KR20120031979A - Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation - Google Patents

Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation Download PDF

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Publication number
KR20120031979A
KR20120031979A KR1020120015905A KR20120015905A KR20120031979A KR 20120031979 A KR20120031979 A KR 20120031979A KR 1020120015905 A KR1020120015905 A KR 1020120015905A KR 20120015905 A KR20120015905 A KR 20120015905A KR 20120031979 A KR20120031979 A KR 20120031979A
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South Korea
Prior art keywords
charcoal
glass plate
glass
grains
bonded
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KR1020120015905A
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Korean (ko)
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석 규 이
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석 규 이
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    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03CCHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
    • C03C27/00Joining pieces of glass to pieces of other inorganic material; Joining glass to glass other than by fusing
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/67Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light
    • E06B3/6707Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light specially adapted for increased acoustical insulation
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/67Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light
    • E06B3/6715Units comprising two or more parallel glass or like panes permanently secured together characterised by additional arrangements or devices for heat or sound insulation or for controlled passage of light specially adapted for increased thermal insulation or for controlled passage of light

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Chemical & Material Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Ceramic Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Joining Of Glass To Other Materials (AREA)

Abstract

The present invention is to bond the crushed charcoal to the glass plate as a multi-layered glass window that functions to block UV rays, electromagnetic wave blocking, noise shielding and heat insulation, it is to use as a glass window of the building

The present invention is a mixture of crushed charcoal granules 80%, starch starch or rice flour 15% and starch syrup 5% by spray-bonding to the glass plate by the charcoal bonded outdoor glass plate (4) and the charcoal particles indoor glass plate (2) To manufacture

90% of the crushed charcoal powder and 10% of liquid glass are mixed and sprayed onto the glass plate to prepare the outdoor glass plate 4 and the indoor glass plate 2 to which the charcoal particles are bonded.

As a means of deriving double-glazed windows that function as UV protection, electromagnetic wave blocking, noise shielding and heat insulation using charcoal function

The sintered charcoal grains (6) and (5) of the indoor glass plate (4) bonded with the charcoal grains to the window frame (3) grooves and the indoor glass plate (2) with the charcoal grains are inserted to face each other and sealed so that the interior of the multilayer glass To form a space (1)

The present invention is a double layer sealed by heat generated by ultraviolet rays absorbed and emitted by the pulverized charcoal grains (6) and (5) after passing through the glass plate by irradiating the ultraviolet rays of sunlight with the charcoal bonded outdoor glass plate (4) It is to provide an excellent heating effect in winter season by heating air in the glass interior space (1).

In addition, by absorbing the electromagnetic waves generated outside or indoors harmful to the human body by the electromagnetic wave absorption function of the charcoal of the crushed charcoal grains (6), (5) to excellently block the electromagnetic waves.

In addition, the noise vibration generated in the surroundings is absorbed by the fine pores structured in the charcoal pellets (6) and (5) while striking against the charcoal pellets (6) and (5), and excellently offsets the noise and vibration to improve the pleasant environment. to be

In addition, the temperature of the outside air delivered through the glass plate in the same time period is the air layer staying in the interior space (1) of the multilayer glass after the charcoal (6) structured on the outdoor glass plate 4 to which the charcoal particles are first shielded. This secondary shielding and crushed charcoal (5) of the indoor glass plate (2) to which the charcoal is bonded is the third to shield the outside temperature is excellent energy saving effect.

In addition, the indoor temperature transmitted through the glass plate is shielded primarily by the crushed charcoal grains (5) structured on the indoor glass plate (2) to which the charcoal grains are bonded in order to prevent the indoor cooling temperature from being lost in the indoor cooling in the summer. After that, the air layer staying in the double-layered glass interior space (1) is secondarily shielded, and then the ground charcoal (6) of the interior glass plate (4) to which the charcoal particles are bonded is thirdly shielded to room temperature to save energy. Is outstanding

In addition, the dew condensation caused by the temperature difference between the inside and the outside of the glass plate is excellently derived from the condensation of the charcoal granules (5), (6) to avoid the condensation on the glass surface in contact with the interior space (1) of the multilayer glass.

