US1137814A - Method of spinning glass. - Google Patents

Method of spinning glass. Download PDF

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US1137814A
US1137814A US71848612A US1912718486A US1137814A US 1137814 A US1137814 A US 1137814A US 71848612 A US71848612 A US 71848612A US 1912718486 A US1912718486 A US 1912718486A US 1137814 A US1137814 A US 1137814A
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glass
drum
threads
glass metal
spinning
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US71848612A
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Gedeon Von Pazsiczky
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    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B37/00Manufacture or treatment of flakes, fibres, or filaments from softened glass, minerals, or slags
    • C03B37/01Manufacture of glass fibres or filaments
    • C03B37/04Manufacture of glass fibres or filaments by using centrifugal force, e.g. spinning through radial orifices; Construction of the spinner cups therefor
    • C03B37/05Manufacture of glass fibres or filaments by using centrifugal force, e.g. spinning through radial orifices; Construction of the spinner cups therefor by projecting molten glass on a rotating body having no radial orifices
    • C03B37/055Manufacture of glass fibres or filaments by using centrifugal force, e.g. spinning through radial orifices; Construction of the spinner cups therefor by projecting molten glass on a rotating body having no radial orifices by projecting onto and spinning off the outer surface of the rotating body

Definitions

  • Patented May a, 1915 Patented May a, 1915.
  • a hitherto commonly used method of spinning glass consists in drawing threads from glass-rods, the ends of which areheated by gas flames or by other burners to such a degree, that the material of the rods becomes viscid and flowing to some extent.
  • the machinery by which this process is mechanically performed consists in a drum rotated at a-high speed and serving to draw out to threads the viscid material from the heated ends of several rods simultaneously.
  • the object of my improved method ofspinning glass contemplates to avoid the main fault or defect of this known method, laying in the necessary strict dependence between the heating of the glass rods and the angular speed of the drawing roller or drum, and with that view the glass threads are drawn, not from heated rods, but from glass-metal and preferably from the melted mass of a glass melting pot or furnace.
  • the threads In the:..practice it is preferred to formthe threads directly from'the glass metal contained in a flaming furnace and in such case a small chamber or a fore-hearth is formed in the furnace room so that the drawing of threads may be effected within this smaller chamber out of direct contact with the flame or combustion gases in the melting room.
  • the drawing of the threads from the glass metal is also in my process effected, as hitherto, by a drum rotated at a Very high speed and provided with one or more wirecombs, the said drum being located above the level of the glass metal in the furnace in such a way that the teeth or fingers of each comb may be fully or partly dipped into the glass metal and then again put out of contact with the latter.
  • the said dipping of the comb, fixed on the drum preferably in a line parallel to the axis of the drum, into the glass metal may be effected either by lowering or displacing in an appropriate manner the drum, or by raising the level of the glass metal to the necessary extent, or by both means simultaneously, as the case may be.
  • Figures 1 and 4 show two various arrangements in connection with a glass melting furnace, in which the drawing drum or drums are located in such a manner that they may be lowered to temporarily dip the combs into the glass metal.
  • Figs. 2 and 3 denote, respectively, a side view and an end view of a drawing drum;
  • Fig. 5 shows an arrangement in which a drawing. drum rotating on a fixed shaft is used, the dipping of the combs being attained by raising the level of the glass metal beneath the drum.
  • Fig. 6 is a detail having reference to the arrangement as per Fig. 5.
  • a drum 3 is located in such a ered to bring the fingers or teeth 4 of a wire-comb (see also Figs. 2 and 3) into or out of contact with the glass metal.
  • This drum is rotated at ahigh speed by means of a pulley 5 and a chain or belt 5 passing from the pulley 5 over a small pulley fixed upon the outer portion of the axis of the drum is put in rotation at a high speed whereby the threads drawn out from the melted mass will be wound-upon the drum in an uninterrupted manner.
  • the drum 3 is full of glass threads, the same is replaced by another and the spun goods removed from it, after cooling, in the usual manner, 2'. e. bycutting and spreading the cylindrical-layer of threads.
  • drum 3 is free from threads and the drum .3 is readytocommence the spinning operathe threads.
  • the arrangement just described allows a practically uninterrupted performance of the spinning process, as will be understood from the above explanations.
  • the length of the drums 3 may be very considerable and therefore a great number of glass threads 7 may be produced within a very short time.
  • a middle tube 11 may be set in communication, by means of a pipe 12, with a receiver containing air or any other appropriate gas or liquid under pressure. The ordinar level of the glass metal is at a-a (Fig.
  • the level in the branch 10 will raise to the line b?), at which level the fingers 4 are partly immersed or dipped into the glass metal on account of the viscosity of the glass the level in 10 will remain raised for a time more than sufficient for permitting proper adhesion of the glass to the bomb 4.
  • the pressure within tube 11 is removed and the level of the glass metal will therefore again return to the lines wa, so that the drawing of threads may be commenced and performed in the manner already described in connection with Figs. 1 and 4.
  • the fingers, pins or teeth 4 may be arranged in one or several parallel rows.
  • the process of spinning glass which comprises exposing a portion of a molten glass batch, maintained in continuity with the body of the batch, to a comb, separating the comb and exposed portlon and drawing 2.
  • the process of spinnin comprises moving a body'of molten glass into contact with a comb, separating the glass body and comb, and drawing 1 the threads.

