KR100662963B1 - Method for production of heat-treated modified cross-section steel wire - Google Patents

Abstract

The rolling heating coil 6, which is a rolling heating means, the four-way roller mill 7, and the water cooling jacket 8, which is a quenching cooling method, are disposed in parallel to each other, and the material steel wire W1 is placed side by side. The furnace is rapidly heated to a rolling temperature, and rolled to a release wire rod W2 of a predetermined cross-section with a four-way roller rolling machine 7, and immediately after rolling while applying a tensile force with the pinch roller 9 to the release wire rod W2. It is quenched with a water cooling jacket (8) to carry out work hardening.

At this time, since the pinch roller 9 is driven by the motor 9a with the torque converter, there is little variation in tension and the dimensions of the release steel wire do not change. In addition, the rear side of the water cooling jacket 8 is provided with the side heating coils 10 side by side to be continuously polished, thereby making it possible to manufacture a heat-treated release steel wire without any small curvature which is hardened and heat-treated in one process.

Description

Method for production of heat-treated modified cross-section steel wire}

The present invention relates to a method for producing a heat-treated deformed steel wire having a deformed section having a square, square or trapezoidal cross section used for coil springs or other uses.

Conventionally, for example, a coil spring using a steel wire of a cross section is drawn to a cross section by a method such as drawing from a rolled wire rod having a round cross section as shown in FIG. 5. Then, the drawn steel wire is quenched and polished by an oil temper or the like as in the process of FIG. 5A, and then coiled into a coil spring shape, or manufactured by coiling into a coil spring shape. As described above, the coil is coiled into a shape of a coil spring, and then hardened and manufactured using an electric furnace or the like.

However, in manufacturing the coil spring, the above-described method requires two processes, such as drawing out the drawn wire and quenching and considering heat treatment. There was a problem that it was difficult to reduce costs by increasing.

In the method of coiling the heat-treated steel wire of FIG. 5A, when the meandering shape, the screw shape, or the small bend is in the element wire, the dried coil is deformed to yield the product. This will greatly fall. In addition, sufficient quality was not obtained at this point in the hard wire which was hardened and considered by heating a fresh after-heat furnace like conventionally. Therefore, the hardening steel wire which is more linear is calculated | required.

On the other hand, heating quenching is applied while applying tension to obtain a hardened steel wire with high straightness. However, when tension is applied to a steel wire heated at a high temperature, the steel wire increases and the cross section is reduced, and the cross-sectional dimension changes according to the tension variation. There was a problem.

Accordingly, the present invention, by forming a steel wire having a circular cross section into a continuous release cross-section hot to form and heat treatment at the same time, to produce a heat-treated release steel wire heat-treated in one step. It aims to provide a way to. In addition, an object of the present invention is to provide a method for producing a heat-treated deformed steel wire heat-treated with high dimensional accuracy and good linearity by performing tension quenching with little change in tension during hardening cooling. Although the present invention is particularly suitable for steel wires for high strength coil springs, the present invention can be used in a wide range of applications such as heat-treated release steel wires that require straightness due to their heterogeneous cross-sections such as torsional bar torsion bars.

In order to achieve the above object, the heat-treated deformed steel wire of the present invention and a method for manufacturing the same are hot-rolled to a predetermined release cross section by rapidly heating to a rolling temperature by induction heating and / or direct current heating means for a short time, and rolling After quenching and then working quenching, characterized in that the heat treatment to be considered.

In other words, it can be seen that when the heat treatment is rapidly performed in such a short time, defects such as decarburization by ordinary furnace heating or the like are reduced, and the effect of high work hardening is obtained. By quenching immediately after rolling, growth of crystal grains is inhibited, and Ar3 transformation of the surface layer portion can also be prevented. As a result, the cooling of the surface may be prevented and the precipitation of the ferrite structure may be prevented, thereby obtaining a structure with sufficient hardening up to the surface layer portion. As such, as the work is hardened immediately after the rolling, the molding and heat treatment of the mold release section are performed in one step, and the work hardening enables higher strength than the normal hardening.

On the other hand, if the above-mentioned rolling molding (壓延 成形) is made by a four-way rolling roller can be a simple cross-sectional molding in a small rolling stand.

