KR102212228B1 - Composite window with sound insulation means and manufacturing method - Google Patents

Abstract

The present invention comprises a window to which a glass plate is coupled, a window frame to which the window is opened and closed, and a window frame constituting the window and an insulation panel attached to the interior direction of the window frame constituting the window frame, and the window frame and The window frame frame is made of metal, and the insulation panel is formed of a sound insulation means for insulation and sound insulation in a frame space where the window frame and the window frame frame face each other. The sound insulation means is such that the first air cushion is detachably coupled to the frame expansion portion of the window frame, and the second air cushion is detachably coupled to the frame expansion portion of the window frame frame, so that the first air cushion and the window are sealed. The second air cushions are in contact with each other so as to be compressed to achieve heat insulation and sound insulation between the interior space and the exterior space; The first air cushion forms an outer frame in the form of a frame, a plate-shaped air pocket is formed in a plurality of layers of at least two, and a rubber magnet is inserted into the air pocket space of the outermost layer, and the remaining air pocket space is A sound-insulating space divided by a plurality of sound-insulating partitions is formed to be separated by multiple, and a rectangular frame-shaped band-shaped coupling protrusion is formed on an opposite surface facing the frame expansion unit; The second air cushion forms an outer frame in the form of a frame, and a plate-shaped air pocket is formed in a plurality of layers of at least two, and a rubber magnet is inserted into the air pocket space of the outermost layer, and the remaining air pocket space A sound-insulating space divided by a plurality of sound-insulating partitions is formed to be separated by multiple, and a rectangular frame-shaped band-shaped coupling protrusion is formed on a surface facing the frame expansion unit; When the first air cushion and the second air cushion are in contact with each other, they are attached by magnetic force between the rubber magnets that are interpolated into the air pockets; It is installed so that the outer rim surface of the first air cushion and the second air cushion abuts the inner rim of the window frame frame, and between the inner rim of the first air cushion and the second air cushion and the outer rim of the window frame A first air cushion and a second air cushion that are compressed and expanded in a horizontal direction when the window is closed by forming an expansion section in the window; The insulating panel may be provided with a composite window provided with a sound insulating means, characterized in that the insulating space is formed therein, and insulating foam is filled in the insulating space to provide heat insulation and sound insulation.

Description

Composite window with sound insulation means and manufacturing method}

The present invention relates to a composite window equipped with a sound insulation means and a manufacturing method, and more particularly, by forming a sound insulation means for insulation and sound insulation in the border space where the window frame and the window frame frame face each other, energy efficiency of the building is improved. It relates to a composite window and a manufacturing method provided with sound insulation means to be.

In recent years, due to the development of building technology, buildings are gradually becoming high-rise, and glass is widely used as an exterior material for aesthetic reasons, lighting and viewing.

In addition, windows are installed in buildings for ventilation. The windows installed between the glass outer wall and the glass outer wall installed in the building are very useful as a component that keeps the interior comfortable.

However, glass exterior walls and windows are also major components that hinder the cooling and heating performance of buildings. This is because the glass plates used for glass walls and windows, and the main components of glass walls and windows are mostly made of metal with high thermal conductivity.

In particular, in the case of a window, the window must be configured to open and close from the window frame for ventilation, but there is a problem that heat loss occurs more in the contact part between the window and the window frame compared to other parts.

Such windows can be classified based on the material of the window and the window frame, and the windows and window frames constituting the windows are aluminum windows using aluminum, plastic windows using synthetic resin, and composite windows using a mixture of aluminum and synthetic resin. It can be classified as

First, aluminum windows have the advantage of being less deformed due to external environmental changes due to the characteristics of aluminum, which is the main material of the frame, and having strong strength, but because of the characteristics of aluminum, they are lighter than other metals, so they are easy to use in old buildings. In addition, aluminum is widely used as a material for windows and doors because it is easy to process, construct, and manufacture, and is cheap.

