KR100694559B1 - The processing apparatus using inducting heating of the part in the steel plate and a method thereof - Google Patents

Abstract

The present invention relates to a method and apparatus for continuous heat treatment of a thick plate by induction heating. After cooling the thick plate heated through a continuous induction heating furnace by a cooling device and quenching, it is transported through a driving roller of a conveyor type. By inserting into a continuous induction heating furnace and tempering, the thick plate is continuously moved by the driving roller and heat treated to improve the productivity of the thick plate, and to obtain good structure and mechanical properties by uniform heating. Heat treatment such as normalizing and annealing the thick plate by heating is also possible.

The present invention consists of seven steps, the material inspection and preparatory process (S1) for inspecting and preparing a plate-shaped thick plate (1) formed of any one material of the general structural steel and the general mechanical structural carbon steel and alloy steel that are heat treatment objects And, the prepared induction plate 10 into the continuous induction heating quenching furnace 10 and the continuous induction heating step (S2) of heating to a temperature of 800 ℃ to 1,000 ℃ by the induction heating device 11, and complete heating The thick plate 1 is transferred to the cooling device 20 to spray cooling water to complete the quenching process, and the upper and lower transfer rollers 31, which are subjected to the hardening, are finished. 32, the transfer process (S4) to move through, the intermediate inspection step (S5) for inspecting the deformation and the like of the conveyed thick plate (1), and the thick plate (1) completed the inspection using the driving roller (50) After charging to the continuous induction heating furnace 40 to 500 ℃ to 700 ℃ Continuous induction heating process (S6) to complete the tempering by heating the road (S6), and the final inspection process (S7) to cool the thickened plate (1), the hardness and deformation inspection and appearance inspection to complete the tempering (Tempering) It is configured to have an approximate configuration for completing heat treatment of thick plates fabricated in various sizes.

According to the present invention having the configuration as described above, after quenching by rapidly cooling the thick plate heated to a temperature of 800 ℃ to 1,000 ℃ through a continuous induction heating quenching furnace (Quenching), through the conveyor drive roller The plate is continuously heat treated by tempering at a temperature of 500 ° C. to 700 ° C., thereby improving productivity compared to a heat treatment system made of a conventional intermittent process.

In addition, by installing an induction heating device that is 10% or more larger than the width and height of the thick plate inside the continuous induction furnace, the thick plate is uniformly heated as it passes through this coil, thereby improving good structure and mechanical properties according to the thermal gradient. The heat transfer area of the heating part is small so that the uniform heating effect is improved, and after completing the quenching process, the plate is discharged through the upper and lower transfer rollers to prevent deformation of the plate to obtain high quality plate. There is.

Thick plate, continuous induction heating heat treatment, continuous induction heating quenching furnace, continuous induction heating furnace, conveying device, driving roller, quenching, tempering, normalizing, annealing

Description

Continuous processing of thick plate by induction heating method and apparatus {The processing apparatus using inducting heating of the part in the steel plate and a method

1 is a flow chart of the present invention

2 is a device diagram of the present invention.

3 is a partially exploded perspective view of the present invention continuous induction heating incineration furnace

4 is an exploded perspective view of a part of the present invention the cooling device and the transfer roller

5 is a partially exploded perspective view of the present invention continuous induction heating furnace

[Explanation of symbols on the main parts of the drawings]

1: thick plate 10: continuous induction heating furnace

11, 41: induction heating device 20: cooling device

21: Upper coolant head 21a, 22a: spray nozzle

22: Lower coolant head 23, 12, 42: Material sag prevention rail

24: cooling water supply port 30: feed roller

31: upper feed roller 32: lower feed roller

40: continuous induction heating method 50: driving roller

51: drive motor

S1: Material Inspection and Preparation Process S2: Continuous Induction Heating Process

S3: Continuous Cooling Process S4: Transfer Process

S5: intermediate inspection process S6: continuous induction heating consideration process

S7: Final Inspection Process

The present invention relates to a heat treatment method and apparatus, which will be described in more detail, high tensile strength and high strength steel sheets used for ships, general and welded structures, boilers and pressure vessels, line pipes, weathering and corrosion-resistant steel, etc. The present invention relates to a method and apparatus for continuous heat treatment of a thick plate for use as a steel pipe, wherein the heated plate is cooled and quenched by a continuous induction heating furnace, and charged into a continuous induction heating furnace through a transfer device. Tempering) improves productivity by continuously heat-treating thick plates, improves good structure and mechanical properties through uniform heating, prevents deformation through upper and lower feed rollers, and continuously guides them to the purpose of thick plates. Continuous heat treatment of thick plate by induction heating which enables continuous heat treatment work such as soaking process and annealing process by heating It is about Lee method.

