the hard synthetic resin plate 21, so that the contact area with the glass window (G1) bonding surface becomes wider, so that the adhesive force together with the thermal insulation effect can be further increased. As a result, the plate-like shape can be maintained even after attachment. In addition, light distortion or refraction of the air curtain is minimized by the hard synthetic resin plate 21. As the material of the hard synthetic resin plate 21, there will be no limitation as long as it is a hard synthetic resin material that maintains light transmittance and maintains a plate shape without swelling even when the pressure increases due to air injection. The method of bonding the hard synthetic resin plate 21, the outer synthetic resin film 11 and the inner synthetic resin film 12 will be suitable for high frequency processing. The thickness of the hard synthetic resin plate 21 is appropriate to determine in consideration of the size and thickness of the air curtain and the shape of the window frame (G2), it will be said that the thickness of 0.5 to 2mm is reasonable.

In the fifth embodiment of the present invention, the process of attaching the air curtain to the glass window and the air injection amount will be the same as the process of the first embodiment.

10 is a sixth embodiment of an air curtain according to the present invention.

In the fourth embodiment of the air curtain according to the present invention, the air injected into the air inlet 14 in the first embodiment, the second embodiment, the third embodiment, the fourth embodiment and the fifth embodiment has an insulating effect. It is a gas (A).

In the sixth embodiment of the present invention as shown in Figure 10 the air injected into the interior through the air inlet 14 is typical air (78% nitrogen, 21% oxygen, 0.9% argon, 0.03% carbon dioxide, etc.) is typical However, in order to maximize the thermal insulation effect, it is also possible to inject a gas having excellent thermal insulation effect. Argon (Ar) gas, krypton (Kr) gas, etc. will be representative of the insulation effect gas (A) having excellent insulation effect. It is also possible to use a mixture of adiabatic effect gas (A) and other air, rather than using a single insulation effect gas (A) alone. It can be said that it can be applied in various ratios.

11 is a seventh embodiment of an air curtain according to the present invention.

As shown in Figure 11, the seventh embodiment of the air curtain according to the present invention is attached to the glass window (G1) to provide a heat insulation effect, the outer synthetic resin film 11 and the inner synthetic resin film 12 up and down The outer sealing line 13 formed by sealing the air cap 22 in the form of an air gap, sealing the circumference of the outer synthetic resin film 11 and the inner synthetic resin film 12, and the glass window of the inner synthetic resin film 12 ( G1) characterized in that the adhesive material 16 is applied to the bonding surface.

In the seventh embodiment of the present invention, the air curtain is an air cap 22 composed of individual sealing spaces, so that the damage that may occur during long-term use can be limited to the individual air cap 22. According to the size or shape of the glass window (G1) can be freely cut to increase the utilization of the air curtain. The size and thickness of the individual air cap 22 is appropriate to determine in consideration of the size of the glass window (G1) or the depth of the glass frame (G2), but the thickness of 1.5 to 3cm will be reasonable. When manufacturing the air cap 22, the filling amount of air will be said to be suitable for the filling rate of 50 to 70% based on the maximum filling amount.

The eighth embodiment of the air curtain according to the present invention is characterized in that, in the seventh embodiment, the air filled inside the air cap 22 is the heat insulation effect gas (A).

In the eighth embodiment of the present invention, the air curtain is an insulating effect gas (A) to be filled in the individual air cap 22 will be representative of argon (Ar) gas, Krypton (Kr) gas and the like. In addition, it is also possible to use a mixture of adiabatic effect gas (A) and other air rather than using a single insulation effect gas (A), and the filling of gas mixed at the ratio of argon (Ar) gas at 20% and air 80% It can be said that it can be applied in various ratios.

12 and 13 show a ninth embodiment of the air curtain according to the present invention.

As shown in Fig. 12, in the ninth embodiment of the air curtain according to the present invention, in any one of the first to eighth embodiments, the window frame G2 joining surface of the outer sealing line 13 is provided. Attached to the Velcro surface (23A), and the Velcro other surface (23B) is attached to the glass window frame (G2) corresponding to it characterized in that it can be connected to each other.

In the ninth embodiment of the present invention, the air curtain is formed of the air curtain in which the inner synthetic resin film 12 of the swelled air curtain and the glass window G1 are in close contact with each corner of the glass window G1 and each corner of the air curtain. Adhesion between the adhesive material 16 is improved by tightly attaching therebetween. At this time, the Velcro surface 23A of the air curtain and the Velcro surface 23B already installed on the window frame G2 are connected to each other. Originally proposed for the use of the winter season, air curtains need to be temporarily removed due to ventilation, cleaning, and the structure of the window frame (G2) in the building during long-term use. In this case, the adhesive material 16 may be re-adhesive after separation, but the adhesive material 16 may be degraded by frequent separation and re-adhesion. As shown in Fig. 13, the air curtain is separated into the window frame G2 joining surface of the outer sealing line 13 and the Velcro-il surface 23A and the Velcrota surface 23B respectively installed on the corresponding window frame G2. Re-adhesion allows the removal of all or part of the air curtain to complement its performance. If the air curtain and the window frame (G2) is a coupling tool, the Velcro 23 is used, but a similar tool is not limited to the Velcro 23. For example, a zipper or the like may be used. will be.