However, aluminum has a problem in that heat insulation is poor due to its high thermal conductivity, and condensation occurs on windows and doors in winter, and this condensation has a secondary problem that hinders the indoor environment. In addition, aluminum windows have a problem of poor airtightness and sound insulation.

Plastic windows are made of synthetic resin as a frame material for windows and doors, and polyvinyl chloride (PVC: POLYVINYL CHLORIDE) is mainly used among synthetic resins. These plastic windows have the advantages of excellent thermal insulation, watertightness and opening and closing properties, as well as excellent chemical resistance and low cost compared to aluminum windows.

However, plastic windows have limitations in use in high-rise buildings due to their weaker structural strength than aluminum windows. In addition, even if it is not a high-rise building, the structural strength is weak, so it is somewhat unreasonable to manufacture large windows.

In addition, polyvinyl chloride generates a large amount of toxic gas during combustion. Therefore, when a fire occurs in a building, there is a problem that not only expands the fire, but also can cause personal injury due to the toxic gas generated during the fire.

Composite windows are designed to use only the advantages of aluminum windows and plastic windows, and the frame exposed to the outside of the building is made of aluminum, and the insulation panel made of polyvinyl chloride is attached to the inside of the building to improve insulation. I made it.

Such composite windows can be applied to high-rise buildings due to their strong structural strength like aluminum windows, and heat loss can be reduced by partially reducing the thermal conductivity of the aluminum frame due to the insulation panels used inside.

In addition, since various patterns can be molded on the insulating panel attached to the inside, there is an advantage of exhibiting very excellent performance aesthetically.

Such a composite window is a structure that is completed by fitting an insulation panel made of synthetic resin to the outside of the window frame and the window frame, and while reducing heat loss, it has the advantage of being applicable to high-rise buildings.

However, conventional composite windows have a problem that a large amount of toxic gases are generated when a fire occurs because the insulation panels are manufactured using polyvinyl chloride, and these large amounts of toxic gases can cause serious damage to people inside the building. There is a problem.

In addition, since the conventional composite window is a form of simply attaching the insulation panel to the surface of the aluminum frame, many parts of the aluminum frame that are in contact with the indoor air are generated, and the part not covered by the insulation panel is still heated. There was a problem that a loss occurred.

Republic of Korea Patent Publication No. 10-2011-0028764

The present invention was conceived to solve the above problems, and the object is to provide a sound insulation means for insulation and sound insulation in the border space where the window frame and the window frame frame face each other, thereby improving the energy efficiency of the building. It is to provide a composite window equipped with this.

Another object of the present invention is to improve airtightness and improve the airtightness by allowing the sound insulation means to be detachably coupled to the frame expansion unit of the window frame and the second air cushion detachably to the frame expansion unit of the window frame. It is to prevent noise generation by buffering the shock when it is closed.

Another object of the present invention is to delay aging according to the expiration date and maintain airtightness for a long time by forming a plate-shaped air pocket in at least two or more layers.

Another object of the present invention is to allow a rubber magnet to be inserted into the outermost air pocket space, and to be attached by magnetic force between the rubber magnets to be inserted into the air pocket when the first air cushion and the second air cushion abut. By doing so, it is possible to improve the airtightness, and to keep the window closed by magnetic force even when the window lock is not applied.

Another object of the present invention is that the remaining air pocket spaces in which rubber magnets are not interpolated are divided into a plurality of sound-insulating partitions so that the sound-insulating spaces are separated by multiple, so that the outdoor and indoor spaces are soundproofed, thereby providing a pleasant living environment and privacy protection. It is to make it happen.

Another object of the present invention is to install the outer edge of the first air cushion and the second air cushion to contact the inner edge of the window frame frame, and the inner edge of the first air cushion and the second air cushion and the window frame By forming an expansion section between the outer rims of the window, the first air cushion and the second air cushion, which are compressed and expanded in the horizontal direction, are accommodated when the window is closed, thereby expanding the sealing contact area to improve the sealing performance of the window. have.