Further, the steel wire to be processed is rapidly heated to Ac3 temperature or more at a heating temperature of 100 ° C / s or more in a short time, and rolled to a predetermined release cross section with a rolling roller at a temperature of Ar3 or more. It is preferable to quench the workpiece by quenching by means of quenching cooling means arranged side by side close to the rolling roller to obtain high tensile strength. This quenching cooling means should be provided so as to be arranged as close to the rolling roller as possible, so that the growth of crystal grains is prevented by quenching immediately after rolling so that a high quenching hardness can be obtained. do.

As such, by hot-working the release section with a rolling roller, scratches and the like can be reduced as compared with conventional molding such as drawing, thereby obtaining a spring steel wire having a good surface. In the case of high alloy steel having a high alloying degree and the like, the work hardening is so large that cold drawing is difficult. However, according to this rolling method, it is also easy to process the cross section of the high alloy steel.

In order to improve the straightness of the heat-treated steel wire, it is preferable that the above-mentioned working hardening be performed by performing a tensile work hardening that quenches the steel wire immediately after hot rolling while applying tension to the steel to be processed. The tension applied to the steel wire to be applied is applied by a pinch roller, a winding machine, or a capstan device driven by a drive device with a torque converter that absorbs the tension change of the steel wire. This is desirable to avoid.

As described above, the coiling for forming the coil spring has no effect even if the wire has a certain size of curvature, but if the wire has a meandering shape, a screw shape deformation or a small curve, the shape of the product Defects occur in the product yield is low. On the other hand, in the method according to the present invention, since the tensile work is hardened while applying a tension to the wire rod when the working hardening is performed after rolling, such a high straight quenched spring wire without such small bending is obtained. You can lose. Accordingly, the yield of the product is improved in forming the coil spring. On the other hand, even when used for applications such as a release torsion bar that is used in a straight line other than the coil spring, molding labor such as calibration is greatly reduced, thereby reducing costs.

In addition, since the high-temperature wire rod has low strength at the time of hardening, when the tension applied to the wire rod varies, there is a fear that the cross-sectional dimension may change. Accordingly, the present invention uses a drive device with a torque converter in driving a pinch roller, a winding machine, and a capstan device to absorb a change in tension caused by the torque converter, thereby providing a constant tension to the wire rod. It is characterized by hardening while. As a result, it is possible to obtain a steel wire for quenched spring having a high dimensional accuracy with a uniform cross-sectional dimension. Particularly, in the case of a release wire rod having a small diameter cross section, when the tension is directly applied to the wire rod, the cross sectional dimension is largely changed. However, when the tension is applied through the torque converter of the present invention, even a release wire rod having a small diameter cross section, which has been difficult in the past, is difficult. Tension quenching becomes possible. Here, the drive device with a torque converter does not necessarily mean that the torque converter and the drive device are integrated, but includes all that are configured to drive the torque converter through the torque converter.

It is preferable to carry out the heat treatment to the soaking temperature continuously by induction heating after the above-mentioned process hardening, so that the hardening heat treatment and the soaking heat treatment can be carried out continuously, which is advantageously arranged side by side behind the hardening cooling means. It is preferable to carry out continuously by an induction heating coil.

The manufacturing method according to the present invention is effective for processing a deformed steel having a cross section close to a square, a square or a trapezoid, and a heat-treated deformed steel having a tensile strength of 1600 N / mm ² or more can be easily produced.

The heat treatment release steel wire continuous production apparatus according to the present invention for producing a heat-treated release steel wire as described above, the rolling heating means for heating the material steel wire to the rolling temperature and / or by direct current heating, and a predetermined release cross section hot The rolling means for forming, the hardened quenching means for quenching and quenching immediately after rolling forming while applying tension to the steel to be processed, and the tension adding means are arranged side by side.

The rolling means is a four-way roller mill, and the tension adding means is preferably a pinch roller, a winder, or a capstan device driven by a drive device with a torque converter, and the back of the quenching and cooling device is heated to a soaking temperature. The sour heating means are arranged side by side so that the hardening and souring can be made continuously.

