IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0522723
(2003-07-30)
|
등록번호 |
US-8196432
(2012-06-12)
|
우선권정보 |
FR-02 09728 (2002-07-31) |
국제출원번호 |
PCT/FR03/02414
(2003-07-30)
|
§371/§102 date |
20050920
(20050920)
|
국제공개번호 |
WO2004/013056
(2004-02-12)
|
발명자
/ 주소 |
- Jacques, Remi
- Jeanvoine, Pierre
- Palmieri, Biagio
|
출원인 / 주소 |
- Saint-Gobain Glass France
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
12 |
초록
▼
The invention relates to a furnace for the continuous melting of a composition comprising silica, the said furnace comprising at least two tanks in series, said tanks each comprising at least one burner submerged in the melt. The invention also relates to the process for manufacturing compositions c
The invention relates to a furnace for the continuous melting of a composition comprising silica, the said furnace comprising at least two tanks in series, said tanks each comprising at least one burner submerged in the melt. The invention also relates to the process for manufacturing compositions comprising silica using the furnace, the silica and the fluxing agent for the silica being introduced into the first tank. The invention makes it possible to produce glass color frits, tile frits and enamel with a high productivity, low temperatures and short transition times.
대표청구항
▼
1. A process for the continuous preparation of a composition comprising 10 to 70% SiO2, by weight, and 0.3 to 30% Na2O, by weight, in a furnace comprising at least two tanks in series, said process comprising introducing most of the silica (SiO2) and at least one fluxing agent for the silica into a
1. A process for the continuous preparation of a composition comprising 10 to 70% SiO2, by weight, and 0.3 to 30% Na2O, by weight, in a furnace comprising at least two tanks in series, said process comprising introducing most of the silica (SiO2) and at least one fluxing agent for the silica into a first tank comprising at least one submerged burner, melting most of the silica in the first tank, transferring the silica to a second tank comprising at least one submerged burner, and introducing into the second tank at least one powder selected from the group consisting of a thinner, a metal oxide, and mixtures thereof, wherein the metal oxide is selected from the group consisting of oxides of chromium, cobalt, copper, nickel, selenium, zirconium, titanium, manganese, praseodymium, iron, zinc and mixtures thereof, and wherein the first tank is heated to a higher temperature than the other tank(s) of the furnace, the temperature difference between the first tank and the other tank or tanks is at least 80° C., the first tank is heated to a temperature ranging from 1000 to 1350° C., and the other tank or tanks are heated to a temperature of at most 1150° C. 2. The process as claimed in claim 1, wherein at least 90% of the silica and at least 90% of the fluxing agent for the silica are introduced into the first tank. 3. The process as claimed in claim 2, wherein the furnace is fed with a thinner, at least 90% of which is introduced into the second tank of the furnace. 4. The process as claimed in claim 1, wherein the first tank is heated to a temperature ranging from 1230 to 1350° C. 5. The process as claimed in claim 1, wherein the composition comprises, 5 to 30% B2O3, by weight, and 0.3 to 35%, by weight, of said metal oxide. 6. The process as claimed in claim 5, wherein the final composition is a frit, comprising 40 to 70% SiO2, by weight, 20 to 30% Na2O, by weight, 5 to 15% B2O3, by weight, and 3 to 20%, by weight, of said metal oxide. 7. The process as claimed in claim 1, wherein at least one oxide of a metal is introduced into the second tank of the furnace. 8. The process as claimed in claim 7, wherein the furnace comprises at least three tanks in series, the second being heated to a temperature ranging from 1000° to 1150° C., and the third to a temperature ranging from 900° to 1000° C. 9. The process as claimed in claim 8, wherein the oxide has several oxidation states, and the submerged burner(s) of the third tank has/have a sufficiently oxidizing flame for the oxidation state of the oxide to be raised on going, from the second to the third tank. 10. The process as claimed in claim 1, wherein the composition is a color frit or a tile frit or an enamel. 11. The process as claimed in claim 1, further comprising conveying the composition comprising silica from the furnace to a radiation-heated feeder. 12. A process for the continuous preparation of a composition comprising silica in a furnace comprising at least two tanks in series, said process comprising introducing most of the silica and at least one fluxing agent for the silica into a first tank comprising at least one submerged burner, melting most of the silica in the first tank, transferring the silica to a second tank comprising at least one submerged burner, and introducing into the second tank at least one oxide selected from the group consisting of boron oxide, zinc oxide and selenium oxide, wherein the first tank is heated to a higher temperature than the other tank(s) of the furnace, the temperature difference between the first tank and the other tank or tanks is at least 80° C., the first tank is heated to a temperature ranging from 1000 to 1350° C., and the other tank or tanks are heated to a temperature of at most 1150° C., and wherein the composition comprises 10 to 70% SiO2, by weight, 0.3 to 30% Na2O, by weight, 5 to 30% B2O3, by weight, and 0.3 to 35%, by weight, of at least one additional oxide of a metal. 