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Final Year Project Presentation On “Overhead bridge Electromagnetic Crane”

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Overhead Bridge Electromagnetic Crane

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  • 1. Final Year ProjectPresentation On Overhead bridge Electromagnetic Crane

2. PRESENTED BY:

  • PRESENTED TO:
  • FINAL YEAR PROJECT COMMITTEE DEPARTMENT OF ELECTRONIC ENGINEERING
  • SYED UMAIR HASAN (2006-EE-385)
  • AQUEEL ALAM(2006-EE-389)
  • MUHAMMAD SHARIQ SIDDIQUI(2006-EE-393)
  • MUHAMMAD BILAL KHAN( 2006-EE-396)
  • UMAIR IQBAL( 2006-EE-411)
  • MUHAMMAD WAQAS( 2006-EE-616)
  • MR.SHAJI-UL-HASAN
  • ASSISTANT PROFESSOR
  • ( EEDSSUET )

I NTERNAL ADVISOR 3. 4. PROJECT OBJECTIVE To measure the dimensions (length and height) of objects that are coming through conveyor belt , sensed by the sensors & placed in allocated areas which is predetermined. There are two primary modes of operationonwhich the task perform. Automatically or manually 5. BACKGROUND

  • We have chosen a path to implement our innovative ideas in the form of this project named as OVERHEAD BRIDGE ELECTROMAGNETIC CRANE. The basic concept, which is emerged out from our project is to handling objects over a certain height.
  • Overhead cranes are designed to a specific application and location. Our cranecontain electromagnethoist..
  • Even in a production line of many products, electromagnetic lifts are used to lift and move metal objects.
  • Electromagnets have special simplicity and many advantages to other lifting tools. They are faster and easier to work with.

6. Features of project

  • There are various FEATURES of our project. It can offer number of advantages to the user. Our project has some of the most countable features that have mentioned below:-
  • Automatic:In automatic transmission object should be placed without human interface.
  • ManualManual operation permits the user to make use of a joystick
  • Place objects in its compartments/
  • Electro magnetically pick and drop of objects.
  • Weight handles up to 500grams.
  • Display length and height of the object o on LCD.

7. BLOCK DIAGRAM 8. FLOW CHART 9. PROJECT PARTS

  • The Overhead Bridge Electromagnetic Crane is divided into two basic parts:
  • Electronic part
  • This part ofthe project consist ofelectronic circuitry and all the electronic deviceswhich is used to work together with the mechanical structure .
  • Mechanical part
  • Mechanical part of the project is consist of the basic structure of the electromagneticbridge crane and the conveyor beltwhich is used to move objects andis operated by the software.

10. ELECTRONIC PART COMPONENTS

  • MICROCONTROLLER ATMEL AT89C52
  • STEPPER MOTORS
  • DC GEAR MOTOR
  • ELECTROMAGNET
  • VEXTA DRIVER
  • LCD
  • PHOTOTELECTRIC SENSORS
  • JOYSTICK
  • CONVEYOR BELT SYSTEM
  • LIMIT SWITCHES

11. Why we used 89c52

  • CISC architecture.less coding when compared PIC & AVR microcontroller
  • 89c52 controller are easy to programmable.
  • 89C52 controller has8k bytes of flash programmable and erasable read only memory.
  • The AT89C52 is a low-power, high-performance CMOS
  • 89c52 islower cost than other microcontroller i.e. PIC,AVR etc.
  • 89c52 is commonly available in market.

12. VEXTASTEPPER DRIVER

  • Two 5phase stepper drivers are used for driving steppers of trolley and hoist. This driver is interface with microcontroller and stepper motors the clock rate of this drives are controlled by the microcontroller.

13. STEPPER MOTOR

  • Two hi torque 5 phase stepper motors are used in trolley and bridge movement system. This stepping motors are interfaced with the Microcontroller, when the signal is received the motor starts to work with the help of vexta stepper driver.

14. DC GEAR MOTOR

  • DC gear motor operates on 12 volts and is controlled by the Microcontroller. Two DC gear motors are present here; one is on conveyor belt system and second is on hoist movement system. The motors are interfaced with the Microcontroller, when the signal is received the motor starts to work.

15. ELECTROMAGNET

  • Round and Rectangular Flat-Faced Electromagnets are used for lifting objects in manually operated or automated operation. Electromagnet is operating at 15vDC.Flat-Faced magnets should only be used on flat, smooth material where the entire magnet face is in contact.

16. LCD

  • We use 16*2character display Lcd.
  • It will display parameters length &
  • height

17. PHOTOELECTRIC SENSOR

  • Aphotoelectric sensoris a device used to detect the distance, absence, or presence of an object by using a light transmitter, often infrared, and a photoelectric receiver. The detection way is a scattered reflection type and the maximum detection distance range is 30cm. three photoelectric sensors are used for measurement of object dimension.

18. Photo coupler

  • PC 817 photo coupler is a device that uses a short optical transmission path to transfer an electronic signal between elements of circuits By keeping them electrically isolated.

19. LIMIT SWITCH

  • Limit switches can be used to control the motions of machines, for example, to indicate that a motor has reached its full position or that a machine tool is in a position to accept another work piece.

20. CONVEYOR BELT SYSTEM

  • We use 2ft longand 6inches wide conveyor belt.
  • This can be controlled by stepper motor also.
  • Laser sensors and receivers are also fitted into the structure of conveyor belt

21. Structure of crane 22. SPECIFICATIONS

  • CAPACITY500grams/1.1lb
  • ENCLOSED TRACKIron & Aluminum
  • ALUMINUM RAIL LENGTH3ft/0.9144m
  • ALUMINUM BRIDGE LENGTH2ft/0.6096m

23. TIME AND COST ANALYSIS TASK TIME ITEMS COST Research Work 2 months Mechanical part Rs 15000/= System designing 2 months Freight Charges Rs 1000/= Hardware designing 3 months Travel Charges Rs 4000/= Software and firmware 1 monthsMarket Surveying Rs 5000/= Hardware Prototype 2 months Hardware Circuitry Rs 20000/= Report writing / presentation 1 months Other Expenses (Including Documentations) Rs 5000/= Total Time 11 months Total Rs 50000/= 24. PROJECT APPLICATIONS

  • Shipping cargo
  • Steel mills
  • Automobile industries
  • Metallurgical industries
  • Marineindustries
  • Petroleumrefineries

25. FUTURE ENHANCEMENT

  • Wireless joystick
  • Our project contain wired joystick panel which would be change with any latest radiotechnology to control the operation of crane wirelessly.
  • Hoist modifications
  • Our project contain electromagnetic hoist, which lift only iron-steel related objects. As for future enhancement could be use to lift different material objects.
  • Hooks-end
  • Grabber jaws
  • Hydraulically pick objects etc.

26. CONCLUSION

  • Automated lifting of the object with respect to it length and height vise will revolutionalize the iron- steel related Industry. It will offer a better, inexpensive method to reduce man power. Secure lifting is offered and man power is decreased.
  • This project offers the following facilities.
  • Superior Controlling.
  • Easy flash based programmable.
  • A Reliable Solution for iron related industries.