According to an aspect of the present invention for achieving the above object, the window to which the glass plate is coupled and the window frame to which the window is opened and closed, and the window frame constituting the window and the window frame frame constituting the window frame, In a composite window consisting of a heat insulating panel to be attached, the material of the window frame and the window frame frame is metal, and the material of the heat insulation panel is a styrene-based synthetic resin, the window frame and the window frame frame are in a border space facing each other. To form a sound insulation means for heat insulation and sound insulation, wherein the sound insulation means is coupled to the frame expansion portion of the window frame so that the first air cushion is detachably attached to the frame expansion portion of the window frame, and the second air cushion is detachably coupled to the frame expansion portion of the window frame frame. Thus, when the window is sealed, the first air cushion and the second air cushion come into contact with each other so that they are pressed together so that insulation and sound insulation between the indoor space and the external space are achieved, and the first air cushion forms a frame-shaped outer frame. In addition, a plate-shaped air pocket is formed in a plurality of layers of at least two, and a rubber magnet is interpolated in the air pocket space of the outermost layer, and the sound insulation space divided by a plurality of sound insulation bulkheads is separated from the remaining air pocket space. And forming a rectangular frame-shaped belt-shaped coupling protrusion on an opposite surface facing the frame expansion unit, and the second air cushion forms a frame-shaped outer frame, and has at least two plate-shaped air pockets. It is formed of a plurality of layers above, and rubber magnets are inserted into the outermost air pocket space, and the remaining air pocket spaces are formed to separate the sound insulation space divided by a plurality of sound insulation partitions, and face the frame expansion part. Consists of forming a rectangular frame-shaped, band-shaped coupling protrusion on the surface, and when the first air cushion and the second air cushion contact each other, they are attached by magnetic force between rubber magnets that are interpolated into the air pocket, and the It is installed so that the outer rim of the first air cushion and the second air cushion is in contact with the inner rim of the window frame, and between the inner rim of the first air cushion and the second air cushion and the outer rim of the window frame The first air cushion and the second air cushion, which are compressed and expanded in a horizontal direction, are accommodated by forming an expansion section in the window, and the insulation panel forms an insulation space inside, but the insulation space is insulated. A composite window with sound insulation means, characterized in that heat insulation and sound insulation are achieved by filling the foam, may be provided.

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Here, the two glass plates are formed of a multi-layered glass spaced apart by a predetermined interval, and a conductive coating layer is formed on at least one of the inner surfaces of the multi-layered glass facing each other to generate heat when power is applied.

At this time, by forming a coating layer of copper nanoparticles on the outer surface of the multilayer glass, respectively, it is characterized in that a quarantine membrane is formed to kill viruses and bacteria in the air.

In addition, an electrical connection terminal is formed on an inner surface of the multilayer glass in contact with the sealing member for sealing the rim of the multilayer glass.

In addition, a temperature sensitive agent is coated on the conductive coating layer of the multilayer glass to change color according to temperature.

The present invention as described above has an effect of improving the energy efficiency of a building by forming a sound insulation means for insulation and sound insulation in the border space where the window frame and the window frame frame face each other.

In addition, the sound insulation means of the present invention has excellent airtightness by allowing the first air cushion to be detachably coupled to the frame expansion unit of the window frame and the second air cushion to be detachably attached to the frame expansion unit of the window frame frame. , It has the effect of preventing noise generation by cushioning the impact when the window is closed.

In addition, the present invention has the effect of delaying aging according to the expiration date and maintaining airtightness for a long time by forming a plate-shaped air pocket with at least two or more layers.

In addition, the present invention allows a rubber magnet to be inserted into the outermost air pocket space, and when the first air cushion and the second air cushion contact each other, the rubber magnets are mutually inserted into the air pocket by magnetic force. , Airtightness can be improved, and the window has the effect of maintaining the closed state by magnetic force even when the window is not locked.

