US2194730A - Process for tempering glass - Google Patents

Process for tempering glass Download PDF

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Publication number
US2194730A
US2194730A US12963A US1296335A US2194730A US 2194730 A US2194730 A US 2194730A US 12963 A US12963 A US 12963A US 1296335 A US1296335 A US 1296335A US 2194730 A US2194730 A US 2194730A
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Prior art keywords
glass
box
metal
sheet
tempering
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US12963A
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Wilson John
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American Securit Co
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American Securit Co
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    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B35/00Transporting of glass products during their manufacture, e.g. hot glass lenses, prisms
    • C03B35/14Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands
    • C03B35/20Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands by gripping tongs or supporting frames
    • C03B35/202Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands by gripping tongs or supporting frames by supporting frames
    • C03B35/205Transporting hot glass sheets or ribbons, e.g. by heat-resistant conveyor belts or bands by gripping tongs or supporting frames by supporting frames the glass sheets being in a vertical position
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B27/00Tempering or quenching glass products
    • C03B27/02Tempering or quenching glass products using liquid
    • C03B27/03Tempering or quenching glass products using liquid the liquid being a molten metal or a molten salt

Definitions

  • This invention relates to an improved process for tempering glass.
  • the glass is heated in a furnace mainly by radiation, the glass beingexposed directly to the hot surfaces and to the hot air or gases in the furnace. It is then cooled by direct application to its surfaces of a cooling medium, usually air in the form of high pressure jets, but sometimes liquids.
  • a cooling medium usually air in the form of high pressure jets, but sometimes liquids.
  • the glass is heated and cooled indirectly through the medium of metal in liquid form, the metal being, preferably, a bismuth alloy.
  • the glass to be tempered is enclosed in a metal box, with metal in liquid form between the walls of the box and the glass, and means are provided whereby the glass is kept approximately central in the box.
  • Figure 1 is a central cross section of the metal box with glass sheet therein;
  • Figure 2 is a side view thereof with the front side removed, the covering being shown above the box in both figures;
  • Figure 3 is a part section similar to that of Figure 1, on a larger scale, showing an alternative so method of holding the glass, and f Figure 4 is a diagrammatic view in elevation of the heating and cooling means.
  • the box is composed of a metal strip lyforming its edge, bowed out at the lower corners 2 and as turning outwardly at the upper corners and ending in hooks 3 by which the box is lifted.
  • the twov sides of the box are two metal plates 4 pressed against the strip l by bolts 5 passing through holes 6 in the plates 4.
  • the cover 1 is provided as with lugs 8 adapted to receive pivoted latches 9 attached to the sides 4.
  • the box is filled with molten metal (not shown) which is preferably a fusible alloy of melting point sufficiently low to permit a 'cold glass sheet to be inserted into it when molten.
  • the glass plate I0 is caused to occupy a central position in the box by thin sheet metal pieces.
  • edge pieces consisting of V strips l5 secured to vertical strips I 6 which are lowered into the box to engage hooks II on the strip l, and their upper ends sprung under the projections I8 on the sides 4.
  • V strips l5 of lengths suited todifferent lengths-of sheets can readily be put inplace in the box. By reason of the inclined V strips, the sheet finds a central 'positlon-endwise as it is pressed into the box.
  • the glass may be fixed centrally in a frame adapted to fitinside the box, and the. frame with the glass inserted into the molten metal in the box.
  • the glass may be suspended in the molten metal from below by any suitable suspension device attached to the bottom of the box, such, for instance, as the hooks commonlyemployed for suspending glass sheets in air for tempering.
  • This device is shown in Figure 3, in which -the tongs l9 are attached to the brackets 20 on the bottom strip l. Above the usual points 2
  • the box, suspended by rods 23 from a bar 24 is lowered by any, convenient lifting and transporting means into the furnace 25,'which is sunk below the floor level.
  • the molten bath and the glass within the box is then heated to a temperature near the softening point of the glass.
  • the box is lifted out of the furnace and brought into the cooling device consisting of a pair of grids composed of pipes 26 fed with water through the pipe 21, adapted to spray water on the sides of the box.
  • uniformity in cooling is not so essential as in the case of cooling applied directly to the surface of the glass, and the cooling may be applied by dipping the box into water. The cooling is stopped before the temperature of the box has reached the solidifying point of the molten metal, and the glass sheet is then removed from the still molten metal.
  • the edges of the box are cooled equally with the sides, as in cooling by immersion in water, the edges are preferably bowed out at the corners as shown in Figure 2 so as to provide a larger amount of molten metal round the comers of the sheet and thus prevent excessive cooling from the edges of the box.
  • the glass may be covered with a layer of protective material, as for instance, by smoking it, before inserting it into the metal.
  • the method of tempering glass which comprises immersing a glass article in a molten metallic bath having a melting point below the strain point of said glass, thereafter heating the bath and the glass article to a temperature near the softening point of the glass and subsequently chilling the glass article to a temperature below the strain point of said glass.
  • the method of tempering glass which comprises immersing a glass article in a molten metallic bath having a melting point below the strain point of said glass, thereafter heating the bath and the glass article to a temperature near the softening point of the glass and subsequently chilling the bath with the immersed glass article to a temperature below the strain point of the glass and above the melting point of the metal.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Re-Forming, After-Treatment, Cutting And Transporting Of Glass Products (AREA)

