PLC BASED AUTOMATIC WATER FILLING SYSTEM CONTENTS OBJESTIVE

PLC BASED AUTOMATIC WATER FILLING SYSTEM

CONTENTS Ø OBJESTIVE Ø INTRODUCTION OF AUTOMATION Ø TYPES OF AUTOMATION Ø IMPORTANCE OF AUTOMATION Ø WHAT IS PLC? Ø WHY PLC? Ø TYPES , OPERATIONS AND APPLICATIONS Ø BLOCK DIAGRAM , WIRING DIAGRAM AND WORKING OF AUTOMATIC WATER FILLING SYSTEM Ø APPLICATIONS Ø ADVANTAGES Ø FUTURE SCOPE Ø CONCLUSION

INTAUTOMATION RODUCTION § The use of machines and technology to make processes run on their own without manpower. § The technique of making an apparatus, a system operate automatically.

ION TYPES OF AUTOMATION BUILDING AUTOMATION : Eg : Lifts, Smoke detectors �OFFICE AUTOMATION Eg : CCTV Camera �LIGHT AUTOMATION Eg : Street solar lightening �INDUSTRIAL AUTOMATION Eg : Automated bottle filling system, steel factories, etc

IMPORTANCE OF AUTOMATION v. Increases the machine efficiency. v. Flexibility and convertibility in manufacturing process v. Increase production rates

WHAT IS PLC? �PLC means Programmable Logic Controller. �These systems perform many functions, providing a variety of analog and digital input and output interfaces; signal processing; data conversion; and various communication protocols.

PLC LANGUAGES v. Ladder diagram v. Function Block diagram v. Sequential Function Chart v. Structured Text v. Instruction List

WHY PLC �PLC play an important role in automaton, this device can manage and control entire industry to produce better and quick output. A PLC is a digital computer used for automation of industrial processes, like controlling machinery or factory � Reduces human effort. � Get maximum effeciency.

TYPES OF PLC Ø Allen Bradley PLCs (AB) Ø ABB PLCs (Asea Brown Boveri) Ø Siemens PLCs Ø Omron PLCs Ø Mitsubishi PLCs Ø Hitachi PLCs Ø Delta PLCs Ø General Electric (GE) PLCs Ø Honeywell PLCs Ø Modicon PLCs Ø Schneider Electric PLCs Ø Bosch PLCs

DELTA DVP 60 ES 2

PIN DIAGRAM OF PLC

Our plc model is DELTA DVP-60 ES 2. It consists of 36 inputs and 24 outputs. All inputs and outputs are in digital (binary format)type. It represent to X 0, X 1, X 2, X 3, X 4, X 5, X 6, X 7, X 8, X 9, X 10, X 11, X 12, X 13, X 14, X 15, X 16, X 17, X 20, X 21, X 22, X 23, X 24, X 25, X 26, X 27, X 30, X 31, X 32, X 33, X 34, X 35, X 36, X 37, X 40, X 41, X 42, X 43 are inputs. And out puts are Y 0, Y 1, Y 2, Y 3, Y 4, Y 5, Y 6, Y 7, Y 10, Y 11, Y 12, Y 13, Y 14, Y 15, Y 16, Y 17, Y 20 , Y 21, Y 22, Y 23, Y 24, Y 25, Y 26, Y 27. C 0, C 1, C 2, C 3, C 4, C 5 are common pins. COM 1, COM 2, COM 3 are communication ports. RUN AND STOP BUTTON to run and stop the PLC.

OPERATION OF PLC v. The operation of the PLC system is simple. It consists of three processes: 1. Scans or reads, from the input devices. 2. Executes or “solves” the program logic. 3. Writes to the output devices.

APPLICATIONS OF PLC § Used for packaging machine. § Spinning machine. § Winding machine (tension control). § Molding injection machine. .

AUTOMATIC WATER FILLING SYSTEM �Our project is based upon closed loop control system. �A Closed-loop Control System, also known as a feedback control system is a control system which uses the concept of an open loop system as its forward path but has one or more feedback loops (hence its name) or paths between its output and its input. The reference to “feedback”, simply means that some portion of the output is returned “back” to the input to form part of the systems excitation.

Block diagram of Closed Loop control system

AUTOMATIC WATER FILLING SYSTEM BLOCK DIAGRAM

PANEL DIAGRAM

EXPERIMENTAL KIT

COMPONENTS USED: v. DC SERVO MOTORS v PHOTO ELECTRIC SENSORS v. CONVEYOR BELT MOTORS v. ELETRO MAGNETIC RELAY v. AC & DC TERMINAL BLOCKS v. MCB & SMPS

WORKING �When the start button is pushed, the motor starts hence the conveyer belt starts moving. �When the bottle is under the solenoid valve, the bottle is sensed and the motor stops hence the conveyer belt stops. �Then the solenoid valve operates and the bottle starts filling the water. �When the bottle completes filling process, the solenoid valve is closed and the motor starts, the conveyer belt starts moving and carries the bottle away from the solenoid valve. �If another bottle is sensed then the above process will be repeated. When stop button is pressed or activated then the entire process will be stopped.

PROGRAM USED IN THIS PROJECT

v. INPUTS v. OUTPUTS � X 0 ------WATER LEVEL SENSOR � X 1 ----PUSH BUTTON � X 2 -----CONVEYOR BELT SENSOR � Y 0 ------RESERVOIR MOTOR � Y 1 ----WATER TANK MOTOR � Y 2 & Y 3 ------CONVEYOR BELT MOTOR � M 0, M 1, M 2 ------MEMORY BITS � T 0, T 1 -------TIMERS

MERITS �Less man power required. �Less time taken. �Fast and accurate. �Less wiring. �Easier and faster to make changes.

APPLICATIONS �Stand alone water bottle booth system. �Ink filling industry. �Soft-drink & water filling industries. �Beer and wine industries. �Olive oil industries.

CONCLUSION �We have achieved our objective that is bottle filling process using PLC. �This was successfully implemented. �We consider this project as a journey where we acquired knowledge on automation industry. �Also gained some insights into the subject which we have shared in this report

FUTURE SCOPE

PRESENTED BY K. Apparao B. Chandrasekhar CH. Bhagya Lakshmi N. Livingstan S. Naga Satya Prasad UNDER THE GUIDENCE OF M. KARTHIK Sir

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