In addition, in the present invention, the remaining air pocket space in which rubber magnets are not interpolated is divided into a plurality of sound-insulating partitions to separate the sound-insulating spaces so that the outdoor and indoor spaces are soundproofed, thereby providing a comfortable residential environment as well as privacy protection. It has the effect of contributing.

In addition, the present invention is installed so that the outer rim surface of the first air cushion and the second air cushion abuts the inner rim surface of the window frame frame, and the inner rim surface of the first air cushion and the second air cushion and the window frame The effect of improving the sealing performance of the window by forming an expansion section between the outer rims so that the first air cushion and the second air cushion, which are compressed and expanded in the horizontal direction when the window is closed, are accommodated to expand the sealing contact area. Has.

1 is an enlarged view of the main part of the window sealed state of a composite window equipped with a sound insulation means according to the present invention.
Figure 2 is an enlarged view of the main part of the window open state of a composite window equipped with a sound insulation means according to the present invention.
Figure 3 is a perspective view showing a sound insulation means according to the present invention.
Figure 4 is an enlarged view of the main part of the window open state of a composite window provided with a sound insulation means according to another embodiment of the present invention.
Figure 5 is an enlarged view showing a glass plate structure according to the present invention.
Figure 6 is an enlarged view showing another embodiment of the glass plate structure of Figure 5;

Hereinafter, an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an enlarged view of a main part of a window-sealed state of a composite window equipped with a sound insulation means according to the present invention, and FIG. 2 is an enlarged view of a main part of a window-open state of a composite window provided with a sound insulation means according to the present invention.

1 and 2 illustrate a part of a corner of a window of a composite window at which the window is opened in a plan view.

The present invention as shown in the drawing is a window 100 to which the glass plate 120 is coupled, a window frame 200 to which the window 100 is opened and closed, and a window frame 110 constituting the window 100 And an insulation panel 300 attached to the interior direction of the window frame 210 constituting the window frame 200.

In this case, the window frame 110 and the window frame 210 may be made of metal, and the heat insulating panel 300 may be made of synthetic resin (styrene-based synthetic resin).

The composite window exemplified in the present invention is a casement type window that is used by pushing or pulling the window 100.

A sound insulation means 400 for heat insulation and sound insulation is formed in the border space G where the window frame 110 and the window frame 210 face each other.

At this time, the sound insulation means 400 is coupled to the first air cushion 410 so as to be detachable to the frame expansion unit 113 of the window frame 110, and is inserted and detached into the frame expansion unit 213 of the window frame 210 When possible, the second air cushions 420 are coupled to each other so that when the window 100 is closed, the first air cushion 410 and the second air cushion 420 are pressed and faced to each other.

When the window 100 is closed, when the first air cushion 410 and the second air cushion 420 come into contact with each other so as to be compressed, the sealed contact area can be maximized. Insulation and sound insulation performance can be improved.

When viewed from the front, the above-described first air cushion 410 forms an outer frame in the form of a frame such as the window frame 200.

At this time, looking at the cross-sectional structure of the first air cushion 410, a plate-shaped air pocket 411 is formed in a plurality of layers of at least two or more.

By forming the plate-shaped air pockets in a plurality of layers, as well as delaying aging according to the expiration date, airtightness can be maintained for a long time. For example, even if an air pocket in one layer loses its function, it is possible to continue to perform the function of maintaining airtightness in the remaining air pocket layer.

In this case, a rubber magnet 414 may be inserted into the air pocket space of the outermost layer of the first air cushion 410.

In this way, a rubber magnet is inserted into the outermost air pocket space, and when the first air cushion and the second air cushion contact each other, the rubber magnets are attached by magnetic force between the rubber magnets inserted into the air pocket. It can be improved, and the window is kept closed by magnetic force even when the window is not locked, thereby providing an advantage of ease of use.

In addition, the space of the air pocket 411 in which the rubber magnets 414 are not interpolated may be formed such that the sound insulation space 413 divided by a plurality of sound insulation partition walls 412 is divided into multiples.

