The present invention relates to a smart passage opening system with thermal lances for pyrometallurgical process furnaces or reactors, which autonomously controls and adjusts the variables of the opening process to obtain the maximum efficiency possible, in addition to capturing information from inside the furnace or reactor by means of the thermal lance and processing same to determine and send signals that correct anomalies that may cause subsequent deficiencies in the overall operation of the furnace.
F27B 1/26 - Aménagement des dispositifs de commande
F27D 21/00 - Aménagement des dispositifs de surveillanceAménagement des dispositifs de sécurité
G01S 13/88 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques
C21B 5/00 - Fabrication de la fonte brute dans les hauts fourneaux
2.
THERMAL LANCE COMPRISING AT LEAST ONE HOLLOW TUBULAR PROFILE MADE OF ALUMINIUM AND/OR MAGNESIUM, AMONG OTHER MATERIALS, WHICH ALLOWS SAME TO BE USED IN PROCESSES REQUIRING A LARGE AMOUNT OF ENERGY TO CUT, PERFORATE AND/OR MELT MATERIALS HAVING A HIGH THERMAL REQUIREMENT
The invention relates to a thermal lance (1) consumable by an exothermic reaction used to perforate and/or cut any type of material of different thicknesses and dimensions, the lance comprising a main outer tubular body (2) and at least one hollow inner profile (3) and/or at least one hollow inner profile (4) that is made of aluminium and/or magnesium and/or another material and has a different cross section, the profiles being located concentrically with respect to each other and/or with respect to the main outer tubular body (2), cavities (5) being formed between each hollow inner profile and/or the main outer tubular body, the cavities forming passages (6) for oxidising gas that flows through the length of the thermal lance (1), wherein the cavities must have at least one straight part and at least one curved part to allow the flow of oxidising gas to pass through the lance with a suitable turbulence during the operation thereof.
B23K 7/00 - Découpage, décriquage ou dépolissage, par chauffage à la flamme
B23K 7/08 - Découpage, décriquage ou dépolissage, par chauffage à la flamme par application de composés ou de moyens additionnels facilitant les processus de découpage, de décriquage ou de dépolissage
B23K 35/00 - Baguettes, électrodes, matériaux ou environnements utilisés pour le brasage, le soudage ou le découpage
B23K 35/02 - Baguettes, électrodes, matériaux ou environnements utilisés pour le brasage, le soudage ou le découpage caractérisés par des propriétés mécaniques, p. ex. par la forme
3.
Thermal lance for fusion cutting and/or piercing, comprising at least four tubular profiles and more than 17 cavities inside the lance
The invention relates to a thermal lance (1) having adequate flexibility and concentrated effective heating capacity for the fusion cutting and/or piercing of any type of material, for example, for piercing and opening tapping passages in melting furnaces that use plugs made of clay or mixtures of, inter alia, alumina, silica and carbon. The thermal lance comprises at least four tubular profiles, one disposed externally and three disposed internally, and more than seventeen cavities housed inside said lance, wherein at least two of said four tubular profiles have different cross-sections, wherein each tubular profile is disposed in a contiguous manner in relation to the other tubular profiles, and wherein each tubular profile is selected from tubular profiles having a circular, square, triangular, hexagonal, oval, or multi-point star-shaped cross-section. The invention also relates to the use of the thermal lance for the fusion cutting and/or piercing of any type of material.
The invention relates to a thermal lance (1) having adequate flexibility and concentrated effective heating capacity for the fusion cutting and/or piercing of any type of material, for example, for piercing and opening tapping passages in melting furnaces that use plugs made of clay or mixtures of, inter alia, alumina, silica and carbon. The thermal lance comprises at least four tubular profiles, one disposed externally and three disposed internally, and more than seventeen cavities housed inside said lance, wherein at least two of said four tubular profiles have different cross-sections, wherein each tubular profile is disposed in a contiguous manner in relation to the other tubular profiles, and wherein each tubular profile is selected from tubular profiles having a circular, square, triangular, hexagonal, oval, or multi-point star-shaped cross-section. The invention also relates to the use of the thermal lance for the fusion cutting and/or piercing of any type of material.
The invention relates to a thermal lance (1) having adequate flexibility and concentrated effective heating capacity for the fusion cutting and/or piercing of any type of material, for example, for piercing and opening tapping passages in melting furnaces that use plugs made of clay or mixtures of, inter alia, alumina, silica and carbon. The thermal lance comprises at least four tubular profiles, one disposed externally and three disposed internally, and more than seventeen cavities housed inside said lance, wherein at least two of said four tubular profiles have different cross-sections, wherein each tubular profile is disposed in a contiguous manner in relation to the other tubular profiles, and wherein each tubular profile is selected from tubular profiles having a circular, square, triangular, hexagonal, oval, or multi-point star-shaped cross-section. The invention also relates to the use of the thermal lance for the fusion cutting and/or piercing of any type of material.
The invention relates to a quick-coupling device (1) that does not require external elements for coupling, intended for the coupling of thermal lances used for the fusion cutting and/or piercing of any type of material, for example, for piercing and opening tapping passages in melting furnaces that use plugs made of clay or mixtures of, inter alia, alumina, silica and carbon. The device comprises a hollow cylinder having bevelled ends and two circular internal grooves in each end of the device. The invention also relates to the use of the coupling device for coupling with thermal lances comprising at least one inverted conical end and having an annular external groove in the casing thereof.
F16L 37/088 - Accouplements du type à action rapide dans lesquels l'assemblage entre les extrémités s'aboutant ou se chevauchant est maintenu par des organes de blocage combinés à un verrouillage automatique au moyen d'un segment élastique fendu
7.
THERMAL LANCE WITH CONTINUOUS RETENTION OF THE COMPONENTS THEREOF AND METHOD FOR MANUFACTURING SAME
The invention relates to a thermal lance made up of an oxidisable inner component and an oxidisable outer tube, which are substantially coextensive, defining one or more longitudinal passages for circulating an oxidising gas that will pass from one intake end to the other ignition end of said thermal lance, when the latter is operational. The inner components of the thermal lance are retained inside the outer tube by a continuous flattening or contraction of the tube along the entire length thereof. The method for manufacturing the thermal lance includes at least: axially inserting inner components into the outer tube; passing the aforementioned assembly through a mechanical device that reduces the cross-section of the outer tube; cutting the ends of said thermal lance; and optionally providing the ends of the thermal lance with a fastening means for attaching the means for supplying the oxidising gas and possibly coupling two or more thermal lances, or coupling starting facilitators at the ignition end. The thermal lance and the method also optionally include a ceramic coating on the outer and/or inner surface of the lance.
B23K 35/02 - Baguettes, électrodes, matériaux ou environnements utilisés pour le brasage, le soudage ou le découpage caractérisés par des propriétés mécaniques, p. ex. par la forme
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