TH65595A - "Methods and equipment for lubrication Form of fused glass mold " - Google Patents

Abstract

DC60 (25/06/46) Burner (16, 116, 216) surface mixing type. Get a carbon-containing fuel, for example, acetylene base fuel. From yeast (20) and oxidizing agents, for example, oxygen Pure side From the oxidizing line (18) the oxidizer is fed to the burner at a sufficient rate resulting in Complete combustion of the fuel As a result, it produces a sooty flame. That is useful to use Lubricated soot particles Against the fused glass contact surface of the sintered glassware, which is Intermittent by Solenoid valve (38) in the oxidizing agent and by the solenoid (40) in the fuel line. There is a passage through the fuel inlet (60) that extends along the longitudinal axis of the The end element (56) of the burner and the passage through the ring entrance cavity (64) that surrounds the passage through the fuel inlet. Way through the Pak Chong fuel entrance Which would otherwise be closed at the end in the direction of its current Ends in multiple overlapping numbers of separate passages (62), where they are arranged in a ring-order manner. And where the fuel leaves the tip of the burner in a ring form On the inside of the oxidizing agent that leaves the burner in a ring form via pass (66), in one of the rings located between the tip element and the cover element (58) of the burner, the burner acts In ensuring the rapid mixing of the fuel and oxidizing agent currents in the direction of the burner current, thereby quickly forming the combustible mixture. Which can be set on fire by Spark igniter (54). Two solenoid valves (38, 40) are provided in the oxidizing agent lines and Sequential fuel To allow the burner to be operated intermittently, the burner (16, 116, 216), surface mixing type. Get a carbon-containing fuel, for example, acetylene base fuel. From yeast (20) and oxidizing agents, for example, oxygen Pure side From the oxidizing line (18) the oxidizer is fed to the burner at a sufficient rate resulting in Complete combustion of the fuel As a result, it produces a sooty flame. That is useful to use Lubricated soot particles Against the contact surface of the fused glass of the glassmaker, the sinter which was Intermittent by Solenoid valve (38) in the oxidizing agent and by the solenoid (40) in the fuel line. There is a passage through the fuel inlet (60) that extends along the longitudinal axis of the The end element (56) of the burner and the passage through the ring entrance cavity (64) that surrounds the passage through the fuel inlet. Way through the Pak Chong fuel entrance Otherwise it is closed at the end in the direction of its current. Ends in multiple overlapping numbers of separate passages (62) that are arranged in a ring-order manner. And where the fuel from the tip of the burner in the form of a ring On the inside of the oxidizing agent that leaves the burner in a ring form via pass (66), in a ring located between the tip element and the burner element (58), the burner acts In ensuring the rapid mixing of the fuel and oxidizing agent currents in the direction of the burner current, thereby quickly forming the combustible mixture. Which can be ignited by Spark igniter (54). Two solenoid valves (38, 40) are provided in the oxidizing agent lines and Sequential fuel To allow the burner to be continuously operated

Claims (8)

1. Methods of importing soot particles into The elements in contact with the fused glass of the glassware method include pulsed conveying, the supply of carbon-containing fuels. To burners type Surface mixing, overlapping pulse conveying Oxidizing agent supply at a rate sufficient to Completely oxidizing the fuel to the burner, the fuel and oxidizing agent are combined from the burner to flow in a separate current. To the print Which will be included in the manner Combustion ingredients At the position in the direction of the injector current and the ignition of the combustion-fuel mixture and oxidizing agent At the position between the nozzle and the mold to introduce soot into the mold 2. Method according to claim No. 1, where the fuel is Acetylene base fuel 3. Method for compliance with claim 2 where the fuel is The acetylene base fuel consists of a mixture of acetylene and propadene. 4. Method of conformity to claim 3, where the oxidizing agent contains oxygen. Purification is essential. 5. Equipment for producing soot-filled flame. For the use of Soot particles against the contact surface Fused glass of glass making machine The device consists of Surface mixing type burner For a separate flow of fuel and Oxidizing agents that pass there Oxidizing line for direct conveying of oxidizing agent to the burner Fuel lines for conveying Carbon-based fuels to the burner without pre-mixing of fuel with oxidizing agents and igniters for the ignition of combustible mixtures of fuels and oxidizing agents. At the position in the direction of the current of the mouth of the outlet from the burner. 6. Conformance apparatus Clause 5 in which the oxidizer line includes only one solenoid valve. For the intermittent conveying of the oxidizer to the burner and where the fuel line conveying consists of only Single solenoid valve for discontinuous transport of fuel to the burner. 7.Equipment Compliance with claim 6 and includes the following Oxidized Manifold for the Transfer of Oxidizing Agent and Fuel Manifold for Fuel to Fuel Transfer 8. Equipment Compliance with claim 7 and accompanying. The pressure regulator located at one in the oxidizing manifold. For controlling the pressure at which The oxidizing agent is transported to the second oxidizing agent and pressure regulator in the fuel manifold. For controlling the pressure at which Cheap fuel Transfer to fuel lines 9. Compliance device claim No. 5, where the oxidizing agent is transported to the burner. To flow in a ring, which is parallel to the axis through The longitudinal center of the burner and the fuel is transported to the burner. So that it flows through the burner along the path Which is within the radius of Trajectory followed by oxidizing agent 1 0. Equipment Compliance with claim 9 where the burner consists of The ends and the ring cover that surround it, at least In the direction of the current of the tip where the fuel is transported to the burner Along the axis through the longitudinal center of the tip and exit from the tip through the multiple overlapping numbers of passageways separated from the ends. A passageway that separates from the end Are arranged in a ring-loop manner and in which the oxidizing agent is transported from the burner in the ring between Outside of the tip and inside of the cover And in the stream that surrounds the way through the ring Where fuel flows 1 1.Conformance device with claim No. 10, where the fuel line includes Flashing suppressor 1 2.Conformity device claims Clause 10, where oxidizing line includes Flashing suppressor 1 3. Burner nozzles for partial oxidation of fuel mixtures and oxidizing agents to produce soot for glass processing applications. Burner nozzles consist of At least the internal and external parts that surround Parts in the direction according to the current of such internal parts and the designation of the ring to the external parts A passage that extends through Such internal parts For the transport of first gas through parts Such inside to at least Pak Chong, a single exit From such internal parts A pass that extends through that internal component in a ring that surrounds one of the passageways. For conveying the second gas from the burner Through the aforementioned ring between Such external parts and such internal parts 1 4.The burner in accordance with claim No. 13, where it expands through internal parts, consisting of a large number of separate passages. Which extends from there in such a way Ring sequence 1 5. Burners in accordance with claim No. 14, where each passage of such separate passage Extends with an angle converging from the axis through the longitudinal center of the inner part 1. 6. Burner, in accordance with claim 5, where such spark igniter includes the electrode and ground electrode and is further assembled to Source of compressed air The source of compressed air with a large number of outlet chambers. That were directed at the electrode And a large number of exit channels that were directed at Ground such electrode 1 7. Incinerator in accordance with claim 18, where the said origin of Compressed air Continue to Lots of exit channels were directed at the outside of the Surface in the direction of the firing current 1 8. Burners in accordance with claim No. 1 and further to the place where the said stage of the ignition of the combustion mixes. It is actuated by a spark igniter with an electrode and ground electrode. And continue to Burning soot that has been deposited from the electrode and ground electrode between pulses of the fuel Contains carbon and oxidizing agents.