As described above, when a plurality of sound-insulating partitions 412 are formed, noise can be effectively blocked from being transmitted by being trapped in a plurality of sound-insulating spaces 413 in sequence without passing through the noise at once.

In addition, a rectangular band-shaped coupling protrusion 415 may be formed on a surface facing the frame expansion unit 113.

Looking at the cross-sectional shape of the strip-shaped coupling protrusion 415, the end of the coupling protrusion 415 may be expanded to prevent separation due to the locking structure after the groove coupling.

Such a coupling protrusion 415 may form a triangular head with a pointed end as shown in FIG. 4, which is pushed into place when combined with the belt-shaped coupling groove 115 formed on the window frame 110 side. It is to do.

The coupling protrusions 415 as described above may be formed in sequence on a concentric circle, and the band-shaped coupling groove 115 formed on the side of the window frame 110 coupled to the coupling protrusion 415 is also concentrically formed. It is possible to form a plurality of in turn.

As such, the reason for coupling the plurality of coupling protrusions 415 is to increase the sealing area to improve heat insulation and sound insulation performance.

When viewed from the front, the second air cushion 420 forms a frame-shaped outer frame such as the window frame 200.

At this time, looking at the cross-sectional structure of the second air cushion 420, a plate-shaped air pocket 421 is formed in a plurality of layers of at least two or more.

By forming the plate-shaped air pockets in a plurality of layers, as well as delaying aging according to the expiration date, airtightness can be maintained for a long time. For example, even if an air pocket in one layer loses its function, it is possible to continue to perform the function of maintaining airtightness in the remaining air pocket layer.

In this case, a rubber magnet 424 may be inserted into the air pocket space of the outermost layer of the second air cushion 420.

In this way, a rubber magnet is inserted into the outermost air pocket space, and when the first air cushion and the second air cushion contact each other, the rubber magnets are attached by magnetic force between the rubber magnets inserted into the air pocket. It can be improved, and the window is kept closed by magnetic force even when the window is not locked, thereby providing an advantage of ease of use.

In addition, the space of the air pocket 421 in which the rubber magnets 424 are not interpolated may be formed such that the sound insulation space 423 divided by a plurality of sound insulation partition walls 422 is divided into multiples.

As described above, when a plurality of sound insulation partition walls 422 are formed, the noise can be effectively blocked from being transmitted by being trapped in the plurality of sound insulation spaces 423 in sequence without passing through the noise at once.

In addition, a rectangular band-shaped coupling protrusion 425 may be formed on a surface facing the frame expansion part 213.

Looking at the cross-sectional shape of the strip-shaped coupling protrusion 425, the end of the coupling protrusion 425 may be expanded to prevent separation due to the locking structure after the groove coupling.

Such a coupling protrusion 425 may form a triangular head with a pointed end as shown in FIG. 4, which is pushed into place when combined with the band-shaped coupling groove 215 formed on the side of the window frame 210 It is to do.

The coupling protrusions 425 as described above may be formed in sequence on a concentric circle, and the band-shaped coupling groove 215 formed on the side of the window frame 210 coupled with the coupling protrusion 425 is also concentrically formed. It can be made to form a plurality of in turn.

In this way, the reason for coupling the plurality of coupling protrusions 425 is to increase the sealing area to improve heat insulation and sound insulation performance.

In addition, the first air cushion 410 and the second air cushion 420 are installed so that the outer edge faces abut against the inner edge face 211 of the window frame 210, and the first air cushion 410 and An expansion section (A) is formed between the inner rim surface of the second air cushion 420 and the outer rim surface 111 of the window frame 110, and is compressed when the window 100 is closed to transform and expand in the horizontal direction. The first air cushion 410 and the second air cushion 420 may be accommodated.

In addition, the insulation panel 300 may form an insulation space 301 therein, but the insulation space 301 may be filled with insulation foam 310 to improve insulation and sound insulation performance.

