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chockalingam athilingam
chockalingam athilingam

final year projects mechanical

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FABRICATION OF PEDAL OPERATED WATER PUMP Submitted in the partial fulfillment of the requirement for the award of “DIPLOMA IN MECHANICAL ENGINEERING” SUBMITTED BY: 1. G.JAGADESH KUMAR 4. M.G.VISHNU 2. R.GOPINATH 5. D.MUTHUKUMARAN 3. T.NARESH 6. K.MANI Under guidance of Mr. Z.KHAJA MOIDEEN ,B.E MARCH 2013. DEPARTMENT OF MECHANICAL ENGINEERING. SRI DURGA DEVI POLYTECHNIC COLLEGE RSM NAGAR, KAVERAI PETTAI.
SRI DURGA DEVI POLYTECHNIC COLLEGE RSM NAGAR, KAVERAI PETTAI BONAFIDE CERTIFICATE This is to certify that this Project work on “FABRICATION OF PEDAL OPERATED WATER PUMP ” submitted by …………………… ……………. Reg. No. …………… in partial fulfillment for the award of DIPLOMA IN MECHANICAL ENGINEERING This is the bonafide record of work carried out by him under our supervision during the year 2013 Submitted for the Viva-voce exam held on …………….. HOD PROJECT GUIDE INTERNAL EXAMINER EXTERNAL EXAMINER
ACKNOWLEDGEMENT
ACKNOWLEDGEMENT At the outset, we would like to emphasize our sincere thanks to the Principal Mr. K.LAKHSMANAN,M.E encouragement and valuable advice. we thank our Esquired Head of Department Mr. S.JESUDASS M.E for presenting his felicitations on us. We are grateful on our Entourages Mr. Z.KHAJA MOIDEEN B.E, for guiding in various aspects of the project making it a grand success. We also owe our sincere thanks to all staff members of the Mechanical Department. Ultimately, we extend our thanks to all who had rendered their co- operation for the success of the project.
CONTENTS
CONTENTS 1. INTRODUCTION 2. SYNOPSIS 3. CONSTRUCTION DETAILS 4. WORKING PRINCIPLE 5. SPARE PARTS DRAWING 6. INTRODUCTION TO PUMP 7. APPLICATION 8. ADVANTAGES AND DISADVANTAGES 9. FEATURES OF THIS PROJECT 10. SAFTY,CARE AND MAINTENANCE 11. PAINTING AND FINISHING 12. COST ESTIMATION 13. CONCLUSION 14. BIBLIOGRAPHY 15. PHOTO VIEW
INTRODUCTION
INTRODUCTION This is a self – assessment test on the part of the students to assess his competency in creativity. During the course of study, the student is put on a sound theoretical foundation of various mechanical engineering subjects and of course, to a satisfactory extent. Opportunities are made available to him to work on different kinds of machines, so that he is exposed to various kinds of manufacturing process. As a students learn more and more his hold on production technology becomes stronger. He attains a stage of perfection, when he himself is able to design and fabricate a device. This is the project work. That is the testimony for the strenuous training, which the student had in the institute. This assures that he is no more a student, he is an engineer. This report discuses the necessity of the project and various aspects of planning , design, selection of materials, fabrication, erection, estimation and testing.
SYNPOSIS
SYNOPSIS Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages. Working principle; This pump consists of one cylinder , piston two numbers of non return valve and hand lever. When lever is raised , the piston inside the cylinder moves down into the cylinder causes water is sucked . when the lever is lowered or pressed down , the water inside the cylinder discharged to outlet point. The pedal is rotated by the foot and hence crank rotates causes the connect rod oscillated to the lever of the pump . Thus the water is discharged to the outlet by pedaling the cycle pedal.
OBJECTIVE
OBJECTIVE; To lift the water from the ground floor to first floor of the domestic building and to avoid the painstaking staircase pot carrying option. To save the electricity
DEFINITION OF PROBLEM
DEFINITION OF PROBLEM; During summer season , due to water scarcity problem the people purchasing the water from lorry by collecting the water through their pots. These pots are carried by the men or women and getting tired when carrying water through staircase step those who are living in flat system. When this unit is installed in first floor of the building , the suction pipe is put in to the water delivery pipe of lorry and water is delivered through the flexible pipe to the required collecting point by pedaling this unit.
SCOPE OF THE PROJECT
SCOPE OF THE PROJECT;  The outstanding advantage of water discharging system from the ground floor to first floor or discharging the water from the lorry to the collecting point by simply pedaling this unit .  The water is carried by the flexible tube relieves the stress free painstaking water carrying through the pot while in staircase walking.  Simple construction and less effort and costless maintenance and anybody can work this unit.  Operation is very smooth and in this system we can get more output by applying less effort.
