JPH0711159Y2 - Induction hardening equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to an induction hardening apparatus.

<Prior Art> In the conventional induction hardening apparatus, the heating coil is fixed to the secondary side of the current transformer, and the current transformer and the heating coil are integrated. Then, normally, the male contact flange provided on the secondary side of the current transformer is fitted to the female contact flange provided at the end of the high frequency heating coil to supply the high frequency current from the current transformer to the heating coil. A path is formed.

<Problems to be solved by the invention> Usually, the weight of a current transformer is about 150 to 500 kg, and even if the frequency of the high frequency voltage applied to the current transformer is very high, it is several tens of kg. On the other hand, the weight of the heating coil is up to about 30 kg, and the weight of the heating coil in which the frequency of the high frequency current to be conducted is very high is about several hundred g.

As can be seen from the above, the weight of the current transformer is extremely large compared to the heating coil. Therefore, not only the heating coil but also the heating coil is fixed when the heating coil is placed on the work to heat the object to be hardened (work) or when the heating coil is retracted after heating. In addition, since it is necessary to move a large heavy object including the current transformer, the equipment required for this movement becomes large-scale, the coil of the induction hardening apparatus becomes high, and the power required for moving the heating coil is large. there were.

The present invention has been made in view of the above circumstances, and provides an induction hardening apparatus that has a simple heating coil moving device, a low cost induction hardening device, and low power required to move the heating coil. The purpose is to do.

<Means for Solving the Problems> In order to solve the above-mentioned problems, the induction hardening apparatus of the present invention comprises a current transformer fixed to the main body of the induction hardening apparatus, a saddle type high frequency heating coil, and the saddle type high frequency wave. A coil supporting frame for holding the heating coil, a base plate slidably provided on the main body of the induction hardening apparatus, an elevating device fixed to the base plate to elevate and lower the coil supporting frame, and a base provided on the main body of the induction hardening apparatus. A moving device that slides the plate in the longitudinal direction of the work, two flexible conductors that electrically connect the current transformer and the saddle-type high-frequency heating coil via a coil support frame, and the flexible conductors. And a flexible insulator provided between the bodies.

<Operation> Even if the heating coil is moved, the current transformer does not move because the heating coil and the current transformer are connected by the flexible conductor. Therefore, the electric power and torque for moving the heating coil are small.

<Embodiment> An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic configuration diagram for explaining one embodiment of the present invention. As shown in FIG. 1, the current transformer 10 is
It is housed in a casing 15. The casing 15 is a current transformer mount 17 provided in the induction hardening apparatus main body 50.
It is fixed to. One end of the secondary circuit of the current transformer 10 is connected to the conductor 11, and the other end is connected to the conductor 12.
And 12 project to the outside of the casing 15 through an opening 16 provided in the casing 15.

Reference numeral 20 is a saddle type heating coil, which is used to heat the peripheral surface of a cylindrical work (not shown). One end of the heating coil 20 is connected to the conductor 21 and the other end is connected to the conductor 22.
The tip portions of 21 and 22 are drawn out of the coil supporting frame 25 through an opening 26 formed in the coil supporting frame 25 holding the heating coil 20.

In order to connect the heating coil 20 to the secondary side of the current transformer 10, thin strip conductors 31 and 32, which are flexible conductors, are provided. One end of the strip conductor 31 is the current transformer 10
Is fixed to the tip portion of the conductor 11 on the secondary side, and the other end is fixed to the tip portion of the conductor 21 connected to one end of the heating coil 20. The strip conductor 32 has one end fixed to the tip of the secondary conductor 12 of the current transformer 10 and the other end fixed to the tip of a conductor 22 connected to the other end of the heating coil 20. . A thin strip-shaped insulator 33 (for example, a Teflon sheet) that withstands high temperatures is arranged between the strip-shaped conductors 31 and 32 to prevent contact with the strip-shaped conductors 31 and 32. One end is 2 of current transformer 10
To the insulator support plate 13 attached to the casing 15 between the conductors 11 and 12 on the next side, the other end to the insulator support plate 23 attached to the coil support frame 25 between the conductors 21 and 22, respectively, It is fixed.