Description

March 26, 1940. J. WILSON PROCESS FOR .TEMPERING GLASS Filed March 25, 1935 Patented MarJZG, 1940 PATENT orrica PROCESS FOR TEMPERING GLASS John Wilson, Birmingham, England, assignor to The American Securit Company, Wilmington,
Del.
Application March 25,
1935, Serial No. 12,963
In Great Britain March 29, 1934 2 Claims.
This invention relates to an improved process for tempering glass.
In the process now commonly used for tempering glass, the glass is heated in a furnace mainly by radiation, the glass beingexposed directly to the hot surfaces and to the hot air or gases in the furnace. It is then cooled by direct application to its surfaces of a cooling medium, usually air in the form of high pressure jets, but sometimes liquids.
According to .the invention, the glass is heated and cooled indirectly through the medium of metal in liquid form, the metal being, preferably, a bismuth alloy. The glass to be tempered is enclosed in a metal box, with metal in liquid form between the walls of the box and the glass, and means are provided whereby the glass is kept approximately central in the box.
In the following, the invention will be described as applied to the tempering of a. flat sheet of glass.
In the accompanying drawing:
Figure 1 is a central cross section of the metal box with glass sheet therein;
9 Figure 2 is a side view thereof with the front side removed, the covering being shown above the box in both figures;
Figure 3 is a part section similar to that of Figure 1, on a larger scale, showing an alternative so method of holding the glass, and f Figure 4 is a diagrammatic view in elevation of the heating and cooling means.
The box is composed of a metal strip lyforming its edge, bowed out at the lower corners 2 and as turning outwardly at the upper corners and ending in hooks 3 by which the box is lifted. The twov sides of the box are two metal plates 4 pressed against the strip l by bolts 5 passing through holes 6 in the plates 4. The cover 1 is provided as with lugs 8 adapted to receive pivoted latches 9 attached to the sides 4. The box is filled with molten metal (not shown) which is preferably a fusible alloy of melting point sufficiently low to permit a 'cold glass sheet to be inserted into it when molten. The glass plate I0 is caused to occupy a central position in the box by thin sheet metal pieces. Two such pieces I lof Y shape are fixed to the strip I at the bottom, so that the glass, when pressed down on them finds a central poso sition. Two similar pieces l2 pass through slots in the cover I and are prevented from rising by pins l3.eaoh passed through one of the holes l4 in the pieces which afford a means of adjustment of the length of piece l2 below the cover I. The glass sheet is inserted into the molten metal in the sheet does not remain partially submerged .for an appreciable time. By means of the Y pieces ii and H, the sheet then occupies a position central in regard to the sides 4. centrality in regard to the edges is ensured by edge pieces consisting of V strips l5 secured to vertical strips I 6 which are lowered into the box to engage hooks II on the strip l, and their upper ends sprung under the projections I8 on the sides 4. V strips l5 of lengths suited todifferent lengths-of sheets can readily be put inplace in the box. By reason of the inclined V strips, the sheet finds a central 'positlon-endwise as it is pressed into the box.
Alternatively, the glass may be fixed centrally in a frame adapted to fitinside the box, and the. frame with the glass inserted into the molten metal in the box.
Alternatively, the glass may be suspended in the molten metal from below by any suitable suspension device attached to the bottom of the box, such, for instance, as the hooks commonlyemployed for suspending glass sheets in air for tempering. This device is shown in Figure 3, in which -the tongs l9 are attached to the brackets 20 on the bottom strip l. Above the usual points 2|, for gripping the glass, the tong arms 22 are splayed outwards, so that the glass sheet opens them when pushed downwards into the molten metal. Since the specific gravity of a fusible alloy is about ID, the tongs, made of steel will hang upwardly and so will automatically close on the glass, just as they do when hanging downwardly in air. r