1 is a conceptual diagram showing the configuration of a heat treatment release steel wire manufacturing apparatus according to an embodiment of the present invention,

2 is a view showing one example of the cross-sectional shape of the heat treatment release steel wire according to an embodiment of the present invention,

3 is a view showing the roller shape of the four-way roller rolling machine in one embodiment of the present invention,

Figure 4 is a flow chart showing the manufacturing process of the heat treatment release steel wire according to an embodiment of the present invention,

5 is a process chart showing a method of manufacturing a coil spring with a conventional heat-treated release steel wire,

6 is a chemical composition of a rolled wire according to an embodiment of the present invention,

7 is a table showing the specifications of the heat treatment release steel wire according to an embodiment of the present invention,

8 is a table showing the temperature at each position of the heat treatment release steel wire manufacturing apparatus according to an embodiment of the present invention,

Figure 9 shows an example of the mechanical properties of the heat treatment release steel wire according to an embodiment of the present invention.

(Explanation of major reference signs)

1----Horizontal Rollers 2----Vertical Rollers

6----Induction heating coil (rolled heating means)

7----4-way roller mill (rolling means)

8----Water Cooling Jacket

9----Pinch Roller

9a----Motor with Torque Converter

10----Sour heating coil 11----Winding machine

W1----Material Steel W2----Steel

 Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a conceptual diagram showing the overall configuration of the apparatus for manufacturing a heat-treated release steel wire according to an embodiment of the present invention, Figure 2 shows an example of the cross-sectional shape of the heat-treated release steel wire used in this embodiment, Figure 3 is a Figure 4 shows the roller shape of a rolling four-way roller rolling machine (rolling means), Figure 4 is a process chart showing a manufacturing process of the heat-treated release steel wire according to the present embodiment.

In Fig. 1, the rolling heating coil 6, which is a rolling heating means, a four-way roller mill 7, which is a rolling means, a water cooling jacket 8, which is a hardening cooling means, a pinch roller 9, which is a tension adding means, A sour heating coil 10, which is a sour heating means, is installed side by side, and finally, a winder 11 is provided. The pinch roller 9 is driven by the motor 9a to which the torque converter reducer is attached.

The heat-treated release steel wire of this embodiment has a trapezoidal cross section as shown in FIG. And, the four-way roller rolling machine 7 for rolling this is composed of a pair of horizontal rollers (1, 1) up and down and a pair of vertical rollers (2, 2) left and right as shown in FIG. Moreover, the side surface of a trapezoidal cross section is formed by the upper and lower horizontal rollers 1, and the upper surface and the bottom surface are formed by the left and right vertical rollers 2, respectively.

Next, the manufacturing process will be described with reference to FIGS. 1 and 4.

First, the impurities such as rust of the surface of the raw material of the rolled steel having a predetermined diameter are removed in the previous process, and then drawn into the raw material steel W1 having a circular cross section of the predetermined diameter. This raw material steel wire W1 is supplied to the rolling heating coil 6 from an unillustrated unwinder. The steel wire W1 is inductionly heated by the rolling heating coil 6 and then hot rolled into a release wire W2 having a trapezoidal cross section as shown in FIG. 2 by the four-way roller rolling machine 7. Immediately after hot rolling, it is quenched by the water cooling jacket 8 to be quenched. At this time, since the pinch roller 9 is rotating at a feed speed slightly faster than the rolling exit speed, the release wire W2 is quenched while being tensioned by the pinch roller 9 and sent out.

As the tension is applied and cooled, a hardened steel wire having high linearity can be obtained. In addition, since the pinch roller 9 is driven by the motor 9a equipped with the torque converter reducer, excessive tension does not act on the deformed steel wire W2, so that the dimensional variation of the wire rod can be prevented. The sintered wire rod is heated to the soaking temperature by the sour heating coil 10 and soaked so as to be wound by the winding machine 11. In addition, the heat-treated release steel wire wound in the form of a coil after being heat-treated is coiled into a predetermined shape to be used as a coil spring to be molded.

That is, in the conventional method, as shown in FIG. 5, the process consists of two steps, a process of drawing a fresh cross section and a process of hardening and quenching. There is a characteristic in that it is made.

