CN101270407A - Direct combustion type metallic tube bright heat treatment method - Google Patents

Direct combustion type metallic tube bright heat treatment method Download PDF

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Publication number
CN101270407A
CN101270407A CNA200810061559XA CN200810061559A CN101270407A CN 101270407 A CN101270407 A CN 101270407A CN A200810061559X A CNA200810061559X A CN A200810061559XA CN 200810061559 A CN200810061559 A CN 200810061559A CN 101270407 A CN101270407 A CN 101270407A
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metal pipe
pipe material
chamber
heat treatment
heating chamber
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CNA200810061559XA
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CN100577826C (en
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赵学龙
傅林忠
曹建国
李峰
狄大江
魏连运
黄路稠
彭立强
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Chongqing Hailiang Copper Co ltd
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Zhejiang Hailiang Co Ltd
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  • Heat Treatment Of Strip Materials And Filament Materials (AREA)

Abstract

A direct burning type bright heat treatment method of metal tube belongs to the field of fabrication method technology of heat treatment processing for metal, which is carried out according to the following process: A. the flame and the hot gas of fuel gas ejected from a burner is directly ejected into a heating chamber for causing the metal tube of continuous passing through the heating chamber to be heated to 700 to 900 DEG C; B. The metal tube after heating is put into a transition chamber of neighboring to the heating chamber for cooling to cause the temperature of the metal tube to decrease to 450 to 650 DEG C; C. The metal tube is put into a cooling chamber and sprayed by cooling water to cause the metal tube to be rapidly decreased to below 50 DEG C; D. the metal tube is dried in a drying chamber via a drying tube; The metal tube can also be preheated in a neighboring preheating chamber before entering into the heating chamber to cause the temperature of the metal tube to raise from the room temperature to 400 to 500 DEG C. The method can effectively promote the heating efficiency of fuel gas, decrease the energy consumption and the heat treatment cost.