FIG. 5 is an enlarged view showing a glass plate structure according to the present invention, and FIG. 6 is an enlarged view showing another embodiment of the glass plate structure of FIG. 5.

As shown in the accompanying drawings, in the present invention, two glass plates 120 are formed of double-layered glass 120a, 120b spaced apart by a predetermined interval, and conductive on at least one of the inner surfaces of the double-layered glass 120a, 120b facing each other. By forming the coating layer 121, heat may be generated when power is applied.

In addition, by forming a copper nanoparticle coating layer 123 on the outer surfaces of the multi-layered glass 120a and 120b, respectively, it is possible to form a quarantine membrane that kills viruses and bacteria in air.

In addition, an electrical connection terminal 122a may be formed on an inner surface where the sealing member 122 sealing the edges of the multilayer glass 120a, 120b and the multilayer glass 120a, 120b contact each other, which is a conductive coating layer ( 121) It has the advantage of evenly applying power to the whole.

In addition, by coating a temperature sensitive agent on the conductive coating layer 121 of the multi-layered glass (120a, 120b), the color can be changed depending on the temperature. In the case of midday, the color changes to dark and at night, the color changes to Heat can be blocked.

In the present invention as described above, by forming a sound insulation means for insulation and sound insulation in the border space where the window frame and the window frame frame face each other, the energy efficiency of the building is improved, and the sound insulation means of the present invention is the frame expansion unit of the window frame. By allowing the first air cushion to be detachably attached to the window frame and the second air cushion to be detachably attached to the frame expansion portion of the window frame frame, not only does it have excellent airtightness, but also prevents noise by buffering the impact when the window is closed. In the present invention, the remaining air pocket spaces in which rubber magnets are not interpolated are divided into a plurality of sound-insulating partitions to separate the sound-insulating spaces so that the outdoor and indoor spaces are soundproofed, thereby providing a comfortable living environment as well as privacy protection. The present invention is installed so that the outer rim surfaces of the first air cushion and the second air cushion abut against the inner rim of the window frame frame, and the inner rim of the first air cushion and the second air cushion and the window By forming an expansion section between the outer rims of the frame, the first air cushion and the second air cushion, which are compressed and expanded in the horizontal direction when the window is closed, are accommodated to expand the sealing contact area to improve the sealing performance of the window. Will be ordered.

As described above, the present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims It goes without saying that implementation is possible, and such changes are within the scope of the description of the claims.

100: window 110: window frame
111: outer edge surface 113: frame extension
115: strip-shaped coupling groove 120: glass plate
200: window frame 210: window frame frame
211: inner rim surface 213: frame extension
215: strip-shaped coupling groove 300: insulation panel
400: sound insulation means 410: first air cushion
411: air pocket 412: sound insulation bulkhead
413: sound insulation space 414: rubber magnet
415: band-shaped coupling protrusion 420: second air cushion
421: air pocket 422: sound insulation bulkhead
423: sound insulation space 424: rubber magnet
425: band-shaped coupling protrusion
A: Extension section
G: space

Claims (14)