In addition, the pulverized charcoal (5), (6) is bonded to the outdoor glass plate (4) bonded to the charcoal particles is characterized in that it emits far-infrared rays indoors and outdoors to kill bacteria in the room and act beneficially to the human body. It is

Multi-layered glass window that bonds the crushed charcoal to glass plate, UV-blocking, electromagnetic wave blocking, noise shielding, heat insulation, building glass window, 80% of crushed charcoal grains, starch starch or rice flour 15% and starch syrup 5% Spray glass, charcoal-coated outdoor glass plate (4), charcoal-coated outdoor glass plate (2) double-glazed glass interior space (1), provides excellent heating effect in winter season, excellent electromagnetic shielding, noise Excellent offsetting vibration, shielding the outside temperature, energy saving effect, no condensation on the glass surface in contact with the inner space of the multilayer glass (1), pulverized char grains (5), (6) emits far infrared rays indoors and out ,

Description

Multi-layered glass window that bonds the crushed charcoal to glass plate to provide UV protection, electromagnetic wave blocking, noise shielding and heat insulation

The present invention is to bond the crushed charcoal to the glass plate as a multi-layered glass window that functions to block UV rays, electromagnetic wave blocking, noise shielding and heat insulation, it is to use as a glass window of the building

Generally, laminated glass is used as 16mm / 18mm.

The structure of the multilayer glass is made by inserting dry air or argon gas after placing two spaces between the single glass sheets using a material called pipe rod and then injecting dry air or argon gas.

Conventional double-glazed windows have the disadvantage that ultraviolet rays harmful to the human body pass through the windows and are radiated into the room, and the energy loss of glass windows in buildings has a disadvantage of about 45%.

In addition, there is no electromagnetic wave blocking function and almost no noise shielding function is very harmful to the human body

In addition, there is a drawback that almost no condensation prevention function.

In addition, there is a disadvantage that the energy loss is very large due to the poor thermal insulation function.

"According to the energy complex data,"

Figure 112012500615015-PAT00001

"There are drawbacks to energy losses depending on the type of window as shown below."

Figure 112012500615015-PAT00002

The present invention relates to a multi-layered glass window bonded to the crushed charcoal granules on the glass plate, UV protection, electromagnetic wave blocking, noise shielding and heat insulation

In order to solve the above-mentioned problems, to eliminate the inner element as possible, and to provide a multi-layered glass window by bonding the pulverized char grains to the glass plate, UV protection, electromagnetic wave blocking, noise shielding and heat insulation.

The present invention is a multi-layered glass window that adheres the crushed charcoal to the glass plate and has a UV protection, electromagnetic shielding, noise shielding and heat insulation function. Derived and provided double glazed windows

The present invention is a multi-layered glass window that adheres the crushed charcoal to the glass plate, UV blocking, electromagnetic wave blocking, noise shielding and heat insulation,

The ultraviolet rays of the sunlight are irradiated to the charcoal-bonded outdoor glass plate 4, and then passed through the glass plate, and then absorbed by the pulverized charcoal grains 6 and 5 to generate heat, thereby enclosing the air in the enclosed multilayer glass interior space 1. Has the advantage of providing excellent heating effect in winter

In addition, it has the advantage of excellent function of blocking the electromagnetic waves harmful to the human body generated from outdoors or indoors.

In addition, there is an advantage that the noise and vibration is excellently offset to improve the pleasant environment.

In addition, the temperature of the outside air delivered through the glass plate during the winter season is primarily shielded by the charcoal (6) structured on the outdoor glass plate (4) to which the charcoal is bonded

The air layer staying in the inner space 1 of the multilayer glass is shielded secondaryly.

The ground charcoal (5) of the indoor glass plate (2) to which the charcoal particles are bonded has an advantage of excellent energy saving effect by shielding the outside temperature in a third order.

In addition, in the indoor cooling in summer, the ground charcoal (5) structured on the indoor glass plate (2) to which the charcoal particles are bonded to prevent the indoor cold and cold from being lost outdoors,

Advantages of excellent energy saving effect due to secondary shielding of the air layer staying in the multi-layered glass interior space (1) and crushed charcoal (6) of the interior glass plate (4) to which the charcoal particles are bonded. There is this

In addition, the dew condensation caused by the temperature difference between the inside and the outside of the glass plate is excellent in that the condensation of the charcoal (5), (6) is absorbed by the condensation does not occur in the glass surface in contact with the interior glass (1) have

In addition, the pulverized charcoal (5), 6 is bonded to the outdoor glass plate (4) to which the charcoal is bonded is characterized in that it emits far-infrared rays to the outside and indoors to kill bacteria in the room and act beneficially to the human body. There is one advantage

In addition, the pulverized char grains (5), (6) has an advantage of excellent function by absorbing the argon gas injected into the multilayer glass interior space (1) to prevent escape from the multilayer glass interior space (1).