13. The process as claimed in claim 1, further comprising conveying the composition comprising silica from the furnace to a fining zone. 14. A process for the continuous preparation of a composition comprising 10 to 70% SiO2, by weight, and 0.3 to 30% Na2O, by weight, in a furnace comprising at least two tanks in series, said tanks each comprising at least one burner submerged in the melt, said process comprising introducing most of the silica (SiO2) in the form of grains and at least one fluxing agent into the first tank, melting most of the silica and fluxing agent in the first tank to form molten silica, transferring the molten silica to a second tank, and introducing into the second tank at least one thinner or at least one metal oxide, wherein the metal oxide is selected from the group consisting of oxides of chromium, cobalt, copper, nickel, selenium, zirconium, titanium, manganese, praseodymium, iron, zinc and mixtures thereof, and wherein the first tank is heated to a higher temperature than the other tank(s) of the furnace, the first tank is heated to a temperature ranging from 1000 to 1350° C., and the other tank or tanks are heated to a temperature of at most 1150° C. 15. The process as claimed in claim 14, wherein at least 90% of the silica and at least 90% of the fluxing agent for the silica are introduced into the first tank. 16. The process as claimed in claim 15, wherein the furnace is fed with a thinner, at least 90% of which is introduced into the second tank of the furnace. 17. The process as claimed in claim 14, wherein the temperature difference between the first tank and the other tank or tanks is at least 80° C. 18. The process as claimed in claim 17, wherein the first tank is heated to a temperature ranging from 1230 to 1350° C. 19. The process as claimed in claim 14, wherein the composition comprises, 5 to 30% B2O3, by weight, and 0.3 to 35%, by weight, of said metal oxide. 20. The process as claimed in claim 19, wherein the final composition is a frit, comprising 40 to 70% SiO2, by weight, 20 to 30% Na2O, by weight, 5 to 15% B2O3, by weight, and 3 to 20%, by weight, of said metal oxide. 21. The process as claimed in claim 14, wherein at least one oxide of a metal is introduced into the second tank of the furnace. 22. The process as claimed in claim 21, wherein the furnace comprises at least three tanks in series, the second being heated to a temperature ranging from 1000° to 1150° C., and the third to a temperature ranging from 900° to 1000° C. 23. The process as claimed in claim 22, wherein the oxide has several oxidation states, and the submerged burner(s) of the third tank has/have a sufficiently oxidizing flame for the oxidation state of the oxide to be raised on going, from the second to the third tank. 24. The process as claimed in claim 14, wherein the composition is a color frit or a tile frit or an enamel. 25. The process as claimed in claim 14, wherein said furnace comprises at least three tanks in series and each tank comprises at least one submerged burner. 26. The process as claimed in claim 12, further comprising conveying the composition comprising silica from the furnace to a radiation-heated feeder. 27. The process as claimed in claim 12, further comprising conveying the composition comprising silica from the furnace to a fining zone. 28. A process for the continuous preparation of a composition comprising 10 to 70% SiO2, by weight, and 0.3 to 30% Na2O, by weight, in a furnace comprising at least two tanks in series, said process comprising introducing most of the silica (SiO2) and at least one fluxing agent for the silica into a first tank comprising at least one submerged burner, melting and homogenizing most of the silica in the first tank, transferring the silica to a second tank comprising at least one submerged burner, introducing into the second tank at least one powder selected from the group consisting of a thinner, a metal oxide, and mixtures thereof, wherein the metal oxide is selected from the group consisting of oxides of chromium, cobalt, copper, nickel, selenium, zirconium, titanium, manganese, praseodymium, iron, zinc and mixtures thereof, and homogenizing the contents of the second tank, wherein the first tank is heated to a higher temperature than the other tank(s) of the furnace, the temperature difference between the first tank and the other tank or tanks is at least 80° C., the first tank is heated to a temperature ranging from 1000 to 1350° C., and the other tank or tanks are heated to a temperature of at most 1150° C. 29. A process for the continuous preparation of a composition comprising 50 to 70% Bi2O3, by weight, 15 to 30% SiO2 (silica) by weight, 1 to 13% B2O3, by weight, 0.5 to 7% Na2O, by weight, and 0.5 to 7% Al2O3, by weight, in a furnace comprising at least two tanks in series, said process comprising introducing most of the silica and at least one fluxing agent for the silica into a first tank comprising at least one submerged burner, melting most of the silica in the first tank, transferring the silica to a second tank comprising at least one submerged burner, and introducing into the second tank at least one powder selected from the group consisting of a thinner, a metal oxide, and mixtures thereof, wherein the first tank is heated to a higher temperature than the other tank(s) of the furnace, the temperature difference between the first tank and the other tank or tanks is at least 80° C., the first tank is heated to a temperature ranging from 1000 to 1350° C., and the other tank or tanks are heated to a temperature of at most 1150° C.
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