TW200914625A - A method for the heat treatment of a metal strip - Google Patents

Abstract

A method is described for the heat treatment of a metal strip (2) before a metallic coating, with the metal strip (2) being heated at first in a directly fired furnace part (3) with the help of hot flue gases and thereafter being annealed under a reducing protective gas atmosphere in a furnace section (4) comprising at least one muffle (5). In order to enable the advantageous use of the thermal energy of the flue gases, it is proposed that the muffle (5) is heated with the help of the flue gases from the directly fired furnace part (3).

Description

200914625 IX. INSTRUCTIONS: [Technical Field] The present invention relates to a method for heat-treating a metal strip before coating a metal coating. First, the metal strip is assisted by hot flue gas. The furnace components are heated and then annealed in a reduced protective body in a furnace section containing at least one sleeve. P ^ [Prior Art] For the pre-treatment of cold-rolled steel strips for subsequent galvanizing, a known method is to preheat the steel strips in an oxidizing gas in order to further reduce the oxides in the protective gas. Oxides have a negative impact on the calendarability and adhesion of steel. For the purpose of the purpose, an annealing furnace having a direct ignition component and an adjacent furnace component may be used to directly ignite the components to heat the steel strips in the Wei gas, while the adjacent furnace components are borrowed. (4) The auxiliary of the sputum tube is heated and contains a gas. Is it guaranteed to be directly? In the process of heating the steel strips of the gas-filled parts, only the oxide layer can be formed on the surface of the steel strip, and the fuel used is combined with the sub-metering ratio "SUbst〇ichi〇metricmanner" It ignites, so it needs to be useful to set up the room. Although the flue gas directly igniting the furnace parts is also used for the peach sheet, the heat energy from the flue gas can be used beyond the heated steel in the state of the steel strip. The strips are capable of being applied, so that this part of the heat is not used for the heat treatment of the steel strips. And ",, due to the annealing reduction and heating as a metal strip, the protective gas has only a limited chlorine content, and the above limited gas enthalpy; ί 典 method uses pure fire city to achieve hydrogen to water vapor ratio In the case of the patent, the patent case (AT5GG 686 B1) has been proposed for the coating of metal coatings: ,, rationally provided - with many continuous safety "tubes" W 'where the hydrogen content in the secret gas can be based on the position of the sleeve two = 200914625 In the direct ignition furnace section upstream of the furnace section with the sleeve, the addition of metal strips can occur repeatedly in the oxidizing gas of the hot flue gas. The same disadvantages as the use of thermal energy will occur. SUMMARY OF THE INVENTION The object of the present invention is to provide a method for heat-treating a metal strip before coating a metal coating. First, the metal strip is placed in a flue gas for oxidation, and then placed in - 遂原< In the protective gas, in this way, the heat energy available for direct ignition of the fuel in the individual furnace components can be completely used for the heat treatment of the metal strip. Based on the above method, the object of the present invention can be obtained by The method of igniting the auxiliary heating sleeve of the flue gas of the furnace component is achieved. ^This method ensures that the heat energy of the fuel used for the metal strip can not be used for the direct ignition of the furnace component, and can be used for heating the jacket. On the cylinder, such a sleeve only needs to provide additional thermal energy when necessary. The oxygen content of the flue gas is heat treated in the molten zone of the sleeve and the protective gas for the reduction in the sleeve. The outer portion of the sleeve is uncorrelated, and in the furnace component with the sleeve, the post-fuel combustion can occur under favorable gas supply without damaging the glow annealing of the metal strip. During the period of heating the metal strip in the direct ignition furnace component Limiting the excessive growth of the oxide layer on the surface of the metal strip 'The protective gas from the sleeve can be compared with the (4) gas age of the direct ignition of the Lu component, which maintains the gas gas with sufficient (four) times of stoichiometric combustion. The oxygen concentration becomes easy, and the concentration of 2 is preferably lowered by the oxidation on the surface of the metal strip to provide additional gas, flue gas by surrounding the cylinder. The combustion can then be carried out under the conditions of Super', and the combination of SUPER_st〇ichi〇metric. For the remedy method, the annealing _ can be used - the direct rotation part and a adjacent 2 furnace part, which contain - a sleeve that is at least surrounded by a flue gas combustion chamber. It is only required to be connected to the flue gas surrounding the sleeve by the soil V flue gas in the direct igniting furnace 6 in the flue gas outflow side region. The combustion chamber is used to provide a flue gas that is still hot from the direct ignition of the furnace component when needed. The package comes, q 丨 丨 丨 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟 烟Extra heat of the sleeve: firstly, with the aid of the burner in the flue gas combustion chamber, the soot gas will be mixed with the flue gas of the flammable furnace. The burner can also inject air only into the two chambers for cooling. In order to ensure that the direct ignition furnace components can be supplied with the protection from the sleeve _ / The connection between the sleeve and the direct ignition furnace component on the opposite side of the flue gas line must be determined. The connection of the gas stream is not a special structural aspect because the guiding of the metal strips between the furnace components requires individual connections of the furnace components. / [Simple Description of the Drawings] The method for heat-treating metal strips before coating a metal coating according to the present invention - a more detailed description with reference to the drawings. Annealing to complete the core according to the invention = as shown in a schematic structure. · [Embodiment] The annealing job of the figure includes - before the coating of the metal coating, the melting or electrolysis of the miscellaneous parts of the metal strip 2, the firing of the charge 3 and the assembly of the sleeve 5 4. This arrangement causes the metal strip 2 to pass through the furnace part i from the bottom to the top and is diverted to the direct igniting furnace 3 via the roller guide box 6, and is connected to the sleeve 5 by the nail of the other/roller guide box 7, resulting in The strip 2 of the stomach 5 of the sleeve 5 can be pulled out through the delivery tube 9 via the deflection roller 8. The furnace part has a burner W to burn. The hot flue gas is finely bonded to the metal strip 2 which is passed downward in the furnace member 3. Directly indexing the furnace section 3, the Weidao gas is connected to the flue gas combustion chamber 12' of the plurality of sleeves 5 by the flue fresh line u, and is assisted by the auxiliary heating sleeve from the direct introduction furnace 3 200914625 5, as indicated by the dashed arrow in the figure. If the flue gas heat energy to the flue gas 12 is insufficient to individually heat the sleeve 5, additional heat energy may be provided, and the burner 13 in the sleeve 5' flue gas combustion chamber 12 is for this purpose. When only the gas is injected into the flue gas combustion chamber 12 via the burner nozzle, the burner 13 can also be used for cooling. The furnace component 1 which is a preheated one piece of i is also heated by the auxiliary of the flue gas directly igniting the furnace component 3. For this purpose, an individual connecting line 14 is provided between the furnace components 丨 and 2. The amount of flue gas used to preheat the metal strip 2 is depleted by the flue gas of the direct igniting furnace component 3 and is set by the resistance tube 15 in the connecting pipe and line 14. The degree of pressure of the furnace component 1 can be adjusted by the flow valve 16 in the flue gas vent 17 of the furnace component 1. The effect of the throttle valve has a similar effect on the amount of flue gas flowing through the flue gas combustion chamber 12 of the furnace component 4 and the pressure level of the flue gas combustion chamber 12. The control valve in the flue gas line 11 is labeled as component symbol 18 . The throttle valve in the flue gas vent 19 is indicated by the component symbol 2〇. ^ The heat treatment of the metal strip 2 in the set of ι € 5 is carried out under a protective gas. The protective gas is directed through the sleeve and flows back to the metal strip 2, and guided by the bottom roller to reach the direct ignition furnace component 3, and the protective gas and the flue gas are in the rolling guide box 7. mixing. (5) The direct heating of the metal strip 2 by the flue gas can be formed by the guidance of the flue gas, and the flue gas is burned within the range of the sub-metering ratio to avoid formation on the surface of the metal strip. A fast oxide layer. The oxygen concentration can be further reduced by the protective gas from the sleeve 5. Although the fuel used is combusted in a sub-metering manner, the thermal energy of the fuels can still be effectively utilized, since on the one hand the flue gas combustion chamber 12 and on the other hand the furnace components of the preheated metal strip 2 represent a favorable Burning section. 200914625