In general, heat treatment refers to an operation for heating a metal material to a temperature below the melting point and selectively adding or decreasing a cooling rate to give the required structure and properties, such as quenching, loosening, soaking and tempering. .

Through such heat treatment, the metal or alloy has properties such as strength, hardness, abrasion resistance, impact resistance, workability, and magnetic properties, so that the metal is processed to be suitable for use in the metal.

Thick plates widely used for ships or bridges, construction, industrial machinery, offshore structures, etc. are characterized by their extremely large size, the thickness of which is at least 6mm to 150mm, the width is 1,000mm to 4,500mm, and the length is Plates manufactured in various sizes with a maximum of about 25m are widely used in various fields. In order to heat-treat the thick plates, heat treatment processes such as quenching and tempering are performed as intermittent processes, and thus deformation due to thermal gradient is performed. This problem inevitably occurred.

In addition, due to the intermittent quenching and tempering process, one plate needs to complete the heat treatment process and then the next plate needs to be loaded and heat treated. Dipping and cooling have many problems that are difficult to correct due to severe deformation and cause various costs and time loss.

Therefore, the present invention was invented in view of the above problems, and after quenching by rapidly cooling a thick plate heated to a temperature of 800 ° C to 1,000 ° C through a continuous induction heating quenching furnace, continuous through a driving roller. It is intended to improve productivity compared to a heat treatment system made of a conventional intermittent process by charging a plate in an induction heating furnace and tempering to a temperature of 500 ° C to 700 ° C.

In addition, by installing an induction coil 10% larger than the width and height of the thick plate inside the continuous induction furnace, the thick plate is uniformly heated as it passes through this coil, thereby improving good structure and mechanical properties according to the thermal gradient. The heat transfer area of the part is small to improve the uniform heating effect, and after the quenching process is completed, the plate is discharged through the upper and lower feed rollers to prevent deformation of the plate to obtain high quality plate. It is done.

The present invention relates to a method and apparatus for continuous heat treatment of a thick plate by induction heating. After cooling and quenching a heated plate through a continuous induction heating quenching furnace, it is charged into a continuous induction heating furnace through a driving roller. By tempering, the thick plate is continuously heat treated to improve the productivity of the thick plate, and it is characterized by obtaining good structure and mechanical properties by uniform heating.

The present invention consists of seven steps, the material inspection and preparatory process (S1) for inspecting and preparing a plate-shaped thick plate (1) formed of any one material of the general structural steel and the general mechanical structural carbon steel and alloy steel that are heat treatment objects And, the prepared induction plate 10 into the continuous induction heating quenching furnace 10 and the continuous induction heating step (S2) of heating to a temperature of 800 ℃ to 1,000 ℃ by the induction heating device 11, and complete heating The thick plate 1 is transferred to the cooling device 20 to spray cooling water to complete the quenching process, and the upper and lower transfer rollers 31, which are subjected to the hardening, are finished. 32, the transfer process (S4) to move through, the intermediate inspection step (S5) for inspecting the deformation and the like of the conveyed thick plate (1), and the thick plate (1) completed the inspection using the driving roller (50) After charging to the continuous induction heating furnace 40 to 500 ℃ to 700 ℃ Continuous induction heating process (S6) to complete the tempering by heating the road (S6), and the final inspection process (S7) to cool the thickened plate (1), the hardness and deformation inspection and appearance inspection to complete the tempering (Tempering) It is configured to have an approximate configuration for completing heat treatment of thick plates fabricated in various sizes.

Looking at the embodiment of the present invention through the drawings as follows.

FIG. 1 shows a flow chart of the present invention, and FIG. 2 shows a device diagram of the present invention. As shown in the drawing, the first step is to inspect the thick plate 1 in the form of a plate and fit it to the working environment. Complete the material inspection and preparation process (S1) to prepare by adjusting.

The thick plate 1 used is a steel plate for welded structures used for various structures, bridges, construction, rolled steel sheets for pressure vessels, and tempered Mn-Ni steels and Mn-Mo for pressure vessels used as steel plates for high-pressure gas vessels. -It is configured to be applied to Ni steel, carbon steel, alloy steel and tool steel for general mechanical structure.

The main chemical components of the thick plate 1 used above are as follows.