Description

G. VON PAZSICZKY.
METHOD OF- SPINNING GLASS.
APPLICATION FILED SEPT. 4, 1912.
13 37314., PatentedMay 4,1915.
GEDEON VON PAZSICZK Y, OF RIGA, RUSSIA.
METHOD OF SPINNING GLASS.
Specification of Letters Patent.
Patented May a, 1915.
Application filed September 4, 1912. Serial No. 718,486.
To all whom it may concern:
Be it known that I, Gannon VON PAZ- menu, a subject of the Emperor of Austria- Hungary, residing at 73 Romanoff street, Riga, in the Empire of Russia, have invented certain new and useful Improvements in the Method of Spinning Glass; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable othersskilled in the art to,which it appertains to make and use the same, reference being had to the accompanying drawings, and to letters or figures of reference marked thereon, which form a part of this specification.
A hitherto commonly used method of spinning glass consists in drawing threads from glass-rods, the ends of which areheated by gas flames or by other burners to such a degree, that the material of the rods becomes viscid and flowing to some extent.
The machinery by which this process is mechanically performed consists in a drum rotated at a-high speed and serving to draw out to threads the viscid material from the heated ends of several rods simultaneously.
In this process of spinning glass the threads formed break very often, as the vis cosity of the heated glass depends upon the degree of heating, whereas it is very difficult to strictly coordinate, as necessary, the heating of the glass rods and the speed of the drawing and winding drum. The spinner, who controls the working of the machinery, is obliged to take up the broken threads and to put the same again upon the drawing drum and, as the threads break very often, he is capable of controlling only a small quantity of threads drawn from the ends of a corresponding small number ofiglass rods.- Furthermore it is impossible to manufacture with this process fine and long threads of an equal thickness and with a smooth surface.
The object of my improved method ofspinning glass contemplates to avoid the main fault or defect of this known method, laying in the necessary strict dependence between the heating of the glass rods and the angular speed of the drawing roller or drum, and with that view the glass threads are drawn, not from heated rods, but from glass-metal and preferably from the melted mass of a glass melting pot or furnace. In the:..practice it is preferred to formthe threads directly from'the glass metal contained in a flaming furnace and in such case a small chamber or a fore-hearth is formed in the furnace room so that the drawing of threads may be effected within this smaller chamber out of direct contact with the flame or combustion gases in the melting room. The drawing of the threads from the glass metal is also in my process effected, as hitherto, by a drum rotated at a Very high speed and provided with one or more wirecombs, the said drum being located above the level of the glass metal in the furnace in such a way that the teeth or fingers of each comb may be fully or partly dipped into the glass metal and then again put out of contact with the latter. The melted mass adheres to the said fingers when these become glowing from the heat of the glass metal, and when this occurs the fingers are brought out-ofmontact and the drum put in rotation to draw out the threads The said dipping of the comb, fixed on the drum preferably in a line parallel to the axis of the drum, into the glass metal may be effected either by lowering or displacing in an appropriate manner the drum, or by raising the level of the glass metal to the necessary extent, or by both means simultaneously, as the case may be. a
To fully explain the nature of my invention I have shown on the drawing, by means of some diagrammatic figures, some arrangements for the performance of the new process.
Figures 1 and 4 show two various arrangements in connection with a glass melting furnace, in which the drawing drum or drums are located in such a manner that they may be lowered to temporarily dip the combs into the glass metal. Figs. 2 and 3 denote, respectively, a side view and an end view of a drawing drum; Fig. 5 shows an arrangement in which a drawing. drum rotating on a fixed shaft is used, the dipping of the combs being attained by raising the level of the glass metal beneath the drum. Fig. 6 is a detail having reference to the arrangement as per Fig. 5.
Referring more especially to Fig. 1, there is a wide knee-pipe I inserted into the glass metal 2 assembled in the hearth of the melting furnace, in such a way that'a chamher A leading to the outer air is formed. In this chamber a drum 3 is located in such a ered to bring the fingers or teeth 4 of a wire-comb (see also Figs. 2 and 3) into or out of contact with the glass metal. This drum is rotated at ahigh speed by means of a pulley 5 and a chain or belt 5 passing from the pulley 5 over a small pulley fixed upon the outer portion of the axis of the drum is put in rotation at a high speed whereby the threads drawn out from the melted mass will be wound-upon the drum in an uninterrupted manner. When the drum 3 is full of glass threads, the same is replaced by another and the spun goods removed from it, after cooling, in the usual manner, 2'. e. bycutting and spreading the cylindrical-layer of threads.