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

1 is a multi-layered glass window structure diagram to bond the crushed charcoal granules to the glass plate according to the present invention, UV protection, electromagnetic wave blocking, noise shielding and heat insulation,

"In detail, it looks like this"

The present invention is to bond the crushed charcoal to the glass plate as a multi-layered glass window that functions to block UV rays, electromagnetic wave blocking, noise shielding and heat insulation, it is to use as a glass window of the building

The present invention is a mixture of crushed charcoal granule 80%, starch starch or rice flour 15% and starch syrup 5% by spraying and bonding to a glass plate by using a charcoal function of UV protection, electromagnetic shielding, noise shielding and insulation function As a means to derive

The sintered charcoal grains (6) and (5) of the indoor glass plate (4) bonded with the charcoal grains to the window frame (3) grooves and the indoor glass plate (2) with the charcoal grains are inserted to face each other and sealed so that the interior of the multilayer glass To form a space (1)

According to the present invention, ultraviolet rays of solar rays are irradiated to a charcoal bonded outdoor glass plate (4) and passed through a glass plate, and then absorbed by pulverized charcoal grains (6) and (5) to generate heat, thereby enclosing a multilayer glass interior space (1). To provide excellent heating effect in winter

In addition, by absorbing the electromagnetic waves generated outside or indoors harmful to the human body by the electromagnetic wave absorption function of the charcoal of the crushed charcoal grains (6), (5) to excellently block the electromagnetic waves.

In addition, the noise vibration generated in the surroundings is absorbed by the fine pores structured in the charcoal pellets (6) and (5) while striking against the charcoal pellets (6) and (5), and excellently offsets the noise and vibration to improve the pleasant environment. to be

In addition, the temperature of the outside air delivered through the glass plate in the same time period is the air layer staying in the interior space (1) of the multilayer glass after the charcoal (6) structured on the outdoor glass plate 4 to which the charcoal particles are first shielded. This secondary shielding and crushed charcoal (5) of the indoor glass plate (2) to which the charcoal is bonded is the third to shield the outside temperature is excellent energy saving effect.

In addition, the indoor temperature transmitted through the glass plate is shielded primarily by the crushed charcoal grains (5) structured on the indoor glass plate (2) to which the charcoal grains are bonded in order to prevent the indoor cooling temperature from being lost in the indoor cooling in the summer. and

After the air layer staying in the double-layered glass interior space (1) is secondarily shielded, the crushed charcoal (6) of the interior glass plate (4) to which the charcoal particles are bonded is thirdly shielded to room temperature, so the energy saving effect is excellent. will be

In addition, the dew condensation caused by the temperature difference between the inside and the outside of the glass plate is excellently derived from the condensation of the charcoal granules (5), (6) to avoid the condensation on the glass surface in contact with the interior space (1) of the multilayer glass.

In addition, the pulverized charcoal (5), 6 is bonded to the outdoor glass plate (4) to which the charcoal is bonded is characterized in that it emits far-infrared rays to the outside and indoors to kill bacteria in the room and act beneficially to the human body. It is

In addition, argon gas is injected into the multilayer glass inner space (1) to increase the thermal insulation effect.

In addition, by mixing the crushed charcoal grains 90% and the liquid glass 10% by spraying and bonding to the glass plate to produce an outdoor glass plate (4) bonded with charcoal grains and an indoor glass plate (2) bonded with charcoal grains.

1 is a multi-layered glass window structure diagram by bonding the crushed charcoal granules to the glass plate according to the present invention, UV protection, electromagnetic wave blocking, noise shielding and heat insulation

※ Explanation of symbols in main part of drawing

1: interior space of multilayer glass 2: interior glass board with coal particles

3: window frame 4: outdoor glass board with coal particles

5: crushed charcoal 6: crushed charcoal

Claims (11)