PROJECT PLANNING
PROJECT PLANNING CONCEPT OF THE PROJECT Before starting every project its planning is to be done. In a planning functions are life the functions of nerves in our body. Planning a project is a very important task and should be taken up with great care as the efficiency of the whole project largely depends upon its planning, while planning a project each and every details should be worked out in anticipation should be carefully considered with all the relative provisions aspects. PROJECT CAPACITY The capacity of the project must be decided considering the amount of money which can be invested. The availability of material and machines and usefulness of the project. DESIGN AND DRAWING Having decided about the project to be manufactured at must be designed. Design work should be done very considering all the relevant factors. After design the project detailed drawing are prepared. Detailed Specification for raw material and finished products should be decided Carefully along with the specification of the machine required for the manufacture.
MATERIAL REQUIREMENTS The list of material required for manufacture is prepared from the drawing. The list is known as “Bill of materials”. Availability of these materials is surveyed and purchased from the market. OPERATION PLANNING Next work of planning is to “select the best method” manufacture the product, so that the wastage of materials, labor, machines and time can be eliminated by considering various methods. The best method is to be selected for fabrication and other works. The proper method and proper person and the purposes of operation, necessity operation, proper machine planning. The best method is the developed and is applied to fabricate the project. MACHINE LOADING While planning proper care should be taken to find the machining time for the operation as correct as possible. So that arrangement of full use of machines can be made and the machine loading program can be decided. PURCHASE CONSIDERATION It is difficult to manufacture all the components needed for the project in the machine shop. In each case, we should decide whether to
make or buy about a particular item. It is decided during the planning after making a complete study of relative merits and demerits. EQUIPMENT PROCEDURE Results obtained from “operation planning” and machine loading help in calculating the equipment require Specification of the equipment should be laid down by considering then drawings. Drawings will also help in deciding the necessary requirement of tools and accessories.
CONSTRUCTION
CONSTRUCTION The project consist of 1. Hand operated pump 2. M.S. . Stand 3. CONNECTING ROD 4. Crank shaft 5. Pedal with shaft 6. Seat M.S.Stand; This unit fabricated in M.S. square tube of size 25 x 25 mm and having thickness 1.8 mm .the operator can pedaled in sitting position and this seat is elevated to a height of 400 mm at right side of stand. The pump unit is fitted at the right side of the stand . the pedals are welded between the seat and pump at the base stand.
Connecting rod ; The connecting rod is used to connect the pump piston and the crankshaft.this connecting rod is made in mild steel material having 10mm square rod to a length of 450mm. Crankshaft; The purpose of crankshaft is convert the rotary motion into linear motion . here the crankshaft is made in M.S. Flat of 25mm x 6mm and rotated in pair of sleeve bearing hub on the top of the base stand. On the other end of the crank foot pedal rod is connected and the leg is supported on pedal shown in below figure.
BICYCLE PEDAL ; A bicycle pedal is the part of a bicycle that the rider pushes with their foot to propel the bicycle. It provides the connection between the cyclist's foot or shoe and the crank allowing the leg to turn the bottom bracket spindle and propel the bicycle's wheels. Pedals usually consist of a spindle that threads into the end of the crank and a body, on which the foot rests or is attached, that is free to rotate on bearings with respect to the spindle. Pedals were initially attached to cranks connecting directly to the driven (usually front) wheel. The safety bicycle, as it is known today, came into being when the pedals were attached to a crank driving a sprocket that transmitted power to the driven wheel by means of a roller chain
1.HAND OPERATED PUMP
Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages.. The Mark II is a closed-cylinder pump. The cylinder brass-lined cast iron with the foot valve and piston assemblies made of brass. The piston seals are double nitrile rubber cup seals.
As you can see in the figure below, the top and bottom of the piston cylinder are “capped” with threaded reducers. The diameter of the pump cylinder is larger than the diameter of the riser main to which it is attached. Maintenance on any part of the pump cylinder requires that the riser main and the pump rod be removed from the ground. The pump rod is galvanized steel and sections are threaded together.
The pump cylinder is threaded onto the last section of riser main and is removed in its entirety as the last component to come out of the ground. The pump cylinder can then be unscrewed from the riser main. The top and bottom caps can be unscrewed from the cylinder body to gain access to the foot valve, the piston valve, the piston seals and anything else inside the cylinder body. The Mark II water hand pumps are reliable and widely used. However, for installation and maintenance, tools and skills are required that may not be available at the village level. As such, the Mark II is not considered a VLOM pump. It usually requires a trained area technician to install and maintain a Mark II pump. The Mark II hand pump consists of the above-ground mechanism which includes the pump head, pump handle, water tank, and pump stand assemblies. The below-ground mechanism includes the riser main, pump rods and pump cylinder assembly. The above-ground mechanism is constructed of welded steel plate for strength and is hot-dip galvanized for corrosion resistance. These parts may be locally manufactured.