With the arrangement shown on Fig. 4 it is possible to perform the described spinning process, practically speaking, without interruptions. In this arrangement several drums (four for instance, as shown) 3*,3, 3, 3 are mounted upon the arms of a frame 7 rotating upon a horizontal shaft 6, which may be raised or lowered within slots 13 provided in its bearings 14. At the moment shown on the drawing the fingers 4 of the drum 3 are dipped into'the melted glass metal of the fore-hearth formed by the wall 1 dipping into the glass metal 2. When the viscid-melted' glass adheres to the glowing finger-s4 of this drum the frame 7 is turned in the direction indicated by the arrow 16 to such an angle, that the said fingers will come out of thema ss; the drum,3'= is then rotated at a high speed from the main shaft 6 of the frame work 7 and when thelayer of threads upon the drum has attained a desired thickness, the rotation is discontinued and the frame 7 raised to such a height that the drum 3 may pass over the' wallf15 when the frame 7 is turnedin the direction "of theerrow'lfito put the drum 3 in the forehear'th. When this 'is effected, the frame 7 is again lowered and the process is repeated with the described drum 3". I
At the moment shown on the Fig. 4 the threads are cooling on the drum 3? and they are removed from the drum 3, whereas the 7 tion.
drum 3 is free from threads and the drum .3 is readytocommence the spinning operathe threads.
The arrangement just described allows a practically uninterrupted performance of the spinning process, as will be understood from the above explanations. The length of the drums 3 may be very considerable and therefore a great number of glass threads 7 may be produced within a very short time.
In the arrangement shown on Figs. 5 and 6 the drum cannot be raised or lowered and the dipping of the fingers 4 into the glass metal is obtained by raising the level of the latter beneath the drum. To that end there is arranged within the furnace a chamber in the shape of two tubes 9 and 10 communicating by a channel 8, one-of these tubes (9) being fully immersed into the glass metal, Whereas the other (10) is open to the outer air. A middle tube 11 may be set in communication, by means of a pipe 12, with a receiver containing air or any other appropriate gas or liquid under pressure. The ordinar level of the glass metal is at a-a (Fig. 6 If compressed air or the like is admitted through the pipe 12, the level in the branch 10 will raise to the line b?), at which level the fingers 4 are partly immersed or dipped into the glass metal on account of the viscosity of the glass the level in 10 will remain raised for a time more than sufficient for permitting proper adhesion of the glass to the bomb 4. As soon as the adhesion'of the glass metal to the glowing fingers 4 has taken place, the pressure within tube 11 is removed and the level of the glass metal will therefore again return to the lines wa, so that the drawing of threads may be commenced and performed in the manner already described in connection with Figs. 1 and 4. v
The fingers, pins or teeth 4 may be arranged in one or several parallel rows.
Having thus fully described my invention, what I claim is: y
1. The process of spinning glass, which comprises exposing a portion of a molten glass batch, maintained in continuity with the body of the batch, to a comb, separating the comb and exposed portlon and drawing 2. The process of spinnin comprises moving a body'of molten glass into contact with a comb, separating the glass body and comb, and drawing 1 the threads. I
In testimony that I claim the foregoing as my invention, I have signed my name in presence of two subscribing witnesses.
GEDEON VON PAZSICZKY.
glass, which i
US71848612A 1912-09-04 1912-09-04 Method of spinning glass. Expired - Lifetime US1137814A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2687363A (en) * 1950-09-16 1954-08-24 Fred W Manning Method and apparatus for the production of filaments and nonwoven fabrics
US3063093A (en) * 1959-07-22 1962-11-13 Johns Manville Method and apparatus for producing glass fibers
US3649233A (en) * 1968-03-21 1972-03-14 Saint Gobain Method of and apparatus for the production of glass or other fibers from thermoplastic materials

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2687363A (en) * 1950-09-16 1954-08-24 Fred W Manning Method and apparatus for the production of filaments and nonwoven fabrics
US3063093A (en) * 1959-07-22 1962-11-13 Johns Manville Method and apparatus for producing glass fibers
US3649233A (en) * 1968-03-21 1972-03-14 Saint Gobain Method of and apparatus for the production of glass or other fibers from thermoplastic materials

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