The lifting device for the heating coil 20 includes, for example, a chain 40 connected to the upper portion of the coil support 25, a sprocket 41 around which the chain 40 is wound, and a coil lifting motor 45 having the sprocket 41 attached to the output shaft. The motor 45 is attached to a base plate 46, and the moving device of the heating coil 20 is composed of a rod 47 connected to the base plate 46 and a cylinder 47 connected via the rod 47. Is configured to be moved in the longitudinal direction of the work. Note that, in FIG. 1, for convenience of explanation, the moving direction of the moving device is illustrated as being orthogonal to the longitudinal direction of the workpiece. The base plate 46 is slidably attached to the induction hardening apparatus main body 50.

Next, the operation of this embodiment will be described.

The cylinder 48 is operated, and the coil elevating motor 45 is operated to place the heating coil 20 on the cylindrical work (not shown). The space between the heating coil 20 and the work is maintained by a spacer (not shown) attached to the heating coil 20. At this time, the coil support frame 25 of the heating coil 20 is fixed to the main body of the induction hardening apparatus by means not shown. After that, when a high frequency voltage is applied to the current transformer 10 for a predetermined time while rotating the work by a rotating device (not shown), a high frequency current flows in the heating coil 20,
The work is heated by the induced current. Next, the fixing of the coil supporting frame 25 to the main body of the induction hardening apparatus is released. After that, the coil lifting motor 45 and the cylinder 48 are operated to raise and move the heating coil 20. Then, a quenching cooling liquid is sprayed onto the work from a jacket (not shown) to form a hardened layer on the peripheral surface of the work, and the quenching is completed.

When the heating coil 20 is moved up and down using the coil lifting motor 45 and the cylinder 48, the heating coil 20 and the current transformer 10 are connected by the flexible band conductors 31 and 32 and the band insulator 33. Therefore, the current transformer 10 does not move. Further, since the strip-shaped insulator 33 is disposed between the strip-shaped conductors 31 and 32, the strip-shaped conductor is moved while the heating coil 20 is moving up and down and moving, and the heating coil 20 is heating the workpiece.
No contact between 21 and 32.

In the coil elevating motor 45 of this embodiment, only the heating coil 20 is moved up and down, so the motor 45, the chain 40 and the sprocket 41 are small, and the cylinder 48 is also the heating coil 20.
Since only the elevating device is moved, the size is reduced, which can contribute to the reduction in the cost of the induction hardening device, and the electric power required for the coil elevating motor 45 and the required torque for the cylinder 48 can be reduced.

Although a thin strip conductor is used as the flexible conductor in this embodiment, a flexible braided conductor may be used. Alternatively, an insulated flexible electric wire may be used as the flexible conductor. In that case, the strip-shaped insulator 33 may not be used. Further, the heating coil 20 can be moved up and down by using a device using liquid pressure or air pressure.

<Effects of the Invention> As described above, the induction hardening apparatus of the present invention includes a current transformer fixed to the body of the induction hardening apparatus, a saddle type high frequency heating coil, and a coil support for holding the saddle type high frequency heating coil. A frame, a base plate slidably provided on the main body of the induction hardening device, an elevating device fixed to the base plate to elevate and lower the coil support frame, and a base plate provided on the main body of the induction hardening device in the longitudinal direction of the workpiece. A moving device that slides, two flexible conductors that electrically connect the current transformer and the saddle-type high-frequency heating coil via a coil support frame, and a flexible conductor are provided between the flexible conductors. And a flexible insulator.

Therefore, since the induction hardening apparatus of the present invention can be downsized to the heating coil elevating device and moving device, the cost can be reduced, and the required power and torque of the coil elevating device and the moving device can be reduced.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram for explaining one embodiment of the present invention. 10 ... Current transformer, 20 ... Heating coil, 31, 32 ...
… Strip conductor, 33 …… Strip insulator.

Claims (1)

[Scope of utility model registration request] 1. A current transformer fixed to a main body of an induction hardening apparatus, a saddle type high frequency heating coil, a coil support frame for holding the saddle type high frequency heating coil, and a slidably provided on the main body of the induction hardening apparatus. Base plate, an elevating device fixed to the base plate to elevate and lower the coil support frame, a moving device provided in the main body of the induction hardening device for sliding the base plate in the longitudinal direction of the workpiece, and a current through the coil support frame. It is characterized by comprising two flexible conductors electrically connecting the transformer and the saddle-type high-frequency heating coil, and a flexible insulator provided between the flexible conductors. Induction hardening equipment.