Then, in the second step, the thick plate 1 having completed the inspection and preparation is charged to the continuous induction heating quenching furnace 10 and heated to a temperature of 800 ° C. to 1,000 ° C. by the induction heating device 11 to continuously induce it. The heating step (S2) is completed.

The configuration of the continuous induction heating quenching furnace 10 used is well illustrated in FIG. 3, wherein the induction heating device 11 is formed in the shape of a rectangular coil inside the continuous induction heating quenching furnace 10. The width and height of the heating device 11 is made about 10% or more larger than the width and height of the thick plate 1 passing therethrough so that the thick plate 1 is heated in a manner that does not contact the induction heating device 11. In addition, the temperature distribution is uniform and the heat transfer area of the heating part is small, so that the surface and the inside of the thick plate 1 are uniformly heated.

Preferred form of the continuous induction heating quenching furnace 10 is the induction heating device 11 of the three rows are arranged side by side in parallel, the material sagging prevention rail 12 is provided between each induction heating device (11). It is configured so that the thick plate (1) does not sag during induction heating.

After that, the third step is performed to complete the continuous cooling step S3 of completing the quenching of the thick plate 1 by passing the thick plate 1 having the induction heating completed through the cooling device 20.

The cooling device 20 for cooling the heated rear plate 1 is well illustrated in FIG. 4. When the heated rear plate 1 is transferred into the cooling unit 20, the spray nozzles 21a and 22a Quenching by allowing the thick plate 1 to be quenched in a spraying manner in which the plate 1 is instantaneously and strongly sprayed with water or a water soluble oil through the formed upper and lower coolant heads 21 and 22. It is configured to increase the effect.

The upper and lower coolant heads 21 and 22 may have a cylindrical shape, and spray nozzles 21a and 22a may be spaced apart from the lower surface of the upper coolant head 21 and the upper surface of the lower coolant head 22 by a predetermined interval. It is formed to, and has a configuration that the cooling water supplied through the cooling water supply port 24 is sprayed in the form of a spray.

In the preferred form of the cooling device 20, three pairs of upper and lower coolant heads 21 and 22 are arranged side by side in a parallel form, and material sag is prevented between the upper and lower coolant heads 21 and 22. The rail 23 is provided so that the rear plate 1 does not sag during cooling.

Then, the fourth step is a step of transferring the thick plate (1) is completed, the quenching (Quenching), the transfer roller formed in the end of the cooling device 20 the cooling plate 20, the cooling is completed through the cooling device 20 Complete the transfer step (S4) to transfer to the intermediate inspection step (S5) through (30).

The conveying roller 30 used is composed of cylindrical upper and lower conveying rollers 31 and 32 formed on the upper and lower ends of the cooling device 20. The upper and lower plates 1 are quenched. By passing between the transfer rollers 31 and 32, it is comprised so that the deformation | transformation of the material which may arise after quenching can be obtained, and the high quality thick plate 1 can be obtained.

The fifth step is performed in the middle of quenching is completed and the intermediate plate (1) transferred by the conveying roller 30 to the hardness test and appearance inspection on the drive roller 50 to inspect whether the material is deformed The inspection process (S5) is completed.

After that, the sixth step is performed by inserting the thick plate 1 having the intermediate inspection completed into the continuous induction heating furnace 40 through the driving roller 50 which is rotated by the drive motor 51, and then, 500 to 700 ° C. Complete the continuous induction heating process (S6) to complete the tempering (Tempering) to lower the hardness and increase the viscosity by heating to a temperature of ℃.

The configuration of the continuous induction heating furnace 40 used is well illustrated in FIG. 5, and the shape is formed in a form substantially similar to that of the continuous induction heating furnace 10 used in the second process. Bar, the preferred continuous induction heating furnace 40 is formed of two rectangular coil-shaped induction heating device 41 is installed in parallel, between the material sag prevention rail 42 is provided between the It is configured to prevent material deformation during tempering.

The continuous induction heating consideration step (S6), the transformation or precipitation of the tissue generated by the second and third processes to play a role to close to the stable structure, and heated through the induction heating device 41, slow cooling The structure of the thick plate 1 is thereby stabilized.

The seventh step, which is the last step, manufactures the present invention by completing the final inspection step (S7) of inspecting the physical properties and the appearance of the thick plate 1 on which the heat treatment is completed, and whether or not the heat treatment is performed according to the intended use. It has a structure which completes all processes.