[Explanation of main components] 1 Furnace part 2 Metal strip 3 Ignition furnace part 4 Furnace part 5 Sleeve 6 Roller guide box 7 Roller guide box 8 Steering wheel 9 Duct 10 Burner 11 Flue gas line 12 Flue gas Combustion chamber 13 Burner 14 Connecting line 15 Resistance plate 16 Throttle valve 17 Flue gas vent 18 Control valve 19 Flue gas vent 20 Throttle valve 9

Claims (1)

200914625 X. Patent application scope: 1. Method for heat treatment of metal strips (2) before coating metal coating, firstly let metal strips (2) be assisted by a hot flue gas in a direct ignition furnace The component (3) is heated and then annealed in a reducing protective gas in a furnace section (4) comprising at least one sleeve (5), characterized in that the sleeve (5) is derived from direct ignition The soot gas of the furnace component (3) is heated. 2. The method according to the patent application specification, characterized in that the flue gas from the direct ignition furnace component (3) is burned in a sub-metering ratio by providing additional gas in the package. The super-metering ratio combining mode is formed in the flue gas combustion chamber (12) of the cylinder (5) and then combusted. 3. The method according to claim 2 or 2, characterized in that the protective gas from the sleeve (5) is mixed with the flue gas in the direct ignition furnace component (3). 4. An annealing furnace for completing the method according to any one of the claims to the third aspect of the patent application, comprising: a direct ignition furnace component and a gas combustion chamber comprising at least The sleeve phase of the furnace, characterized in that the direct ignition 'new material (3) is burned in the flue gas outflow side region via at least one flue gas line (ίο connected to the flue gas surrounding the sleeve (5) Room (12) 5. The annealing furnace according to item 4 of the patent application, characterized in that the sleeve (5) and the direct igniting furnace component (3) are wider on the side opposite to the flue gas line (11) There is an air flow connection between the fields. According to the annealing of the fourth or fifth item of the patent lad lad, and the special case, the flue gas combustion chamber (12) contains an additional heating sleeve (5 rm 〇 '.,, 10