A chain and quadrant mechanism of the pump handle provides easy and accurate alignment of the connecting rod (see illustration). The pump handle has a high mechanical advantage. It is heavy and is designed to counter balance the weight of the connecting rods to reduce the pumping effort required from the user. The handle pivot assembly (sealed ball bearings on a stainless steel axle) makes operation easier and lowers maintenance needs. The pump rods are made of cold drawn bright steel bar with threaded end couplers, electro-galvanized against corrosion. Stainless steel rods are also available. The pump cylinder is made from a cast iron casing with a polished brass liner and gun metal plunger and check valve components. Seals (pump buckets, valve seals and cap seals) are available in environmentally safe Nitrile rubber. This pump can be easily adapted for shallow well, windmills and motorized operations with minor modifications. How Does a Hand Water Pump Work? 1. The Old Days
o Many older homes and farms have utilized the manual hand water pump. The cast iron housing would bring water to the surface from a hand-dug rock-lined well. It may have taken many strokes from the long lever in order to gather just a gallon of water from the underground source. Although the manual hand pump may be of an old design, many are still in use today for wells that are no deeper than 20 to 30 feet in depth. Leather o The round interior of the manual water pump uses a metal disc that is sealed against the smooth sides of the pumping chamber. Generally, two discs are used that sandwich a piece of leather. This leather creates a seal so a suction can be created inside the chamber. As the handle is "pushed" downwards, the lever action draws the disc and leather sandwich up. The upward movement of the disc "sucks" the liquid into the pumping chamber. When the handle is pulled upwards the opposite lever action on the disk then forces the water out of the chamber through a spout located at the top of the hand pump. Generally, one full cycle of the hand pump, a single stroke of up and down, may eject only one glass full of water. Check Valve
o A check valve or a one-way valve is generally used to keep the suction pipe full of water. The check valve is located at the bottom of the pipe and inside the well. This suction pipe is attached to the bottom of the hand pump and is what conducts the well water to the surface. If a check valve is not used, the water that in the pipe can drain back into the well. In order for the hand pump to be used, it must be kept in a closed circuit of water. If air is allowed to enter the pumping chamber it must be removed by priming the pump. Priming the pump can be achieved by filling the pump chamber and perhaps even the suction pipe with water. This can be accomplished by pouring water through the exit spout of the hand pump while stroking the handle up and down. This will allow the water to fill in the chamber and suction pipe to remove any unwanted air. Still In Use o Many homes in rural areas that use a private well for their source of water may still employ a hand pump as a backup device. These reliable pumps can be attached mechanically to a small windmill or a solar powered motor and be used as an emergency backup whenever the electrical power may be disrupted. Even with modern technology, the same basic design is still used today in the construction and operation of a manual hand water pump.
2. BEARINGS; A bearing is a machine element that constrains relative motion between moving parts to only the desired motion. The design of the bearing may, for example, provide for free linear movement of the moving part or for free rotation around a fixed axis; or, it may prevent a motion by controlling the vectors of normal forces that bear on the moving parts. Bearings are classified broadly according to the type of operation, the motions allowed, or to the directions of the loads (forces) applied to the parts. A journal bearing consists of an approximately cylindrical body around a rotating shaft. This journal bearing is used either for supporting a radial load, or simply as a guide for smooth transmission of torque. Most common applications of bearings are the plain circular bearings type (with a 360 degrees arc). Lubrication usage, on the other hand, range from a simple inlet hole to axial, circumferential, and helical grooves for efficient lubrication distribution. The plain bearing applications include reciprocating sliders, rotating or oscillating cylindrical members sliding in annular sleeves, and rotating or rotationally oscillating disks sliding on mating disks.
The advantages of plain bearings are as follows: - lower first cost - simple design - small radial space required - quiet operation - not so sensitive to dust or grit - less likely to be subjected to fatigue failure - easy to replace Materials: Plain bearings must be made from a material that is durable, low friction, low wear to the bearing and shaft, resistant to elevated temperatures, and corrosion resistant.
#Babbitt (metal) #Bronze #Graphite #Plastic-Solid plastic plain bearings are now increasingly popular due to dry-running lubrication-free behavior. Solid polymer plain bearings are low weight, corrosion resistant, and maintenance free.