The window 100 to which the glass plate 120 is coupled and the window frame 200 to which the window 100 is opened and closed, and the window frame 110 constituting the window 100 and the window frame 200 Consisting of an insulation panel 300 attached to the interior direction of the window frame 210, the window frame 110 and the window frame 210 are made of metal, and the insulation panel 300 is made of styrene. In the composite window which is a synthetic resin of,
A sound insulation means 400 for heat insulation and sound insulation is formed in the border space G where the window frame 110 and the window frame 210 face each other, and the sound insulation means 400 is a frame of the window frame 110 The first air cushion 410 is detachably coupled to the expansion unit 113, and the second air cushion 420 is detachably coupled to the frame expansion unit 213 of the window frame 210, so that the window ( 100) When sealing, the first air cushion 410 and the second air cushion 420 come into contact with each other so as to be compressed so that insulation and sound insulation between the indoor space and the external space are made,
The first air cushion 410 forms an outer frame in the form of a frame, a plate-shaped air pocket 411 is formed in at least two or more layers, and a rubber magnet 414 is formed in the air pocket space of the outermost layer. In order to be interpolated, the remaining air pocket 411 space is formed to separate the sound insulation space 413 divided by a plurality of sound insulation partition walls 412 so as to be separated, and a square frame-shaped band on the opposite surface facing the frame expansion part 113 Consisting of a configuration to form a shape coupling protrusion 415,
The second air cushion 420 forms an outer frame in the form of a frame, a plate-shaped air pocket 421 is formed in at least two or more layers, and a rubber magnet 424 is formed in the air pocket space of the outermost layer. The remaining air pocket 421 space is formed to separate the sound insulation space 423 divided by a plurality of sound insulation partition walls 422 so as to be separated, and a square frame-shaped band on the opposite surface facing the frame expansion part 213 Consisting of a configuration to form a shape coupling protrusion 425,
When the first air cushion 410 and the second air cushion 420 contact each other, the rubber magnets 414 and 424 are interpolated to each other to be attached by magnetic force,
The first air cushion 410 and the second air cushion 420 are installed so that the outer rim surfaces of the first air cushion 410 and the second air cushion 420 come into contact with the inner rim 211 of the window frame 210, and the first air cushion 410 and the second An expansion section (A) is formed between the inner rim surface of the air cushion 420 and the outer rim surface 111 of the window frame 110, and is compressed when the window 100 is closed and is deformed and expanded in the horizontal direction. 1 air cushion 410 and the second air cushion 420 are accommodated,
The insulation panel 300 forms an insulation space 301 therein, but the insulation space 301 is filled with insulation foam 310 to provide insulation and sound insulation,
After the end of the band-shaped coupling protrusion 415 is expanded and the groove is coupled, a triangular head with a pointed end is formed to prevent separation due to the locking structure, and the band-shaped coupling groove 115 formed on the side of the window frame 110 When the coupling is pushed and inserted, a plurality of the band-shaped coupling protrusions 415 are sequentially formed on a concentric circle, and a band-shaped coupling groove 115 coupled with the coupling protrusion 415 on the side of the window frame 110 ) Are formed on a concentric circle in turn,
After the end of the belt-shaped coupling protrusion 425 is expanded and the groove is coupled, a triangular head with a pointed end is formed so as to prevent separation due to the locking structure, and the belt-shaped coupling groove 215 formed on the side of the window frame frame 210 When the coupling is pushed and inserted, a plurality of the band-shaped coupling protrusions 425 are sequentially formed on a concentric circle, and a belt-shaped coupling groove 215 that is coupled to the coupling protrusion 425 on the side of the window frame frame 210 ) Are formed on a concentric circle in sequence,
Two sheets of the glass plate 120 are formed of multi-layered glass 120a, 120b spaced apart by a predetermined interval, and a conductive coating layer 121 is formed on at least one of the inner surfaces of the multi-layered glass 120a, 120b to be When applied, heat is generated,
By forming a copper nanoparticle coating layer 123 on the outer surfaces of the multilayer glass 120a and 120b, respectively, to form a quarantine membrane that kills viruses and bacteria in the air,
An electrical connection terminal (122a) is formed on an inner surface of the multilayer glass (120a, 120b) in contact with the sealing member (122) sealing the rim of the multilayer glass (120a, 120b),