Description

Direct combustion type metallic tube bright heat treatment method
Technical field
The present invention relates to a kind of direct combustion type metallic tube bright heat treatment method, belong to metal heat treatmet working method technical field.
Background technology
Metal current tubing bright heat treatment furnace mainly contains net belt type bright annealing oven, roller bottom type bright heat treatment furnace, roller spacer screen belt bright annealing oven, ride formula or flue formula vacuum annealing furnace etc.; but these annealing furnaces all be with electricity or heating tube as heating unit, also in stove, feed inertia such as nitrogen, nitrogen+hydrogen, argon gas or reducing gas specially and protect not oxidation of metal pipe material.But electricity belongs to secondary energy, and the cost height consumes greatly products production manufacturing cost height simultaneously.Especially also limited the production of product along with the anxiety of electric energy.The heating tubular type belongs to the secondary indirect heating, and flame needs earlier the heating tube heating, again by heating tube with heat radiation in burner hearth, heat temperature raising is slow, thermo-efficiency is low, consumes greatly, also needs to be introduced separately into the anti-oxidation of protective gas protection annealing product simultaneously.
Summary of the invention
The purpose of this invention is to provide and a kind ofly can effectively improve the combustion gas heating efficiency, cut down the consumption of energy and the direct combustion type metallic tube bright heat treatment method of thermal treatment cost.
The present invention is a direct combustion type metallic tube bright heat treatment method, adopts by in linking to each other successively and establishes the heating chamber that transmits roller-way, and insulation slow cooling chamber, cooling room, the metallic tube bright heat treatment furnace that kiln constitutes is characterized in that being undertaken by following processing step:
A, combustion gas is directly sprayed in the heating chamber by flame and the hot gas that burner ejects, make the metal pipe material that passes through continuously in the heating chamber be heated to 700~900 ℃;
Metal pipe material after B, the heating enters the transition chamber adjacent with heating chamber and cools off, and makes the metal pipe material temperature be reduced to 450~650 ℃;
C, metal pipe material is entered cooling room, through the cool water shower cooling make metal pipe material be cooled fast to≤50 ℃;
D, in kiln, dry up metal pipe material by drying tube.
Described metal pipe material also can carry out preheating at adjacent preheating chamber earlier before entering heating chamber, make the metal pipe material temperature be elevated to 400~500 ℃ by room temperature.
The present invention compared with prior art has following outstanding advantage and positively effect:
1, utilizes combustion gas such as Sweet natural gas, liquefied gas, coal gas directly burning in heating chamber, and in heating chamber, form the reducing atmosphere of malleation.The heat that fuel gas buring produces is not by other tangible medium, directly to heating by the metal pipe material in the heating chamber continuously, metal pipe material is heated fast heat up and reaches the desired softening temperature of technology, thermoplastic metal pipe material directly cools off by heat-eliminating mediums such as water, cold air immediately continuously fast, thereby annealing thermal treatment and cooled metal pipe material surface are not taken place or rare oxidation stain.Improved the heating efficiency and the heat utilization efficiency of combustion gas, shortened the heat temperature raising time of metal tube, improved continuously, saved electric energy simultaneously, reduced energy consumption by heat treated speed and treatment production efficient.
2, under the condition of no Additional Protection gas, can make burning be reducing flame by adjusting the air-fuel ratio of fuel gas buring, the CO, the H that utilize combustion gas self burning to produce 2, N 2, CO 2Etc. inertia and reducing gas, and form malleation, prevented in the outer air admission stove of stove, realize a step clean annealing of metal pipe material, guaranteed non-oxidation in the metal pipe material heat treatment process, reduce the consumption and the protective gas generating unit of protective gas.Metal pipe material surface-brightening after the annealing, no obvious oxidation tint need not carried out pickling and other surface treatments, have reduced the metal consumption of annealing rear surface processing and the processing and the discharging of pickle solution, have reduced the pollution to environment.
3, the metal pipe material after the thermal treatment directly sprays cooling fast by heat-eliminating mediums such as water, inertia cold air continuously, has accelerated speed of cooling, has shortened cooling time, has shortened the length of stove cooling zone.Thereby make metal pipe material under the condition that does not have the protection of rare gas element or reducing gas, also can reach the non-oxidizing purpose of metal pipe material surface-brightening.
Description of drawings
Fig. 1 is the one-piece construction sectional view of metallic tube bright heat treatment furnace of the present invention;
Fig. 2 is an A-A face structure sectional view shown in Figure 1.
Embodiment
The present invention adopts metallic tube bright heat treatment furnace, mainly is made of the preheating chamber 19 of establishing transmission roller-way 3 in linking to each other successively, heating chamber 15, insulation slow cooling chamber 1, cooling room 12, kiln 20 etc.; Preheating chamber 19, heating chamber 15, insulation slow cooling chamber 1 outsourcing thermal insulation fire-resistant material 2, heating chamber 15 interior two ends up and down are provided with the gas pipeline 11 of air line 8, flue 9, band burner 10; The front end of preheating chamber 19 is provided with holds court from behind a screen 5, and top is provided with the top flue 6 of heat exchanger 7, and heat exchanger 7 links to each other with drying tube 13 with air line 8; Be provided with the cooling duct 17 of band cool water shower device 14 in the cooling room 12; Be provided with drying tube 13 in the kiln 20.
Below in conjunction with embodiment the present invention is further described, but the present invention is not limited to following embodiment, when practical application, can require and use occasion according to different performance, select the different technology conditions except that following embodiment, but all do not limit the scope of the invention in any form.Technical process of the present invention is divided into preheating section I, heating zone II, insulation slow cooling section III, cooling section IV and dryer section V, the transmission roller-way 3 of metal pipe material adopts the heat-resistance stainless steel roller, the surface is through polishing and polished finish, the last plane of transmitting roller-way 3 is the medullary ray of preheating chamber 19, heating chamber 15, insulation slow cooling chamber 1, cooling room 12, kiln 20, and preheating chamber 19, heating chamber 15, insulation slow cooling chamber 1, cooling room 12, kiln 20 are rectangle or rectangular configuration.
1, preheating section I: metal pipe material 4 enters in the preheating chamber 19, by the furnace gas in the heating chamber 15 metal pipe material 4 is carried out preheating, makes its temperature be elevated to 400~500 ℃ by room temperature.
2, heating zone II: quantity and model that burner in the burner 10 is set according to the annealing temperature of heat treatment requirements in the heating chamber 15, burner 10 places the both sides up and down of heating chamber 15, with the last plane of transmitting roller-way 3 is that the center is two misarrangement positions distribution up and down, to guarantee that metal pipe material 4 is heated evenly, the size of the flame 18 of burner 10 regulates air-flow according to thermal treatment temp automatically by the gas regulation control valve and tolerance is controlled, flame 18 and hot gas that burner 10 ejects directly spray in the heating chamber 15, so that the metal pipe material 4 that passes through continuously in the heating chamber 15 is heated to 700~900 ℃ at short notice.Air-fuel ratio by regulating combustion atmosphere is to guarantee that burner flame is a reducing flame simultaneously.Gaseous combustion generates CO, H 2, N 2, CO 2Etc. inertia and reducing gas, regulate tolerance and make the reducing atmosphere that remains malleation in the heating chamber 15, prevented the oxidation of metal pipe material 4 when heating.
Furnace gas after the heating carries out preheating through preheating chamber 19 inner segments to the metal pipe material 4 that enters in the heating chamber 15 simultaneously, metal pipe material 4 temperature after the preheating can reach 400~500 ℃, flue gas after the preheating enters into heat exchanger 7 by preheating chamber 19 top flues 6, the air that will enter in the burner 15 by air line 8 heat exchange in heat exchanger 7 carries out preheating, preheating temperature is 100~300 ℃, has improved efficiency of combustion so again.
3, insulation slow cooling section III: the metal pipe material 4 after the heating enters insulation slow cooling chamber 1 and cools off.The purpose one of insulation slow cooling section III is the calorific loss that reduces in the heating chamber 15, the 2nd, utilize the furnace gas in the heating chamber 15 to make the metal pipe material 4 of the condition of high temperature that an insulation annealing process be arranged before entering cooling section IV, make metal pipe material 4 behind the recrystallize that the process of a grain growth be arranged, prevent to cool off too fast and cause stress concentration and crystal grain meticulous, make metal pipe material 4 sclerosis and embrittlement.Temperature at indoor 1 metal pipe material 4 of insulation slow cooling will be reduced to 450~650 ℃ by original 700~900 ℃.
4, cooling section IV: the water that the cool water shower device 14 in the cooling room 12 is introduced cooling duct 17 is cascade 16 and sprays equably on the metal pipe material 4, make its be cooled fast to≤50 ℃, the metal pipe material 4 that has prevented certain temperature exposes in air and the oxidation that causes.
5, dryer section V: the narrow slit of row's aperture or width 5mm is arranged at drying tube 13 bottoms in the kiln 20, and after 150~300 ℃ of low temperature furnace gases after the heat exchange fed drying tube 13, gas sprayed from aperture or narrow slit, dries up the water coolant of metal pipe material 4 remained on surface.
Said process is finished under the high-speed cruising of 450~800mm/min continuously according to the metal pipe material of different size, and the speed of the metal pipe material of prior art by heat treatment furnace is 150~350mm/min.Therefore, each stage of heat treatment process all is to finish in the short period of time, has so not only improved metal pipe material 4 heat treated efficient, metal pipe material 4 cleanings after the thermal treatment simultaneously, light.