3. Crank rod; CRANK is a mechanical number. It is connect to the through follower .Links to hand lever for pump. The crank is rotated by the cycle pedal . . When the cycle pedal is rotated, the rotory motion of crank is converted to reciprogating motion of connecting rod 3.FRAME STAND First of all the frame is designed and The base is constructed by using the welded joints and cut the material with the required size by using hacksaw machine. The stand frame material is used to mild steel at low cost is widely and is used
WORKING PRINCIPLE
WORKING PRINCIPLE The project consist of 1.Hand operated pump 2.M.S. . Stand 3.CONNECTING ROD 4.Crank shaft 5.Pedal with shaft 6.Seat 1.HAND OPERATED PUMP Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages.
Working principle; This pump consists of one cylinder , piston two numbers of non return valve and hand lever. When lever is raised , the piston inside the cylinder moves down into the cylinder causes water is sucked . when the lever is lowered or pressed down , the water inside the cylinder discharged to outlet point. The pedal is rotated by the foot and hence crank rotates causes the connect rod oscillated to the lever of the pump . Thus the water is discharged to the outlet by pedaling the cycle pedal.
SPARE PARTS AND ASSEMBLY DRAWING
ADVANTAGES
ADVANTAGES 1. Single person is enough to operate this efficiently to pump the water from the sump.. 2. Easy and efficient handling of this unit without wastage of water or damage to unit, pump and to any other parts. 3. low maintenance cost and life of equipment also increased.. 4. Least maintenance of the equipment. 5. Need not require any individual work place. 6. Can be worked in the work spot. 7. Suited for pumping water for 15 feet to 20 feet depth .
DISADVANTAGES
DISADVANTAGES • Manual power required to operate . • The time taken for discharging the water is more when compared to power unit. • It cannot be used for more than 50 feet depth ...
APPLICATION
APPLICATIONS 1.By using this device , the water can be pumped up to 20 feet height. 2.used as exercise kit.
PAINTING AND FINISHING
FINISHING AND PAINTING JOB PREPARATION Before welding, remove any bend in the L angle with the sludge hammer on the anvil block. Then it is cut to the required length with the hacksaw blade and fabricated to required dimensional shape with arc welding. FINISHING OPERATION BEFORE PAINTING After welding, any slag on the welded area is removed with the chipping hammer and cleaned with the metal wire brush. Then all the surfaces are rubbed with the emery sheet. Metal primer is applied on the surfaces with the brush. After drying the metal primer, the second coating is applied with the paint.
SAFETY,CARE AND MAINTENANCE
SAFETY,CARE AND MAINTENANCE Before using the machine, some of the points to be noted for safety purpose, 1. Before starting the operation, check the following items (1) Check the mechanism for proper operation . (2) Check the alignment of piston in the unit. (3) Don’t insert the any material or object between the during operation of pumping. (4) Check the leakage of water and pipeline in the unit. (5) sit carefully while pumping the water .
FEATURES OF THIS PROJECT
FEATURES OF THIS PROJECT  It is compact in size  It can be move  No electrical power consumption  It can be utilized at our work shop  It is simple in construction  Low cost  Less weight and easy to handle  It reduces the man power  It is simple in operation..
RESULT AND DISCUSSION
RESULT AND DISCUSSION The various type of pumps are used for pumping the water from a sump to tank. This is also one of the hand operated pump which is now operated through the cycle pedal .The operation and mechanism of this unit and its function have been studied. At the end, the machine is assembled. This machine is more advantages of other types of hand pump since it has more easier to operate comfortable seating arrangement and good exercise to our body and also less time consumption, easy handling etc.
COST ESTIMATION
COST ESTIMATION 1. suction pipe line and connector--------------------200.00 2. Hand pump unit 2800.00 3. Crank rod 600.00 4.M.S. Fabricated BASE unit 1600.00 5. PEDAL & SEAT UNIT 600.00 6. transport cost 200.00 TOTAL COST 6000.00
CONCLUSION CONCLUSION We make this project entirely different from other projects. Since concepts involved in our project is entirely different that a single unit is used to various purposes, which is not developed by any of other team members.
By doing this project we gained the knowledge of fabrication work and how the welding is doing and material selection for particular components etc., It is concluded that any fabrication work can be done with the help of welding. We have successfully completed the project work on using welding work at our Institute. Once again we express our sincere thanks to our staff members.