The box, suspended by rods 23 from a bar 24 is lowered by any, convenient lifting and transporting means into the furnace 25,'which is sunk below the floor level. The molten bath and the glass within the box is then heated to a temperature near the softening point of the glass. After heating, the box is lifted out of the furnace and brought into the cooling device consisting of a pair of grids composed of pipes 26 fed with water through the pipe 21, adapted to spray water on the sides of the box.
,The furnace need not necessarily be of the type hitherto used in tempering glass, which is especially designed to heat the. glass uniformly,
but may be a more economical furnace, such as 55] a gas fired furnace, since the heat applied to the outer surface of the box tends to be uniformly distributed over the glass sheet, by reason both of conduction in the metal and convection currents in the molten metal.
Further, uniformity in cooling is not so essential as in the case of cooling applied directly to the surface of the glass, and the cooling may be applied by dipping the box into water. The cooling is stopped before the temperature of the box has reached the solidifying point of the molten metal, and the glass sheet is then removed from the still molten metal.
When the means employed for cooling are such that the edges of the box are cooled equally with the sides, as in cooling by immersion in water, the edges are preferably bowed out at the corners as shown in Figure 2 so as to provide a larger amount of molten metal round the comers of the sheet and thus prevent excessive cooling from the edges of the box.
To avoid injury to the surface of the glass by the molten metal, the glassmay be covered with a layer of protective material, as for instance, by smoking it, before inserting it into the metal.
Having described my invention, I declare that what I claim is: P
1. The method of tempering glass which comprises immersing a glass article in a molten metallic bath having a melting point below the strain point of said glass, thereafter heating the bath and the glass article to a temperature near the softening point of the glass and subsequently chilling the glass article to a temperature below the strain point of said glass.
2. The method of tempering glass which comprises immersing a glass article in a molten metallic bath having a melting point below the strain point of said glass, thereafter heating the bath and the glass article to a temperature near the softening point of the glass and subsequently chilling the bath with the immersed glass article to a temperature below the strain point of the glass and above the melting point of the metal.
JOHN WILSON.
US12963A 1934-03-29 1935-03-25 Process for tempering glass Expired - Lifetime US2194730A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444972A (en) * 1942-03-30 1948-07-13 Libbey Owens Ford Glass Co Apparatus for tempering glass sheets or plates
US2553945A (en) * 1939-07-13 1951-05-22 American Securit Co Apparatus for tempering glass objects, particularly plate glass
US2850844A (en) * 1955-12-27 1958-09-09 Libbey Owens Ford Glass Co Method and apparatus for heating and bending glass sheets
US2981563A (en) * 1959-01-14 1961-04-25 Pittsburgh Plate Glass Co Supporting glass sheets
US3451797A (en) * 1966-04-12 1969-06-24 Max Meth Method of tempering glass
US3768992A (en) * 1971-02-22 1973-10-30 American Optical Corp Toughening of ophthalmic lens blanks
US4361433A (en) * 1981-03-24 1982-11-30 Advanced Glass Systems Corp. Method of bending a glass sheet

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2553945A (en) * 1939-07-13 1951-05-22 American Securit Co Apparatus for tempering glass objects, particularly plate glass
US2444972A (en) * 1942-03-30 1948-07-13 Libbey Owens Ford Glass Co Apparatus for tempering glass sheets or plates
US2850844A (en) * 1955-12-27 1958-09-09 Libbey Owens Ford Glass Co Method and apparatus for heating and bending glass sheets
US2981563A (en) * 1959-01-14 1961-04-25 Pittsburgh Plate Glass Co Supporting glass sheets
US3451797A (en) * 1966-04-12 1969-06-24 Max Meth Method of tempering glass
US3768992A (en) * 1971-02-22 1973-10-30 American Optical Corp Toughening of ophthalmic lens blanks
US4361433A (en) * 1981-03-24 1982-11-30 Advanced Glass Systems Corp. Method of bending a glass sheet

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