Claims (2)

1, a kind of direct combustion type metallic tube bright heat treatment method, employing is established the heating chamber (15) that transmits roller-way (3) by in linking to each other successively, insulation slow cooling chamber (1), cooling room (12), the metallic tube bright heat treatment furnace that kiln (20) constitutes is characterized in that being undertaken by following processing step:
A, combustion gas is directly sprayed in the heating chamber by flame and the hot gas that burner ejects, make the metal pipe material that passes through continuously in the heating chamber be heated to 700~900 ℃;
Metal pipe material after B, the heating enters the transition chamber adjacent with heating chamber and cools off, and makes the metal pipe material temperature be reduced to 450~650 ℃;
C, metal pipe material is entered cooling room, through the cool water shower cooling make metal pipe material be cooled fast to≤50 ℃;
D, in kiln, dry up metal pipe material by drying tube.
2,, it is characterized in that described metal pipe material also earlier carries out preheating at adjacent preheating chamber before entering heating chamber, make the metal pipe material temperature be elevated to 400~500 ℃ by room temperature by the described direct combustion type metallic tube bright heat treatment method of claim 1.
CN200810061559A 2008-05-06 2008-05-06 Direct combustion type metallic tube bright heat treatment method Active CN100577826C (en)

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CN200810061559A CN100577826C (en) 2008-05-06 2008-05-06 Direct combustion type metallic tube bright heat treatment method

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CN100577826C CN100577826C (en) 2010-01-06

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102586577A (en) * 2012-03-09 2012-07-18 辽宁科技大学 Continuous reduction annealing furnace for sheet metal strips
CN112877532A (en) * 2020-12-31 2021-06-01 上海海亮铜业有限公司 Pipe heat treatment process
CN114836603A (en) * 2022-04-12 2022-08-02 江苏常宝普莱森钢管有限公司 Surface quality adjusting process for bright heat treatment furnace

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103278019B (en) * 2013-06-26 2014-08-13 盐城市飞亚利机械有限公司 Fuel gas type aluminum enamel heating curing oven capable of recycling residual heat in flue

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA1255897A (en) * 1985-07-10 1989-06-20 Nippon Kokan Kabushiki Kaisha Continuously treating line for steel bands having a heating furnace by directly flaming
CN87107595A (en) * 1987-11-03 1988-05-18 黄兴祖 A kind of oxidization-free heat treatment method and equipment thereof
SE527771C2 (en) * 2004-10-29 2006-05-30 Aga Ab Procedure for the manufacture of elongated steel products

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102586577A (en) * 2012-03-09 2012-07-18 辽宁科技大学 Continuous reduction annealing furnace for sheet metal strips
CN102586577B (en) * 2012-03-09 2013-07-17 辽宁科技大学 Continuous reduction annealing furnace for sheet metal strips
CN112877532A (en) * 2020-12-31 2021-06-01 上海海亮铜业有限公司 Pipe heat treatment process
CN114836603A (en) * 2022-04-12 2022-08-02 江苏常宝普莱森钢管有限公司 Surface quality adjusting process for bright heat treatment furnace

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Patentee before: ZHEJIANG HAILIANG Co.,Ltd.

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