SU1343566A1 - Apparatus for induction heating of articles - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the quality of heating and plant performance. On the side of the inductor 2, facing the product 1, a sensor 4 of the magnetic field strength is installed, the same sensor 5 is installed on its other side. According to the ratio of the EMF measured by the sensors 4 and 5, connected through the dividing unit 6, they regulate the connection between the inductor 2 and the product 1. 1 sludge.

Description

It can be used in metallurgical, machine-building and other areas for heating products.

The purpose of the invention is to improve the quality of heating and plant capacity.

The drawing shows a block diagram of the device.

The heated product 1 is located in the field of the inductor 2, which does not have a solenoidal effect (loop

disk, tape). The inductor has the same under-5 x inductor (it is magnetically connected to the power source 3. There is no connection). The surface of the inductor facing the product is fitted with a magnetic field strength sensor 4, made in the form of one or several turns of copper wire. The same sensor 5 is installed on the opposite (outer) side of the inductor.

The outputs of the sensors 4 and 5 are connected to the block 6 division. Blocks 4-6 form a control unit of the magnitude of the electromagnetic coupling of the inductor with the product. The output of division block 6 is connected to one of the inputs of comparison block 7.

The signal proportional to the size of the gap (magnetic coupling) in the proposed device uses the ratio of the emf of sensors 4 and 5, which eliminates the influence of voltage fluctuations on the inductor on the measurement result. This makes it possible to measure the size of the gap and

25 adjust it continuously without turning off during the heating process.

During the heating process, a voltage is applied to the inductor 2 from the power source 3. Flowing through inductor 2

the second input of which is connected to the block 30 ok creates a magical stream, which

8 tasks. The comparison unit 7 is connected to the input of the control unit 9 by the reversible motor 10, which is mechanically connected to the inductor 2 through the gearbox 11.

The device works as follows.

The current distribution over the cross section of the inductive wire is essentially uneven, due to the proximity effect and surface effect. As a result of these effects, the magnetic flux encompassing the sensor located on the outer (relative to the heated product) surface of the inductor is different in magnitude from the magnetic flux This sensor is located on the inner surface of the armature. This difference is not constant and depends both on the magnitude of the total current of the inductor and on the ratio of its two components on the inner and outer surfaces of the induction wire. The magnitudes of the total current and its components depend on the degree of magnetic coupling between the inductor and the product, t, e, on the distance between the inductor and the product being heated.

and heating No. 1m of the product is close to zero, all current is concentrated on the inner surface of the inductor and the difference in emf of sensors 4 and 5 is maximum. As the gap between the inductor and the product increases, the EMF decreases and, if the distance between the inductor and the product is sufficiently removed (gfi where h is the height of the induction wire), it practically becomes zero, since the currents on the inner and outer surfaces of the inductor are the same ( magnetism is missing).

The signal proportional to the size of the gap (magnetic coupling) in the proposed device uses the ratio of the EMF of sensors 4 and 5, which eliminates the effect of voltage fluctuations on the inductor on the measurement result. This makes it possible to measure the size of the gap and

adjust it continuously without shutting down during the heating process.

During the heating process, a voltage is applied to the inductor 2 from the power source 3. Flowing through inductor 2

five

0

five

0

induces an emf in the coils of sensors 4 and 5, the signals from the output of which act on the inputs of block 6 deletions. Output voltage 6jj: oKa & The divisions, proportional to the ratio of the emf of sensors 4 and 5, are fed to one input of comparison unit 7, the other input of which is a signal from the output of task 8. A signal from the output of the comparator unit 7, proportional to the difference between the predetermined and actual values of the gap or coupling, is fed to the input of the control unit 9. The signal from block 9 acts on the engine 10, which, through the gearbox. 11 moves the inductor in the desired direction in accordance with the magnitude and mismatch sign between the reference signal and the signal 11 from the output of dividing unit 6.

The device allows to increase the quality of heating for. an account of a more accurate maintenance of communication, the inductor is a product, and also increase productivity,

F o r a c i p i

A device for induction heating of products containing connected13335664

power supply inductor, which, in order to ensure quality, is mechanically connected with reversible heating and performance of a motor device, the control input of which, the communication control unit is complete

connected to the output of the comparison unit, the form of the division block, to the inputs of which

to the first input of which there are connected the outputs of two sensors of the output of the task unit, and to the second direction of the magnetic field, one of

the output of the control unit of the magnitude of the elec- trographs is mounted on the side of the induction-magnetic coupling of the inductor with the transmitter facing the product, and the friend, characterized in that, on the opposite side.

Claims (2)

Claim 3 inductor to the power source, mechanically connected to the reversible motor, the control input of which is connected to the output of the comparison unit, to the first input of which the output of the reference unit is connected, and to the second output of the control unit of the magnitude of the electromagnetic coupling of the inductor with the product, characterized in that, in order to improve the quality of heating and productivity of the device, the communication control unit is made in the form of a division unit, to the inputs of which the outputs of two directivity sensors of the magnetic field are connected, one of which is installed on the inductor side facing the product, and the other on the opposite side.