What is Electrical Interlocking?
To interconnect the motor circuit in such a way, in which the second motor will not start until the first one runs likewise the third one motor will not run unless the second one runs and so on. This kind of motor circuit connection is called interlocking.
A simple electrical interlocking control diagram is shown below.
Working of electrical interlocking
When we push the ON-1 button to energies the M1 Contactor (or starts M1 Motor), then circuit complete through Fuse, Overload relay's trip link, OFF Push -1 and ON Push 1. And motor M1 Starts to run.
As Contactor M1 energies, it's all normally close (NC) links open and the other normally open (NO) links used in the close circuit.
When m1 energies, the normally open (NO) link will be closed immediately, which is in parallel with ON-Push 1. This is called Holding link i.e. It holds the motor in starting condition. Now, Motor will still run even we leave (disconnect to stop) the ON-Push 1.
A normally open (NO) link is also used in line 2. When M1 energizes, this link (NO M1 in line 2) will also be closed, therefore, M1 Motor will start to run, this way, supply also will reach ON Push 2. Now, if we press ON-Push 2, then second motor M2 will also be started to run, in addition, the normally open (NO) links of the connected contactor M2 in the circuit would also be closed immediately. And holding would be occurred through M2 link which is in parallel with ON-Push 2. This way, Motor 2 will start to run.
Note that Motor 2 will not start to run until Motor 1 runs, i.e. unless Motor 1 link M1 close. Likewise, Motor 3 will not start until motor 2 runs, i.e. motor 3 will start (by pressing the On-Push of Motor 3 =M3) to run after start the motor 2.
Modification in the Electrical Interlocking Control Circuit
This is a simple electrical interlocking circuit. Lots of circuits similar to this interlocking circuit are used in industries. The circuit interlocking depends on the nature of working and task which is to be done by motors. So we may use and make any kind of interlocking circuits for any purpose very easily.
In short, we may change the motors operation and control by doing some modification in the above simple electrical interlocking control circuit diagram. For example, if we need that Motor 1 should stop when Motor 3 starts to run, then we may use a Normally Close (NC) link of M3 in line 1. This way, when Contactor M3 energizes, and motor 3 starts to run, then the normally close (NC) link of Motor 1 connected in line 1 will open immediately (after energizing the M3 Contactor) which cause to de-energize the M1 contactor, hence, Motor M1 will stop.
We may also configure the above electrical interlocking control circuit with little modification for star and run each motor individually.
What is Electrical Interlocking?
To interconnect the motor circuit in such a way, in which the second motor will not start until the first one runs likewise the third one motor will not run unless the second one runs and so on. This kind of motor circuit connection is called interlocking.
A simple electrical interlocking control diagram is shown below.
Working of electrical interlocking
When we push the ON-1 button to energies the M1 Contactor (or starts M1 Motor), then circuit complete through Fuse, Overload relay's trip link, OFF Push -1 and ON Push 1. And motor M1 Starts to run.
As Contactor M1 energies, it's all normally close (NC) links open and the other normally open (NO) links used in the close circuit.
When m1 energies, the normally open (NO) link will be closed immediately, which is in parallel with ON-Push 1. This is called Holding link i.e. It holds the motor in starting condition. Now, Motor will still run even we leave (disconnect to stop) the ON-Push 1.
A normally open (NO) link is also used in line 2. When M1 energizes, this link (NO M1 in line 2) will also be closed, therefore, M1 Motor will start to run, this way, supply also will reach ON Push 2. Now, if we press ON-Push 2, then second motor M2 will also be started to run, in addition, the normally open (NO) links of the connected contactor M2 in the circuit would also be closed immediately. And holding would be occurred through M2 link which is in parallel with ON-Push 2. This way, Motor 2 will start to run.
Note that Motor 2 will not start to run until Motor 1 runs, i.e. unless Motor 1 link M1 close. Likewise, Motor 3 will not start until motor 2 runs, i.e. motor 3 will start (by pressing the On-Push of Motor 3 =M3) to run after start the motor 2.
Modification in the Electrical Interlocking Control Circuit
This is a simple electrical interlocking circuit. Lots of circuits similar to this interlocking circuit are used in industries. The circuit interlocking depends on the nature of working and task which is to be done by motors. So we may use and make any kind of interlocking circuits for any purpose very easily.
In short, we may change the motors operation and control by doing some modification in the above simple electrical interlocking control circuit diagram. For example, if we need that Motor 1 should stop when Motor 3 starts to run, then we may use a Normally Close (NC) link of M3 in line 1. This way, when Contactor M3 energizes, and motor 3 starts to run, then the normally close (NC) link of Motor 1 connected in line 1 will open immediately (after energizing the M3 Contactor) which cause to de-energize the M1 contactor, hence, Motor M1 will stop.
We may also configure the above electrical interlocking control circuit with little modification for star and run each motor individually.
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