SU541231A1 - Device for detecting short circuits between electrodes in a galvanic bath - Google Patents

Description

appearances, but with a time delay. Reliable protection over the entire range of bath current values is ensured by the fact that in the device the protection actuation setpoint automatically changes in accordance with the setpoint bath current change program.

The scheme of the proposed device is shown in the drawing.

The galvanic bath 1 is supplied with power from a constant voltage source 2, in the circuit of which the current sensor 3 is turned on.

The power source is controlled by an automatic current density regulator 4. The law of change in current density is set by the program setting authority 5. A time delay block 6 is inserted between the current density regulator and the power source. The outputs of the current sensor 3 and the program assignment authority 5 are connected to the inputs of the comparison authority 7, and the output of the latter is connected to the input of the signaling unit 8.

During normal operation of the galvanic bath 1, the current density regulator 4 controls the operation mode of the power supply source 2 in accordance with the control signal of the program set body 5, while ensuring the proportionality of the control signal and the bath current. The current sensor 3 forms on its outputs signals proportional to the current of the electroplating bath. The processing of the commands (signals) of the current density regulator by the power source is carried out with a time delay, due to the presence of block 6. The delay is 0.2-1 sec and is determined by the speed of the current density regulator and the reference unit 7. The presence of a time delay does not affect the normal operation of the bath, since galvanic processes belong to a class of slowly proceeding processes.

From the outputs of the organ 5 and the sensor 3, signals are sent to the inputs of the organ 7 of the comparison. The signal from the setting body 5 is proportional to the control signal, which is fed to the current density regulator. The signals of the setting body 7 and the current sensor 3 are turned on counter and are chosen so that if the bath current corresponds to the programmed one, then these signals balance each other. When changing the setting signal density controller

current sets the appropriate value of the bath current and, thus, during normal operation of the device, the difference in signals at the input of the reference unit is always zero. In addition, the input signals are phased in such a way that the reference element is triggered only when the current sensor signal exceeds the signal of the reference element.

When occurring in a galvanic bath

short circuit the bath current abruptly increases. In order to ensure the guaranteed response of the protection, it is necessary to take into account the speed of the reference element and the current density controller. If the speed of the regulator is higher, then it will work out the disturbance that has arisen before the comparison organ has time to work. In order to eliminate this occurrence, a time delay unit 6 is introduced into the device. Delay time is matched.

taking into account the speed of the regulator 4 and the reference unit 7 in such a way that when a short circuit occurs, the comparison organ first operates, and then the power source begins to work on the signal P1, en.

Claims (2)

1.Avt. St. No. 235834, cl. H 02 H 3/08, 1972 (equivalent). 2. V. Polkov. Questions of self-tuning of relay protections. Lime universities of the USSR "Energy № 12, 1966 (prototype).