BIBLIOGRAPHY BIBLIOGRAPHY 1. WORKSHOP TECHNOLOGY -HAJRA CHOWDRY
2. PRODUCTION TECHNOLOGY -R.S. KHURMI 3. MACHINE SHOP TECHNOLOGY -S.S.MANIAN 4. JIG AND FIXTURE DESIGN - R.K.JAIN 5.FLUID POWER BY -E.SUNDRAMOORTHY PHOTO VIEW
PHOTO VIEW

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Pedal pump 2015

  • 1. FABRICATION OF PEDAL OPERATED WATER PUMP Submitted in the partial fulfillment of the requirement for the award of “DIPLOMA IN MECHANICAL ENGINEERING” SUBMITTED BY: 1. G.JAGADESH KUMAR 4. M.G.VISHNU 2. R.GOPINATH 5. D.MUTHUKUMARAN 3. T.NARESH 6. K.MANI Under guidance of Mr. Z.KHAJA MOIDEEN ,B.E MARCH 2013. DEPARTMENT OF MECHANICAL ENGINEERING. SRI DURGA DEVI POLYTECHNIC COLLEGE RSM NAGAR, KAVERAI PETTAI.
  • 2. SRI DURGA DEVI POLYTECHNIC COLLEGE RSM NAGAR, KAVERAI PETTAI BONAFIDE CERTIFICATE This is to certify that this Project work on “FABRICATION OF PEDAL OPERATED WATER PUMP ” submitted by …………………… ……………. Reg. No. …………… in partial fulfillment for the award of DIPLOMA IN MECHANICAL ENGINEERING This is the bonafide record of work carried out by him under our supervision during the year 2013 Submitted for the Viva-voce exam held on …………….. HOD PROJECT GUIDE INTERNAL EXAMINER EXTERNAL EXAMINER
  • 4. ACKNOWLEDGEMENT At the outset, we would like to emphasize our sincere thanks to the Principal Mr. K.LAKHSMANAN,M.E encouragement and valuable advice. we thank our Esquired Head of Department Mr. S.JESUDASS M.E for presenting his felicitations on us. We are grateful on our Entourages Mr. Z.KHAJA MOIDEEN B.E, for guiding in various aspects of the project making it a grand success. We also owe our sincere thanks to all staff members of the Mechanical Department. Ultimately, we extend our thanks to all who had rendered their co- operation for the success of the project.
  • 6. CONTENTS 1. INTRODUCTION 2. SYNOPSIS 3. CONSTRUCTION DETAILS 4. WORKING PRINCIPLE 5. SPARE PARTS DRAWING 6. INTRODUCTION TO PUMP 7. APPLICATION 8. ADVANTAGES AND DISADVANTAGES 9. FEATURES OF THIS PROJECT 10. SAFTY,CARE AND MAINTENANCE 11. PAINTING AND FINISHING 12. COST ESTIMATION 13. CONCLUSION 14. BIBLIOGRAPHY 15. PHOTO VIEW
  • 8. INTRODUCTION This is a self – assessment test on the part of the students to assess his competency in creativity. During the course of study, the student is put on a sound theoretical foundation of various mechanical engineering subjects and of course, to a satisfactory extent. Opportunities are made available to him to work on different kinds of machines, so that he is exposed to various kinds of manufacturing process. As a students learn more and more his hold on production technology becomes stronger. He attains a stage of perfection, when he himself is able to design and fabricate a device. This is the project work. That is the testimony for the strenuous training, which the student had in the institute. This assures that he is no more a student, he is an engineer. This report discuses the necessity of the project and various aspects of planning , design, selection of materials, fabrication, erection, estimation and testing.
  • 10. SYNOPSIS Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages. Working principle; This pump consists of one cylinder , piston two numbers of non return valve and hand lever. When lever is raised , the piston inside the cylinder moves down into the cylinder causes water is sucked . when the lever is lowered or pressed down , the water inside the cylinder discharged to outlet point. The pedal is rotated by the foot and hence crank rotates causes the connect rod oscillated to the lever of the pump . Thus the water is discharged to the outlet by pedaling the cycle pedal.
  • 12. OBJECTIVE; To lift the water from the ground floor to first floor of the domestic building and to avoid the painstaking staircase pot carrying option. To save the electricity
  • 14. DEFINITION OF PROBLEM; During summer season , due to water scarcity problem the people purchasing the water from lorry by collecting the water through their pots. These pots are carried by the men or women and getting tired when carrying water through staircase step those who are living in flat system. When this unit is installed in first floor of the building , the suction pipe is put in to the water delivery pipe of lorry and water is delivered through the flexible pipe to the required collecting point by pedaling this unit.
  • 15. SCOPE OF THE PROJECT
  • 16. SCOPE OF THE PROJECT;  The outstanding advantage of water discharging system from the ground floor to first floor or discharging the water from the lorry to the collecting point by simply pedaling this unit .  The water is carried by the flexible tube relieves the stress free painstaking water carrying through the pot while in staircase walking.  Simple construction and less effort and costless maintenance and anybody can work this unit.  Operation is very smooth and in this system we can get more output by applying less effort.
