Single glass panel for fire door and double glazed glass panel for fire door
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E06B-005/16
C03C-017/245
C03C-017/09
C03C-027/06
E06B-003/67
E06B-003/66
출원번호
US-0355358
(2012-10-29)
등록번호
US-9957193
(2018-05-01)
우선권정보
JP-2011-240423 (2011-11-01)
국제출원번호
PCT/JP2012/077899
(2012-10-29)
국제공개번호
WO2013/065641
(2013-05-10)
발명자
/ 주소
Hisada, Takashi
Suzuki, Kazuyuki
Nishikawa, Sachiko
Yokota, Takashi
출원인 / 주소
Nippon Sheet Glass Company, Limited
대리인 / 주소
Muncy, Geissler, Olds & Lowe, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A single glass panel for a fire door and a double glazed glass panel for a fire door that have a fireproofness with which the glass sheet passes an international standard ISO 0834 flame insulating performance test and are as inexpensive as possible. For example, the single glass panel for a fire doo
A single glass panel for a fire door and a double glazed glass panel for a fire door that have a fireproofness with which the glass sheet passes an international standard ISO 0834 flame insulating performance test and are as inexpensive as possible. For example, the single glass panel for a fire door is obtained by forming a heat reflecting coating with a low emissivity on at least one surface of a glass sheet that is a heat strengthened glass sheet or is more thermally strengthened than a heat strengthened glass sheet, and the double glazed glass panel for a fire door includes a first glass sheet (2B) obtained by forming a heat reflecting coating (4) with an emissivity of 0.07 or less on at least one surface of a glass sheet that is a heat strengthened glass sheet or is more thermally strengthened than a heat strengthened glass sheet and a second glass sheet (2C) that is a heat strengthened glass sheet or is a glass sheet more thermally strengthened than a heat strengthened glass sheet, the first glass sheet (2B) and the second glass sheet (2C) being arranged to face each other with a gap therebetween such that at least one layer of said heat reflecting coating (4) is placed between the two glass sheets (2B) and (2C).
대표청구항▼
1. A double glazed glass panel for a fire door, comprising: a first glass sheet that has two surfaces, at least one of the surfaces being obtained by forming a first heat reflecting coating thereon, and of which a surface compressive stress is 20 MPa or more and less than 80 MPa; anda second glass s
1. A double glazed glass panel for a fire door, comprising: a first glass sheet that has two surfaces, at least one of the surfaces being obtained by forming a first heat reflecting coating thereon, and of which a surface compressive stress is 20 MPa or more and less than 80 MPa; anda second glass sheet that has two surface, at least one of the surfaces being obtained by forming a second heat reflecting coating thereon, and of which a surface compressive stress is 20 MPa or more and less than 80 MPa, whereinthe first glass sheet and the second glass sheet are arranged in parallel to face each other with a gap therebetween such that these surfaces on which the first and second heat reflecting coatings are formed are inside, these surfaces being defined as inner surfaces of the first and second glass sheets,emissivities of the first and second heat reflecting coatings are set to be 0.07 or less, andeach of the first and second heat reflecting coatings is formed with at least two layers of silver, which are defined as a lower Ag layer and an upper Ag layer,the lower Ag layer is directly deposited on the inner surface of each of the first and second glass sheets such that no layer intervenes between the lower Ag layer and the inner surface,under a condition where a test flame is placed at either side of the first glass sheet or the second glass sheet, the double glazed glass panel satisfies the ISO 0834 flame insulating performance test. 2. The double glazed glass panel for the fire door according to claim 1, wherein the surface compressive stress of the first glass sheet and the surface compressive stress of the second glass sheet are both less than 60 MPa. 3. The double glazed glass panel for the fire door according to claim 2, wherein the emissivities of the first and second heat reflecting coatings are 0.03 or more. 4. The double glazed glass panel for the fire door according to claim 3, wherein no heat reflecting coating is formed on the other surface of the first glass sheet, which is opposite to the one of the surfaces on which the first heat reflecting coating is formed, andno heat reflecting coating is formed on the other surface of the second glass sheet, which is opposite to the one of the surfaces on which the second heat reflecting coating is formed. 5. The double glazed glass panel for the fire door according to claim 1, further comprising: a spacer that has a predetermined width, whereinthe spacer is sandwiched between the first and second glass sheets, surrounding edges of the first and second glass sheets, and being sealed to the first and second glass sheets such that a sealed air layer is formed inside the spacer, andwhen thicknesses of the first glass sheet, the air layer and the second glass sheet are respectively represented with T1, A1, T2, these thicknesses (T1, A1, T2) satisfy follow: T1:A1:T2=1:2 or more:1. 6. The double glazed glass panel for the fire door according to claim 5, wherein the thickness of the air layer is ranged between 6 mm and 12 mm. 7. The double glazed glass panel for the fire door according to claim 5, wherein the surface compressive stress of the first glass sheet and the surface compressive stress of the second glass sheet are both less than 60 MPa. 8. The double glazed glass panel for the fire door according to claim 5, wherein the other of the first and second heat reflecting coatings has the emissivity that is set to be 0.07 or less, andthe first and second heat reflecting coatings are both formed with two or more layers of silver. 9. The double glazed glass panel for the fire door according to claim 8, wherein the thickness of the air layer is ranged between 6 mm and 12 mm. 10. The double glazed glass panel for the fire door according to claim 9, wherein the surface compressive stress of the first glass sheet and the surface compressive stress of the second glass sheet are both less than 60 MPa. 11. The double glazed glass panel for the fire door according to claim 10, wherein the emissivities of the first and second heat reflecting coatings are 0.03 or more. 12. The double glazed glass panel for the fire door according to claim 10, wherein no heat reflecting coating is formed on the other surface of the first glass sheet, which is opposite to the one of the surfaces on which the first heat reflecting coating is formed, andno heat reflecting coating is formed on the other surface of the second glass sheet, which is opposite to the one of the surfaces on which the second heat reflecting coating is formed. 13. The double glazed glass panel for the fire door according to claim 1, wherein the upper Ag layer is directly deposited on the lower Ag layer of each of the first and second glass sheets such that no layer intervenes between the upper Ag layer and the lower Ag layer. 14. The double glazed glass panel for the fire door according to claim 13, further comprising: a spacer that has a predetermined width, whereinthe spacer is sandwiched between the first and second glass sheets, surrounding edges of the first and second glass sheets, and being sealed to the first and second glass sheets such that a sealed air layer is formed inside the spacer, andwhen thicknesses of the first glass sheet, the air layer and the second glass sheet are respectively represented with T1, A1, T2, these thicknesses (T1, A1, T2) satisfy follow: T1:A1:T2=1:2 or more:1.
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Wang, Yei-Ping (Mimi) H.; Thomsen, Scott V., Vacuum IG window unit with edge seal at least partially diffused at temper and completed via microwave curing, and corresponding method of making the same.
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