Composite windows with sound insulation means, characterized in that the color changes according to temperature by coating a temperature sensitive agent on the conductive coating layer 121 of the multi-layered glass (120a, 120b).
delete delete delete delete delete delete A sound insulation means 400 for heat insulation and sound insulation is formed in the border space G where the window frame 110 and the window frame 210 face each other, and the sound insulation means 400 extends the frame of the window frame 110 The first air cushion 410 is detachably coupled to the part 113, and the second air cushion 420 is detachably coupled to the frame expansion part 213 of the window frame 210, so that the window 100 ) When sealing, the first air cushion 410 and the second air cushion 420 come into contact with each other so as to be compressed so that insulation and sound insulation between the indoor space and the external space are made,
The first air cushion 410 forms an outer frame in the form of a frame, a plate-shaped air pocket 411 is formed in at least two or more layers, and a rubber magnet 414 is formed in the air pocket space of the outermost layer. In order to be interpolated, the remaining air pocket 411 space is formed to separate the sound insulation space 413 divided by a plurality of sound insulation partition walls 412 so as to be separated, and a square frame-shaped band on the opposite surface facing the frame expansion part 113 Consisting of a configuration to form a shape coupling protrusion 415,
The second air cushion 420 forms an outer frame in the form of a frame, a plate-shaped air pocket 421 is formed in at least two or more layers, and a rubber magnet 424 is formed in the air pocket space of the outermost layer. The remaining air pocket 421 space is formed to separate the sound insulation space 423 divided by a plurality of sound insulation partition walls 422 so as to be separated, and a square frame-shaped band on the opposite surface facing the frame expansion part 213 Consisting of a configuration to form a shape coupling protrusion 425,
When the first air cushion 410 and the second air cushion 420 contact each other, the rubber magnets 414 and 424 are interpolated to each other to be attached by magnetic force,
The first air cushion 410 and the second air cushion 420 are installed so that the outer rim surfaces of the first air cushion 410 and the second air cushion 420 come into contact with the inner rim 211 of the window frame 210, and the first air cushion 410 and the second An expansion section (A) is formed between the inner rim surface of the air cushion 420 and the outer rim surface 111 of the window frame 110, and is compressed when the window 100 is closed and is deformed and expanded in the horizontal direction. 1 air cushion 410 and the second air cushion 420 are accommodated,
The insulation panel 300 forms an insulation space 301 therein, but insulation and sound insulation are made by filling the insulation foam 310 in the insulation space 301,
After the end of the band-shaped coupling protrusion 415 is expanded and the groove is coupled, a triangular head with a pointed end is formed to prevent separation due to the locking structure, and the band-shaped coupling groove 115 formed on the side of the window frame 110 When the coupling is pushed and inserted, a plurality of the band-shaped coupling protrusions 415 are sequentially formed on a concentric circle, and a band-shaped coupling groove 115 coupled with the coupling protrusion 415 on the side of the window frame 110 ) Are formed on a concentric circle in turn,
After the end of the belt-shaped coupling protrusion 425 is expanded and the groove is coupled, a triangular head with a pointed end is formed so as to prevent separation due to the locking structure, and the belt-shaped coupling groove 215 formed on the side of the window frame frame 210 When the coupling is pushed and inserted, a plurality of the band-shaped coupling protrusions 425 are sequentially formed on a concentric circle, and a belt-shaped coupling groove 215 that is coupled to the coupling protrusion 425 on the side of the window frame frame 210 ) Are formed on a concentric circle in sequence,
Two glass plates 120 are formed of multi-layered glass 120a, 120b spaced apart by a predetermined interval, and a conductive coating layer 121 is formed on at least one of the inner surfaces of the multi-layered glass 120a, 120b to apply power. Fever occurs at the time,
By forming a copper nanoparticle coating layer 123 on the outer surfaces of the multilayer glass 120a and 120b, respectively, to form a quarantine membrane that kills viruses and bacteria in the air,
An electrical connection terminal (122a) is formed on an inner surface of the multilayer glass (120a, 120b) in contact with the sealing member (122) sealing the rim of the multilayer glass (120a, 120b),
A method of manufacturing a composite window having a sound insulation means, characterized in that the color changes according to temperature by coating a temperature-sensitive agent on the conductive coating layer 121 of the multi-layered glass (120a, 120b). delete delete delete delete delete delete

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