  • 18. PROJECT PLANNING CONCEPT OF THE PROJECT Before starting every project its planning is to be done. In a planning functions are life the functions of nerves in our body. Planning a project is a very important task and should be taken up with great care as the efficiency of the whole project largely depends upon its planning, while planning a project each and every details should be worked out in anticipation should be carefully considered with all the relative provisions aspects. PROJECT CAPACITY The capacity of the project must be decided considering the amount of money which can be invested. The availability of material and machines and usefulness of the project. DESIGN AND DRAWING Having decided about the project to be manufactured at must be designed. Design work should be done very considering all the relevant factors. After design the project detailed drawing are prepared. Detailed Specification for raw material and finished products should be decided Carefully along with the specification of the machine required for the manufacture.
  • 19. MATERIAL REQUIREMENTS The list of material required for manufacture is prepared from the drawing. The list is known as “Bill of materials”. Availability of these materials is surveyed and purchased from the market. OPERATION PLANNING Next work of planning is to “select the best method” manufacture the product, so that the wastage of materials, labor, machines and time can be eliminated by considering various methods. The best method is to be selected for fabrication and other works. The proper method and proper person and the purposes of operation, necessity operation, proper machine planning. The best method is the developed and is applied to fabricate the project. MACHINE LOADING While planning proper care should be taken to find the machining time for the operation as correct as possible. So that arrangement of full use of machines can be made and the machine loading program can be decided. PURCHASE CONSIDERATION It is difficult to manufacture all the components needed for the project in the machine shop. In each case, we should decide whether to
  • 20. make or buy about a particular item. It is decided during the planning after making a complete study of relative merits and demerits. EQUIPMENT PROCEDURE Results obtained from “operation planning” and machine loading help in calculating the equipment require Specification of the equipment should be laid down by considering then drawings. Drawings will also help in deciding the necessary requirement of tools and accessories.
  • 22. CONSTRUCTION The project consist of 1. Hand operated pump 2. M.S. . Stand 3. CONNECTING ROD 4. Crank shaft 5. Pedal with shaft 6. Seat M.S.Stand; This unit fabricated in M.S. square tube of size 25 x 25 mm and having thickness 1.8 mm .the operator can pedaled in sitting position and this seat is elevated to a height of 400 mm at right side of stand. The pump unit is fitted at the right side of the stand . the pedals are welded between the seat and pump at the base stand.
  • 23. Connecting rod ; The connecting rod is used to connect the pump piston and the crankshaft.this connecting rod is made in mild steel material having 10mm square rod to a length of 450mm. Crankshaft; The purpose of crankshaft is convert the rotary motion into linear motion . here the crankshaft is made in M.S. Flat of 25mm x 6mm and rotated in pair of sleeve bearing hub on the top of the base stand. On the other end of the crank foot pedal rod is connected and the leg is supported on pedal shown in below figure.
  • 24. BICYCLE PEDAL ; A bicycle pedal is the part of a bicycle that the rider pushes with their foot to propel the bicycle. It provides the connection between the cyclist's foot or shoe and the crank allowing the leg to turn the bottom bracket spindle and propel the bicycle's wheels. Pedals usually consist of a spindle that threads into the end of the crank and a body, on which the foot rests or is attached, that is free to rotate on bearings with respect to the spindle. Pedals were initially attached to cranks connecting directly to the driven (usually front) wheel. The safety bicycle, as it is known today, came into being when the pedals were attached to a crank driving a sprocket that transmitted power to the driven wheel by means of a roller chain
  • 26. Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages.. The Mark II is a closed-cylinder pump. The cylinder brass-lined cast iron with the foot valve and piston assemblies made of brass. The piston seals are double nitrile rubber cup seals.
  • 27. As you can see in the figure below, the top and bottom of the piston cylinder are “capped” with threaded reducers. The diameter of the pump cylinder is larger than the diameter of the riser main to which it is attached. Maintenance on any part of the pump cylinder requires that the riser main and the pump rod be removed from the ground. The pump rod is galvanized steel and sections are threaded together.
  • 28. The pump cylinder is threaded onto the last section of riser main and is removed in its entirety as the last component to come out of the ground. The pump cylinder can then be unscrewed from the riser main. The top and bottom caps can be unscrewed from the cylinder body to gain access to the foot valve, the piston valve, the piston seals and anything else inside the cylinder body. The Mark II water hand pumps are reliable and widely used. However, for installation and maintenance, tools and skills are required that may not be available at the village level. As such, the Mark II is not considered a VLOM pump. It usually requires a trained area technician to install and maintain a Mark II pump. The Mark II hand pump consists of the above-ground mechanism which includes the pump head, pump handle, water tank, and pump stand assemblies. The below-ground mechanism includes the riser main, pump rods and pump cylinder assembly. The above-ground mechanism is constructed of welded steel plate for strength and is hot-dip galvanized for corrosion resistance. These parts may be locally manufactured.
