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Footstep Power Generation
Footstep Power Generation
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Vikram

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Hello Mam,
We are the student of b.tech mechanical engg. we make foot step electricity genarator when we press the top of the project the spring is press the mechanical setup of project is working the rack and pinoin is connect to the shaft is connect to pully is connect to dianoma with help v velt when we pressure the top of the project the rack and pinion is rotating the shaft is rotating to the pully to rotating to dynoma is rotted produce the electricity and we optain the electricity by the system

Hello Mam,
We are the student of b.tech mechanical engg. we make foot step electricity genarator when we press the top of the project the spring is press the mechanical setup of project is working the rack and pinoin is connect to the shaft is connect to pully is connect to dianoma with help v velt when we pressure the top of the project the rack and pinion is rotating the shaft is rotating to the pully to rotating to dynoma is rotted produce the electricity and we optain the electricity by the system

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Vikram

  1. 1. SUBMITTED BY: SUBMITTED TO:- VIKRAM YADAV(KI0455) MR. ADITYA MISHRA ABHAY NARAYAN(KI0224) ASST. PROF. OF MECH DEPT. DEVKINANDAN PALIWAL(K10499) DEEPENDRA SHARMA(K10469) (CPU KOTA) B.TECH FINAL YEAR MECHANICAL ENGG. A PRESENTATION ON “FOOTSTEP ELECTRICITY GENERATOR”
  2. 2. 2.CONTAIN •INTRODUCTION •PRINCIPAL •WORKING •APPLICATIONS •CONSTRUCTIONS •PARTS
  3. 3. INTRODUCTION It has the ability to produce electric power from mechanical reaction (force) and then it change to electric charges. This kind of technology can be used as the alternative electric power generator. Design concept used in this thesis is to use place at the walking area named as “Foot Step Power Generation System”.
  4. 4. PARTS
  5. 5. 2. PRINCIPLE This setup works on the principle of converting the linear motion due to pressure of foot steps into rotary motion. This rotary motion is utilized to rotate a power generating device (dynamo). The amount of rotation depends upon the weight of the person walking over the platform and the tension of the spring used. Depending upon the power generator used, the power output can be increased.
  6. 6. 3. HOW TO SYSTEM WORK 1.When people walk on the floor, the floor press on the mechanical setup. The setup depresses due to the spring action and pulls the lever assembly which rotates one of the freewheel bearing fitted to the shaft. 2. The shaft then rotates the large pulley which is connected to the smaller pulley through a V-belt. This smaller pulley acts as a reducer which provides more rotations corresponding to one rotation of the large pulley
  7. 7. 3. This smaller pulley coupled with the dynamo a device that converts the energy of motion into electric current and power is obtained.
  8. 8. ADVANTAGES •Highly efficient in more crowded places. •Depending upon the power generator and number of them, power output is very high •Low cost level. •Simple in construction. •Pollution free. •Reduces transmission losses. •Wide areas of application.
  9. 9. APPLICATIONS •Railway, subway stations •Roads •Temples •Bus stands, air ports •Music halls, auditoriums •Markets

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