RU2003115779A - METHOD AND DEVICE FOR LUBRICATION OF FORMS FOR MELTED GLASS - Google Patents

Claims (18)

1. A method of supplying soot particles to an element in contact with molten glass of a glass manufacturing machine, comprising: the supply to the burner with surface mixing of carbon-containing fuel in a pulsed mode; the supply of oxidizer to the burner in the form of time-overlapping pulses in a proportion not sufficient for complete oxidation of the fuel; the formation of fuel and oxidizer streams exiting the burner as separate streams towards the form, which mix with the formation of a combustible mixture immediately after exiting the nozzle; and ignition of a combustible mixture of fuel and an oxidizing agent in a specific place between the nozzle and the mold for feeding soot into the mold. 2. The method according to claim 1, wherein the fuel is acetylene based fuel. 3. The method according to claim 2, in which the acetylene-based fuel comprises a mixture of metacetylene and propadiene. 4. The method according to claim 3, in which the oxidizing agent contains essentially pure oxygen. 5. A device for producing a flame with a high carbon black content for applying soot particles to a surface in contact with molten glass, a glass manufacturing machine, comprising: a torch with surface mixing to pass through it separate streams of fuel and oxidizer; an oxidizer line for supplying the oxidizer directly to the burner; a fuel line for supplying carbon-containing fuel to the burner without first mixing the fuel with an oxidizing agent; and spark igniter to ignite a combustible mixture of fuel and oxidizer in a specific place after the outlet of the burner. 6. The device according to claim 5, in which the oxidizer line contains only an electromagnetic valve designed for intermittent supply of oxidant to the burner; and in which only one solenoid valve is installed in the fuel line for intermittent fuel supply to the burner. 7. The device according to claim 6, further comprising: an oxidizing conduit for supplying an oxidizing agent to an oxidizing agent line; and a fuel line for supplying fuel to a fuel line. 8. The device according to claim 7, further comprising: a first pressure regulator installed in the oxidizer conduit for regulating a pressure at which the oxidant is supplied to the oxidizer line; and a second pressure regulator installed in the fuel pipe, designed to control the pressure at which fuel is supplied to the fuel line. 9. The device according to claim 5, in which: the oxidizing agent is fed into the burner so that it exits in the form of an annular flow parallel to the longitudinal central axis of the burner; and the fuel is fed into the burner so that it flows through the burner along the channel, which is located radially inside the channel through which the oxidizing agent flows. 10. The device according to claim 9, in which the burner contains a tip and an annular cap that surrounds at least the lower part of the specified tip; in which fuel enters the burner along the longitudinal central axis of the tip and exits the tip through a plurality of separate channels of the tip, the individual channels of the tip being installed in the form of an annular set; and in which the oxidizing agent exits the burner in the form of an annular flow between the outer surface of the tip and the inner surface of the cap, in the form of a flow surrounding the annular channels through which the fuel exits. 11. The device according to claim 10, in which the fuel line contains a flame suppressor. 12. The device according to claim 10, in which the oxidizer line contains a flame suppressor. 13. A burner nozzle for partial oxidation of a mixture of fuel and an oxidizing agent to produce carbon black intended for use in a glass manufacturing process, comprising: inner element; and an external element surrounding at least the lower part of said internal element and defining an annular gap with it; a channel passing through the specified internal element for supplying the first gas through the specified internal element to at least one outlet from the specified internal element; the second channel passing through the specified internal element, in the form of an annular gap surrounding the specified first channel, designed to supply a second gas from the specified burner, through the specified annular gap between the specified external element and the specified internal element. 14. The burner according to item 13, in which the specified channel passing through the specified inner element contains many individual channels passing through this element in the form of an annular set. 15. The burner according to 14, in which: each of these individual channels extends at an angle diverging from the longitudinal central axis of the indicated inner element. 16. The device according to claim 5, in which the specified spark igniter contains an electrode and a ground electrode, and further comprises: a compressed air source, wherein said compressed air source comprises a plurality of outlet openings directed to said electrode, and a plurality of outlet openings directed to said ground electrode. 17. The device according to clause 16, in which the specified source of compressed air further comprises a plurality of outlet openings directed to the outer lower surface of the specified burner. 18. The method according to claim 1, in which the additionally specified stage of ignition of the combustible mixture is carried out using a spark igniter containing an electrode and a ground electrode, and further comprises: burning soot accumulations on the electrode and the ground electrode between the pulses of the supply of carbon-containing fuel and oxidizer.