The present invention is to bond the crushed charcoal to the glass plate as a multi-layered glass window that functions to block UV rays, electromagnetic wave blocking, noise shielding and heat insulation, it is to use as a glass window of the building The present invention is a mixture of crushed charcoal granules 80%, starch starch or rice flour 15% and starch syrup 5% by spray-bonding to the glass plate by the charcoal bonded outdoor glass plate (4) and the charcoal particles indoor glass plate (2) To manufacture 90% of the crushed charcoal powder and 10% of liquid glass are mixed and sprayed onto the glass plate to prepare the outdoor glass plate 4 and the indoor glass plate 2 to which the charcoal particles are bonded. The sintered charcoal grains (6) and (5) of the indoor glass plate (4) bonded with the charcoal grains to the window frame (3) grooves and the indoor glass plate (2) with the charcoal grains are inserted to face each other and sealed so that the interior of the multilayer glass Multi-layered glass window that bonds the crushed charcoal grains to the glass plate to form the space (1), and blocks UV rays, electromagnetic waves, noise shielding and heat insulation. The method of claim 1 Ultraviolet rays of the sun's rays are irradiated to the charcoal bonded outdoor glass plate (4) and passed through the glass plate, and then absorbed by the pulverized charcoal grains (6) and (5) to generate heat, thereby enclosing the air in the multi-layered glass interior space (1). Multi-layered glass window that combines crushed charcoal grains to glass plate to provide excellent heating effect in winter season by UV protection, UV blocking, electromagnetic wave blocking, noise shielding and heat insulation The method of claim 1 Crushed charcoal, characterized by absorbing electromagnetic waves harmful to the human body generated from outdoors or indoors by absorbing the electromagnetic waves of the charcoal of the crushed charcoal grains (6) and (5). Multi-layered glass window that adheres the grains to the glass plate for UV protection, electromagnetic wave blocking, noise shielding and heat insulation The method of claim 1 Noise vibration generated in the surrounding area is absorbed by the fine pores structured in the charcoal pellets (6) and (5) while striking the charcoal pellets (6) and (5). Multi-layered glass window that bonds crushed charcoal grains to glass plate to block UV rays, electromagnetic waves, noise shielding and heat insulation The method of claim 1 The temperature of the outside air delivered through the glass plate in the same cold season is primarily shielded by the charcoal 6 structured on the outdoor glass plate 4 to which the charcoal is bonded. The air layer staying in the multi-layered glass interior space (1) is secondarily shielded, and the ground charcoal (5) of the interior glass plate (2) to which the charcoal particles are bonded is thirdly shielded from the outside air temperature for excellent energy saving effect. Multi-layered glass window, which is characterized by adhering the crushed charcoal grains to the glass plate to block UV rays, electromagnetic waves, noise shielding and heat insulation The method of claim 1 The indoor temperature transmitted through the glass plate is shielded primarily by the charcoal grains (5) structured on the charcoal-bonded glass plate (2) so that the indoor cooling temperature is not lost to the outside in the indoor cooling in the summer. After the air layer staying in the double-layered glass interior space (1) is secondarily shielded, the crushed charcoal (6) of the interior glass plate (4) to which the charcoal particles are bonded is thirdly shielded to room temperature, so the energy saving effect is excellent. Characterized by Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation The method of claim 1 The dew condensation caused by the temperature difference between the inside and the outside of the glass plate is excellently derived from the condensation of the charcoal grains (5) and (6) so that the condensation does not occur on the glass surface in contact with the multilayer glass inner space (1). Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation The method of claim 1 The ground charcoal (5) and (6), which are bonded to the outdoor glass plate (4) to which the charcoal particles are bonded and the indoor glass plate (2) to which the charcoal particles are bonded, are disposed to kill indoor bacteria by emitting far-infrared rays indoors and out. Multi-layered glass window that bonds the crushed charcoal grains to the glass plate, which is beneficial to the human body The method of claim 1 A charcoal-coated outdoor glass plate (4) and a charcoal-coated indoor glass plate (2) are prepared by mixing and kneading 80% of crushed charcoal granules, 15% of starch or rice flour, and 5% starch syrup. Multi-layered glass window that bonds the crushed charcoal grains to the glass plate for UV protection, electromagnetic wave blocking, noise shielding and heat insulation The method of claim 1 Crushed charcoal, characterized by a charcoal-bonded outdoor glass plate (4) and a charcoal-coated indoor glass plate (2) prepared by mixing crushed charcoal grains (90%) and liquid glass (10%) and spraying them onto a glass plate. Multi-layered glass window that adheres the grains to the glass plate for UV protection, electromagnetic wave blocking, noise shielding and heat insulation The method of claim 1 Multi-layered glass window with UV protection, electromagnetic wave blocking, noise shielding, and heat insulation by adhering crushed charcoal to glass plate by injecting argon gas into the multilayer glass inner space (1) to increase the insulation effect
KR1020120015905A 2012-02-15 2012-02-15 Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation KR20120031979A (en)

Priority Applications (1)

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KR1020120015905A KR20120031979A (en) 2012-02-15 2012-02-15 Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation

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KR1020120015905A KR20120031979A (en) 2012-02-15 2012-02-15 Multi-layered glass window that bonds crushed charcoal to glass plate to block UV rays, electromagnetic waves, noise and heat insulation

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104678548A (en) * 2015-02-10 2015-06-03 华南理工大学 Dual-layer light regulating glass with inner microstructure

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104678548A (en) * 2015-02-10 2015-06-03 华南理工大学 Dual-layer light regulating glass with inner microstructure

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