  • 29. A chain and quadrant mechanism of the pump handle provides easy and accurate alignment of the connecting rod (see illustration). The pump handle has a high mechanical advantage. It is heavy and is designed to counter balance the weight of the connecting rods to reduce the pumping effort required from the user. The handle pivot assembly (sealed ball bearings on a stainless steel axle) makes operation easier and lowers maintenance needs. The pump rods are made of cold drawn bright steel bar with threaded end couplers, electro-galvanized against corrosion. Stainless steel rods are also available. The pump cylinder is made from a cast iron casing with a polished brass liner and gun metal plunger and check valve components. Seals (pump buckets, valve seals and cap seals) are available in environmentally safe Nitrile rubber. This pump can be easily adapted for shallow well, windmills and motorized operations with minor modifications. How Does a Hand Water Pump Work? 1. The Old Days
  • 30. o Many older homes and farms have utilized the manual hand water pump. The cast iron housing would bring water to the surface from a hand-dug rock-lined well. It may have taken many strokes from the long lever in order to gather just a gallon of water from the underground source. Although the manual hand pump may be of an old design, many are still in use today for wells that are no deeper than 20 to 30 feet in depth. Leather o The round interior of the manual water pump uses a metal disc that is sealed against the smooth sides of the pumping chamber. Generally, two discs are used that sandwich a piece of leather. This leather creates a seal so a suction can be created inside the chamber. As the handle is "pushed" downwards, the lever action draws the disc and leather sandwich up. The upward movement of the disc "sucks" the liquid into the pumping chamber. When the handle is pulled upwards the opposite lever action on the disk then forces the water out of the chamber through a spout located at the top of the hand pump. Generally, one full cycle of the hand pump, a single stroke of up and down, may eject only one glass full of water. Check Valve
  • 31. o A check valve or a one-way valve is generally used to keep the suction pipe full of water. The check valve is located at the bottom of the pipe and inside the well. This suction pipe is attached to the bottom of the hand pump and is what conducts the well water to the surface. If a check valve is not used, the water that in the pipe can drain back into the well. In order for the hand pump to be used, it must be kept in a closed circuit of water. If air is allowed to enter the pumping chamber it must be removed by priming the pump. Priming the pump can be achieved by filling the pump chamber and perhaps even the suction pipe with water. This can be accomplished by pouring water through the exit spout of the hand pump while stroking the handle up and down. This will allow the water to fill in the chamber and suction pipe to remove any unwanted air. Still In Use o Many homes in rural areas that use a private well for their source of water may still employ a hand pump as a backup device. These reliable pumps can be attached mechanically to a small windmill or a solar powered motor and be used as an emergency backup whenever the electrical power may be disrupted. Even with modern technology, the same basic design is still used today in the construction and operation of a manual hand water pump.
  • 32. 2. BEARINGS; A bearing is a machine element that constrains relative motion between moving parts to only the desired motion. The design of the bearing may, for example, provide for free linear movement of the moving part or for free rotation around a fixed axis; or, it may prevent a motion by controlling the vectors of normal forces that bear on the moving parts. Bearings are classified broadly according to the type of operation, the motions allowed, or to the directions of the loads (forces) applied to the parts. A journal bearing consists of an approximately cylindrical body around a rotating shaft. This journal bearing is used either for supporting a radial load, or simply as a guide for smooth transmission of torque. Most common applications of bearings are the plain circular bearings type (with a 360 degrees arc). Lubrication usage, on the other hand, range from a simple inlet hole to axial, circumferential, and helical grooves for efficient lubrication distribution. The plain bearing applications include reciprocating sliders, rotating or oscillating cylindrical members sliding in annular sleeves, and rotating or rotationally oscillating disks sliding on mating disks.
  • 33. The advantages of plain bearings are as follows: - lower first cost - simple design - small radial space required - quiet operation - not so sensitive to dust or grit - less likely to be subjected to fatigue failure - easy to replace Materials: Plain bearings must be made from a material that is durable, low friction, low wear to the bearing and shaft, resistant to elevated temperatures, and corrosion resistant.
  • 34. #Babbitt (metal) #Bronze #Graphite #Plastic-Solid plastic plain bearings are now increasingly popular due to dry-running lubrication-free behavior. Solid polymer plain bearings are low weight, corrosion resistant, and maintenance free.