Looking at one embodiment of the present invention made of the above process through the operation process, in the case of POSTEN80 of the welded high tensile strength steel sheet, 0.16% or less carbon, 0.15% to 0.35% or less silicon, 1.20% or less manganese, 0.030 Up to% phosphorus and sulfur, up to 0.40% to 0.80% chromium up to 0.40% to 1.50% nickel, up to 0.30% to 0.60% molybdenum, up to 0.10% vanadium, up to 0.15% to 0.50% copper, up to 0.006% boron Is a steel plate containing a thick plate (1) charged in the plate-shaped thick plate (1) having a thickness of 6mm to 50mm or less in the continuous induction heating furnace 10, and loaded by an induction heating device 11 installed therein (1) This transfer is to be heated to a temperature of 800 ℃ to 1,000 ℃ by the continuous induction heating quenching furnace 10, the heating is completed, the plate 1 is sprayed by the water or water-soluble oil and oil in the cooling device 20 Rapidly cooling to complete quenching Such that.

Thereafter, after the cooling is completed, the rear plate 1 is discharged so as not to be deformed through the transfer roller 30 formed at the end of the cooling device 20, and then the hardness and appearance of the discharged rear plate 1 are examined. In the continuous induction heating furnace 40 through the driving roller 50, the rear plate 1 is heated to a temperature of 500 ° C. to 700 ° C. to be changed into a stable structure, thereby completing tempering.

After completing the tempering (Tempering), the plate 1 completes the present invention by confirming the appearance and hardness through inspection and the final inspection.

According to the present invention having the configuration as described above, after quenching by rapidly cooling the thick plate heated to a temperature of 800 ℃ to 1,000 ℃ through a continuous induction heating quenching furnace (Quenching), through the conveyor drive roller The plate is continuously heat treated by tempering at a temperature of 500 ° C. to 700 ° C., thereby improving productivity compared to a heat treatment system made of a conventional intermittent process.

In addition, by installing an induction heating device that is 10% or more larger than the width and height of the thick plate inside the continuous induction furnace, the thick plate is uniformly heated as it passes through this coil, thereby improving good structure and mechanical properties according to the thermal gradient. The heat transfer area of the heating part is small to improve the uniform heating effect, and after the quenching process, the plate is discharged through the upper and lower feed rollers to prevent deformation of the plate to obtain high quality plate. There is.

Claims (2)

In the heat treatment method of the thick plate, Material inspection and preparation process (S1) for inspecting and preparing a plate-shaped thick plate (1) formed of any one material of the general structural steel and the general mechanical structural carbon steel and alloy steel, which are heat treated objects, A continuous induction heating step (S2) of charging the prepared thick plate 1 into the continuous induction heating quenching furnace 10 and heating it to a temperature of 800 ° C. to 1,000 ° C. by the induction heating device 11; A continuous cooling process (S3) of transferring the rear plate 1 to the cooling device 20 to complete the heating and spraying the cooling water to complete quenching; Transfer process (S4) for discharging the thick plate 1 is completed through the upper and lower transfer rollers (31, 32) and, An intermediate inspection step (S5) for inspecting deformation and the like of the transferred thick plate 1, After the inspection is completed, the plate 1 is loaded into the continuous induction heating furnace 40 using the driving roller 50 and then heated to a temperature of 500 ° C. to 700 ° C. to continuously temper. Concerning process (S6), It consists of a final inspection process (S7) to cool the tempering (Tempering) is completed, the hardness and deformation inspection and the appearance inspection, it is possible to heat treatment the thick plate 1 continuously Continuous heat treatment method. In the heat treatment apparatus of a thick plate, Induction heating devices 11 in the form of rectangular coils are arranged and arranged side by side in a parallel form therebetween, and each induction heating device 11 is a continuous induction heating furnace 10 provided with a material sag prevention rail 12. )Wow, Cylindrical upper and lower coolant heads 21 and 22 are arranged and formed side by side in parallel, and spray nozzles are disposed on the lower surface of the upper coolant head 21 and the upper surface of the lower coolant head 22 at regular intervals. (21a, 22a) is formed, the cooling device 20 provided with a material sag prevention rail 12 between the lower cooling water head 22, Cylindrical upper and lower conveying rollers 31 and 32 are formed on the upper and lower ends of the cooling device 20, and the quenching complete plate 1 passes between the upper and lower conveying rollers 31 and 32. A transfer roller 30 configured to be discharged by Induction heating devices 41 in the form of rectangular coils are arranged and arranged side by side in a parallel form therebetween, and each induction heating device 41 has a continuous induction heating furnace provided with a material sagging prevention rail 42. And a thick plate 1, which is capable of continuously heat treating the thick plate 1.

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