SU1290570A1 - Induction heating installation - Google Patents

Description

1 1290570

The invention relates to electrothermal and can be used in metallurgy and mechanical engineering in melting and heating induction installations, 5

The purpose of the invention is to increase the reliability of monitoring the conductor insulation in transient modes of operation of the installation.

FIG. 1 is a diagram of the setup of 0 yoBKHj in FIG. 2, an example of the implementation of a signal element.

The device contains a power source 1, to which the condensivity is connected is proportional to the number of turns of the secondary winding. Since the same current flows through the primary circuits, the emf of the secondary windings will also be proportional to the number of turns of the secondary windings. Therefore, while the coil closure did not occur, a zero voltage is applied to the signal element 14 since in the secondary winding of the transformer 13 having the current lead 8 having a primary winding, the EMF is induced equal to the absolute value and opposite in phase to the sum of the EMF of the axial battery 2 and the inductor 3, plug-in transformers. Moreover, this one is from turns 4–7, and transformers without their own primary winding, which are magnetic conductors with secondary windings wound on them. The role of primary revolver coil of transformers is performed by coils 4-7 of the inductor, and the additional transformer - by the current lead 8, the secondary windings of transformers 9-12 are connected in series according to and opposite to the secondary winding 13 of the additional transformer and connected to the signal element 14, the latter consists of rectifiers on

25

the left voltage is applied to the signal element at any value of the inductor current,

In the case of a coil closure, the current in the closed coils drops almost to zero, decreases to zero and is induced in the corresponding secondary windings of the EMF. The sum of the EMF applied to the signal element is no longer zero, a constant voltage appears on the capacitor 16, the output of the comparator also a voltage appears, the contact of the relay 18 closes, the source of the inductor will turn off

the diode 15, the filter on the capacitor 16, 30 hours,

connected to the comparator 17, including in the case of the secondary winding at the output of the comparator

18,

a coil of 9-12 transformers so

an electromagnetic relay 1b, pin 19 of which is included in the power source disconnecting circuit 1,

Because the number of turns of each winding is different, for example, proportional to 35 to the number of the corresponding turn of the inductor, the circuit works in a similar way, but the process of finding the place of damage is simplified. Indeed, in this case, the voltage applied is that the number of turns of each winding is different, for example, proportional to 35 to the number of the corresponding turn of the inductor, the circuit works similarly, however, the process of finding the place of damage is simplified. Indeed, in this case, the voltage applied to the device operates as follows.

After switching on the power source 1, the voltage is supplied to the signal body circuit, which enters the connector, proportional to the number of the white light capacitor 2 and the inductor 3, consisting of turns 4–7, which oscillates . Due to this, in the secondary windings of 9-13 transformers induced EMF, defined by the expression

ka in which no current flows. By measuring this voltage, you can determine the location of the damage with an accuracy of 45 to a turn.

The use of the proposed device improves the reliability of the device. Using 50 primary windings of current transformers and inductor coils as the primary leads to the fact that the EMF of the secondary windings of transformers is proportional to the current of the inductor, and not to the voltage on it If the size of the magnetic cores is equal to 5 turns. Therefore, this device does not

reacts with false alarms to changes in the distribution of the voltage drop across the coils of the inductor, having

m di

e - M 5--,

or taking into account the sinusoidal nature of the current inductor 1 1

e a) M1 cosuit.

you ,, mutual inductance M depends

only on the ratio of the number of turns of the secondary and primary windings W / W,, In our case W, 1, therefore, mutual

a place in various non-stationary re-inductance is proportional to the number of turns of the secondary winding. Since the same current flows through the primary circuits, the EMF of the secondary windings will also be proportional to the number of turns of the secondary windings. Consequently, while the coil circuit does not occur, a zero voltage is applied to the signal element 14, since in the secondary winding of the transformer 13 having the primary winding of the current lead 8, an emf is induced, equal in absolute value and opposite in phase to the sum of the emf of the remaining transformers. And well

Tap transformers. And well

the left voltage is applied to the signal element at any value of the inductor current,

In the case of a closure, the current in the closed coils drops almost to zero, decreases to zero and is induced in the corresponding secondary windings of the EMF. The sum of the EMF applied to the signal element is no longer zero, a constant voltage appears on the capacitor 16, the output of the comparator also a voltage appears, the relay contact 18 closes, the inductor source is turned off.

a coil of 9-12 transformers in such a way that the number of turns of each winding is different, for example, proportional to 35 to the number of the corresponding turn of the inductor, the circuit works in the same way, however, the process of finding a fault site is simplified. Indeed, in this case, the voltage applied at the time of welding to the signal element is proportional to the number of the coil over which current does not flow. By measuring this voltage, you can determine the location of the damage with an accuracy of 45 to a turn.

place in various non-stationary modes of operation of the induction heater. It is also significant that the zero voltage is applied to the signal element at any current value.

inductor, including during start-up and in the off state, therefore, no special protective device locking devices are required.

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16 db.

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Editor V.Kovtun

Compiled by O. Turpak

Tehred I.Popovich. Black Corrector

Order 7919/59 Circulation 823 Subscription

VNIIPI USSR State Committee

on affairs of discoveries and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5

Production and printing company, Uzhgorod, Projecto st., 4

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Claims (2)

1. INDUCTION HEATING UNIT, containing in parallel connected and connected to a power source a capacitor bank and an inductor, a block of monitoring the insulation state of the inductor, made in the form of transformers by the number of controlled turns of the inductor, the secondary windings of which are connected in series with one another and connected to the signal ele ment, characterized in that, in order to increase the reliability of insulation control during transient operation of the installation, as primary transformer windings One turn was used, and an additional transformer was introduced into the installation, the primary winding of which is made in the form of a current supply to the inductor, and its secondary winding is connected counter-to the secondary windings of the remaining transformers connected according to each other, and the number of turns of the secondary winding of the additional transformer is equal to the sum of the turns of the secondary windings of all other transformers. 2. Installation according to claim 1, characterized in that, in order to simplify the search for a damaged coil, the number of turns of the secondary winding of all transformers is different. fig-1