  • 35. 3. Crank rod; CRANK is a mechanical number. It is connect to the through follower .Links to hand lever for pump. The crank is rotated by the cycle pedal . . When the cycle pedal is rotated, the rotory motion of crank is converted to reciprogating motion of connecting rod 3.FRAME STAND First of all the frame is designed and The base is constructed by using the welded joints and cut the material with the required size by using hacksaw machine. The stand frame material is used to mild steel at low cost is widely and is used
  • 36.
  • 38. WORKING PRINCIPLE The project consist of 1.Hand operated pump 2.M.S. . Stand 3.CONNECTING ROD 4.Crank shaft 5.Pedal with shaft 6.Seat 1.HAND OPERATED PUMP Hand operated pumps are widely used in domestic, industrial and commercial applications. The capacity of this pump varies from 5 feet to 50 feet . higher head pumps are used for pumping drinking water in villages.
  • 39. Working principle; This pump consists of one cylinder , piston two numbers of non return valve and hand lever. When lever is raised , the piston inside the cylinder moves down into the cylinder causes water is sucked . when the lever is lowered or pressed down , the water inside the cylinder discharged to outlet point. The pedal is rotated by the foot and hence crank rotates causes the connect rod oscillated to the lever of the pump . Thus the water is discharged to the outlet by pedaling the cycle pedal.
  • 42. ADVANTAGES 1. Single person is enough to operate this efficiently to pump the water from the sump.. 2. Easy and efficient handling of this unit without wastage of water or damage to unit, pump and to any other parts. 3. low maintenance cost and life of equipment also increased.. 4. Least maintenance of the equipment. 5. Need not require any individual work place. 6. Can be worked in the work spot. 7. Suited for pumping water for 15 feet to 20 feet depth .
  • 44. DISADVANTAGES • Manual power required to operate . • The time taken for discharging the water is more when compared to power unit. • It cannot be used for more than 50 feet depth ...
  • 46. APPLICATIONS 1.By using this device , the water can be pumped up to 20 feet height. 2.used as exercise kit.
  • 48. FINISHING AND PAINTING JOB PREPARATION Before welding, remove any bend in the L angle with the sludge hammer on the anvil block. Then it is cut to the required length with the hacksaw blade and fabricated to required dimensional shape with arc welding. FINISHING OPERATION BEFORE PAINTING After welding, any slag on the welded area is removed with the chipping hammer and cleaned with the metal wire brush. Then all the surfaces are rubbed with the emery sheet. Metal primer is applied on the surfaces with the brush. After drying the metal primer, the second coating is applied with the paint.
  • 50. SAFETY,CARE AND MAINTENANCE Before using the machine, some of the points to be noted for safety purpose, 1. Before starting the operation, check the following items (1) Check the mechanism for proper operation . (2) Check the alignment of piston in the unit. (3) Don’t insert the any material or object between the during operation of pumping. (4) Check the leakage of water and pipeline in the unit. (5) sit carefully while pumping the water .
  • 51. FEATURES OF THIS PROJECT
  • 52. FEATURES OF THIS PROJECT  It is compact in size  It can be move  No electrical power consumption  It can be utilized at our work shop  It is simple in construction  Low cost  Less weight and easy to handle  It reduces the man power  It is simple in operation..
  • 54. RESULT AND DISCUSSION The various type of pumps are used for pumping the water from a sump to tank. This is also one of the hand operated pump which is now operated through the cycle pedal .The operation and mechanism of this unit and its function have been studied. At the end, the machine is assembled. This machine is more advantages of other types of hand pump since it has more easier to operate comfortable seating arrangement and good exercise to our body and also less time consumption, easy handling etc.
  • 56. COST ESTIMATION 1. suction pipe line and connector--------------------200.00 2. Hand pump unit 2800.00 3. Crank rod 600.00 4.M.S. Fabricated BASE unit 1600.00 5. PEDAL & SEAT UNIT 600.00 6. transport cost 200.00 TOTAL COST 6000.00
  • 57. CONCLUSION CONCLUSION We make this project entirely different from other projects. Since concepts involved in our project is entirely different that a single unit is used to various purposes, which is not developed by any of other team members.
  • 58. By doing this project we gained the knowledge of fabrication work and how the welding is doing and material selection for particular components etc., It is concluded that any fabrication work can be done with the help of welding. We have successfully completed the project work on using welding work at our Institute. Once again we express our sincere thanks to our staff members.
  • 60. 2. PRODUCTION TECHNOLOGY -R.S. KHURMI 3. MACHINE SHOP TECHNOLOGY -S.S.MANIAN 4. JIG AND FIXTURE DESIGN - R.K.JAIN 5.FLUID POWER BY -E.SUNDRAMOORTHY PHOTO VIEW