On the other hand, in this embodiment, the tension is applied to the wire rod by the pinch roller, but may be by the capstan device instead of the pinch roller, or may be applied by the winding machine. In this case, a motor with a torque converter is used to drive the capstan device or the winder. In addition, rolling heating may be made by direct electricity, or may be combined with induction heating and direct electricity.

(Example)

Figure 6 shows the chemical composition of the rolled wire used in this embodiment.

The rolled wire is drawn in a round wire to form an element wire, and then the element is rolled to have a trapezoidal cross section having the shape shown in FIG. The dimensions of the deformed steel wire of the rolled trapezoidal cross section and the diameter of the corresponding material are shown in FIG. 7. The reduction rate during the transition from the strand to the deformed steel is about 0.9. Steel wires rolled in trapezoidal cross sections of various dimensions are quenched under tension and subjected to work quenching followed by continuous cutting. In the mold release steel having small diameter cross sections such as 40 series, 30 series, and 25 series shown in FIG. Since tension is applied to the steel sheets, even tensile steel wires having such small diameter cross sections can be tension quenched.

Next, the example of L-60 is demonstrated as an example of the product of FIG.

L-60 is a cross-section similar to the trapezoid shown in Fig. 2 with a height of 14.40 mm, a bottom surface of 7.10 mm, and a top surface of 4.70 mm, but it was rolled into this shape using a circular wire having a diameter of 10.80 mm. The reduction rate was 0.9059. The error of the cross-sectional dimension is 0.05mm or less, so that high precision heat-treated deformed steel can be made.

Heating conditions, the temperature was raised to the rolling temperature for 7 seconds, the feed rate of the steel wire was 100mm / s at the exit side. The heat treatment temperature is the heating coil side of Fig. 1, the cracked position after heating, the inlet of the roller, the outlet of the roller, the water cooling jacket and the heat of heating. The temperature was measured at each position of the later position (6), and the measurement result is shown in FIG.

That is, the steel wire is heated to a temperature of about 1024 ° C., which is equal to or higher than the Ac3 temperature, by the rolling heating coil 6, thereby forming a γ structure. The rolling process can be performed at a temperature range of Ar3 or higher of 850 to 760 ° C. by the four-way roller mill 7. Will be. Immediately after rolling, the solution is quenched by quenching at a temperature of Ar1 or higher at 740 ° C. As a result, a hardened structure having a fine martensitic structure is made, so that high strength can be obtained. The steel wire that has been quenched is heated to about 500 ° C. by the sour heating coil 10 to be soured.

An example of the mechanical properties of the L-60 heat-treated release steel wire subjected to the rolling heat treatment under the above conditions is shown in FIG. 9. That is, the heat-treated deformed steel wire according to the present invention has a tensile strength of 1600 N / mm ² or more and elongation of 10% or more, high strength and high elongation could be obtained.

In addition, the heat treated release steel wire did not show any small curvature, and thus high straightness could be obtained. As a result of shaping the coil spring using this heat-treated release steel wire, when the release steel wire according to the conventional process heat-treated by furnace or the like was used, the defective rate at the time of coil forming sometimes reached 10%. The defective rate became almost 0% by using.

The heat-treated deformed steel wire having other various dimensions shown in Fig. 7 was also rolled, but in all of them, the error in the cross-sectional dimension was 0.05 mm or less, so that a high-precision heat-treated deformed steel wire could be obtained. 7 shows an example of the mechanical properties of the heat-treated release steel obtained in this way, the linearity and high tensile strength and elongation can be obtained similarly to the above example, and the same is true for all the release steel of the present invention. The defective rate at the time of coil forming became almost 0%.

In addition, the present embodiment confirmed the effect on the coil spring made with a heat-treated release wire having a trapezoidal cross section. However, the present invention can be applied not only to trapezoidal cross sections but also to heat treated release wires having angular or rectangular cross sections. In the application as well as the coil spring, because of the good linearity, even the release torsion bar used in a straight form, such as reduced the man-hours and the product yield can be improved. It goes without saying that the present invention can be widely applied to other uses.