As for the material of the outer synthetic resin film 11 and the inner synthetic resin film 12 described in various embodiments of the air curtain according to the present invention, polyvinyl chloride (PVC), polyethylene (PE, PE), etc. It is not limited to any material that maintains light transmittance and maintains airtightness despite swelling by air injection. The high frequency processing method is suitable for the close contact line 13, the joining line 15, the joining point 17, and the inside sealing line 19 of the outer synthetic resin film 11 and the inner synthetic resin film 12. something to do.

In the various embodiments of the air curtain according to the present invention described above and the use of the air curtain described in the drawings, it is limited to the implementation of only a single layer. .

The air curtain according to the present invention described above is not limited to the above-described embodiments and drawings, it will be said that modifications and substitutions can be made within the technical scope of the present invention, which is common knowledge in the technical field to which the present invention belongs. It will be clear to those who have it.

11: outer synthetic resin film 12 inner synthetic resin film
13 outer seal line 14 air inlet
15: seam line 16: adhesive material
17: junction 18: air tube
19: internal sealing line 20: incision line
21: hard synthetic resin plate 22: air cap
23: Velcro 23A: Velcro side
23B: Velcro plane G1: glass window
G2: Glass window frame A: Insulation effect gas

Claims (9)

In the air curtain attached to the glass window to provide an insulation effect,
The outer sealing line formed by overlapping the outer synthetic resin film and the inner synthetic resin film up and down to seal the periphery, an air inlet for injecting air into the lower side of the outer sealing line, and the inside of the outer sealing line so that the air curtain maintains a flat shape during air injection. By the adhesive line is adhered to the outer synthetic resin film and the inner synthetic resin film at regular intervals, and the adhesive material is applied to the glass window bonding surface of the inner synthetic resin film, the air injected into the air inlet is characterized in that the air insulated effect gas curtain. In the air curtain attached to the glass window to provide an insulation effect,
The outer sealing line formed by overlapping the outer synthetic resin film and the inner synthetic resin film up and down to seal the periphery, an air inlet for injecting air into the lower side of the outer sealing line, and the inside of the outer sealing line so that the air curtain maintains a flat shape during air injection. The adhesive point is a contact between the outer synthetic resin film and the inner synthetic resin film at regular intervals, and the adhesive material is applied to the glass window bonding surface of the inner synthetic resin film, the air injected into the air inlet is characterized in that the air is an insulating effect gas curtain. In the air curtain attached to the glass window to provide an insulation effect,
An outer sealing line formed by overlapping the outer synthetic resin film and the inner synthetic resin film up and down to seal the circumference, and the outer synthetic resin film and the inner synthetic resin inside the outer sealing line to form a plurality of air tubes independently sealed when the air is injected. An adhesive material is applied to a plurality of inner sealing lines sealing the film in the longitudinal direction, a plurality of air inlets for injecting air into the air tubes under the outer sealing line, and a glass window bonding surface of the inner synthetic resin film, Air curtain, characterized in that the air injected into the air inlet is an adiabatic effect gas. The method of claim 3,
The inner sealing line is an air curtain characterized in that the incision line is installed to be separated in the center while maintaining the airtight of the independent air tube In the air curtain attached to the glass window to provide an insulation effect,
The outer sealing line formed by overlapping the outer synthetic resin film and the inner synthetic resin film up and down to seal the circumference, an air inlet for injecting air into the lower side of the outer sealing line, and an outer side of the outer synthetic resin film so that the air curtain maintains a flat shape during air injection. And attaching a hard synthetic resin plate to the outside of the inner synthetic resin film, applying an adhesive material to the glass window bonding surface of the inner synthetic resin film and the hard synthetic resin plate, and the air injected into the air inlet is an insulating effect gas. Air curtain. In the air curtain attached to the glass window to provide an insulation effect,
The outer synthetic resin film and the inner synthetic resin film are folded up and down and sealed in the form of an air cap. Air curtains, characterized in that the air filled inside the air cap is a heat insulation effect gas. The method according to any one of claims 1 to 6,
Velcro one side is attached to the glass window frame joining surface of the outer sealing line, and the air curtain, characterized in that by attaching the velcrotta surface to the corresponding window frame to be connected to each other. delete delete

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