As described above, according to the heat-treated release steel wire and the manufacturing method thereof according to the present invention, since they are rapidly heated by induction heating for a short time, defects such as decarburization do not occur as with other heating methods. In addition, since the mold is rolled into a mold and simultaneously subjected to quenching heat treatment, the heat-treated release steel can be made in one process. In addition, high strength may be obtained by rapid heating and work hardening.

In this work quenching, the processed steel wire is rapidly heated to the Ac3 temperature or more, and rolled into a predetermined shape with a four-roll rolling roller at a temperature range of Ar3 or more, and immediately quenched by a hardening cooling means from a temperature of Ar1 or more immediately after rolling. By quenching, high strength with a tensile strength of 1600 N / mm ² or more can be obtained.

In addition, since hot rolling is performed on a sectional surface with a rolling roller, the surface is scratched and scratches are reduced compared to cold stretching, so that a heat-treated release steel wire with a clean surface can be obtained, and processing of high alloy steel, which is difficult to cold drawn, It is also possible.

In addition, since hot-rolling is performed by quenching while applying the tension to perform the quenching, it is possible to obtain a heat-treated deformed steel wire having a high straightness without small bends such as meandering or warping. Since the tension applied during the quenching is imparted by a pinch roller, a winder, or a capstan device driven by a drive device equipped with a torque converter, there is no change in tension and a small change in cross-sectional dimension due to tension. There is a characteristic to say. Since the effect is particularly large for wires having a small diameter, the present invention enables tension quenching of a conventional small diameter release wire which has been difficult.

On the other hand, in this embodiment, the rolling heating is heated by induction heating, but may be by direct current heating, or may be used together. In this embodiment, the cross section of the four-way roller mill is made of one stand, but may be two or more stands. In addition, the cross-sectional shape of the heat-treated release steel wire may have various cross-sectional shapes such as a square or a rectangle in addition to the trapezoidal shape of the present embodiment.

As described above, according to the heat-treated release steel wire according to the present invention, and a manufacturing method and a manufacturing apparatus thereof, since the heat-treated release steel wire with excellent linearity and high strength can be obtained in one process, it is small when used as an element wire of coil spring. The failure rate of the coil forming due to bending can be lowered to almost zero, and the manufacturing cost of making the coil spring with the deformed spring steel can be significantly lowered. In particular, it becomes effective to manufacture the heat-processing release steel wire of the small cross section which was conventionally difficult. In addition, it can be widely used for other applications such as a torsion bar having a release cross section.

Claims (14)

delete delete The steel wire to be processed is heated to 100 ° C by using heating means for heating the raw material steel to a rolling temperature by induction heating, rolling means for rolling the heated steel wire, and a hardening apparatus provided in parallel with the cooling means. Rapid heating to a temperature above Ac3 temperature at a heating rate of / s or more in a short time, and rolling to a predetermined release section by the rolling means at a temperature of Ar3 or higher without heating and cooling, and then quenching from the temperature of Ar1 or higher by the cooling means immediately after rolling. By heat-treating the die, and forming and quenching heat treatment in one step. The method of claim 3, wherein the hot rolling is performed by rolling with a four-way roller. delete 4. The cooling apparatus of claim 3, wherein a tension adding means for applying tension to the steel to be processed is provided side by side behind the cooling means of the quenching device, and the tension adding means is used to rapidly cool the tensioned steel wire immediately after hot rolling. Method for producing a heat-treated deformed steel, characterized in that the tension processing hardened. The heat-treated deformed steel wire manufacture according to claim 6, wherein the tension adding means is a pinch roller, a winder, or a capstan device driven by a drive device with a torque converter that absorbs a change in tension of the steel wire to be processed. Way. The method according to claim 3, characterized in that the rear side of the quenching means of the quenching means is provided side by side heating means for heating to induction temperature by induction heating so as to continuously heat to the souring temperature after the processing quenching. Heat-treated release steel wire manufacturing method. 10. The method of claim 8, wherein the tensile strength of the heat-treated release steel is 1600N / mm ² or more. The method for manufacturing a heat-treated release steel wire according to any one of claims 3 to 6, wherein the heat-treated release steel wire has a square, rectangular or trapezoidal cross section. delete delete delete delete

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