Tag Archives: mechanical projects jammu

Electromagnetic clutch system

Introduction:

Clutch:

Clutch is basically a mechanism which is being used for transmitting rotation, which can be engaged and disengaged. Clutches are being used particularly in those devices that have two rotating shafts. In these devices, one shaft is typically driven by a motor or pulley, and the second drives the another device. The clutch connects the two shafts so that they can either be locked together and spin at the same speed, or be decoupled and spin at different speeds.

The clutch disc(center) spins with the fly wheel (left). To disengage, the lever is pulled, causing a white pressure plate to disengage the green clutch disc from turning the drive shaft, which turns within the thrust bearing ring of the lever. All the 3 rings will never connect, with any gaps.

Requirement of a clutch:

Torque transmission: The clutch should be able to transmit maximum torque of
the engine.

Gradual engagement: The clutch should engage gradually to avoid sudden jerks.

Heat dissipation: The clutch should be able to dissipate large amount of heat
which is generated during the clutch operation due to friction.

Dynamic balancing: The clutch should be dynamically balanced. This is
particularly required in the case of high speed engine clutches.

Vibrating damping: The clutch should have suitable mechanism to damp
vibrations and to eliminate noise produced during the power transmission.

Size:- The clutch should be as small as possible in size so that it will occupy
minimum space.

Free pedal play: The clutch should have free pedal play in order to reduce
effective clamping load on the carbon thrust bearing and wear on it.

Easy in operation: The clutch should be easy to operate requiring as little
exertion as possible on the part of the driver.

Lightness: The driven member of the clutch should be made as light as possible
so that it will not continue to rotate for any length of time after the clutch has
been disengaged.

Types of clutches:

Different types of clutches are as follows:
1. Friction clutch:
(a) Single plate clutch
(b) Multi plate clutches:
Wet clutch.
Dry clutch.
(c) Cone clutch:
External clutch.
Internal clutch.
2. Centrifugal clutch.

3. Semi-centrifugal clutch

4. Diaphragm clutch:
(a) Tapered finger type
(b) Crown spring type

5. Positive clutch:
(a) Dog and Spline clutch

6. Hydraulic clutch

7. Electromagnetic clutch

8. Vacuum clutch

9. Over running clutch or free-wheel unit

Main Parts of the clutch:

The main parts of the clutch is divided into three parts :

Driving members:
It consist of a fly wheel mounted on the engine crankshaft.

Flywheel couple with clutch

Driven members:
The driven members are consist of the disc or plate, called the clutch plate.

Pressure plate and clutch plate

Operating members:

Operating members are consist of a foot pedal, linkage, release or throw out bearing, release levers and springs.

Pedal, Bearing and spring

Electromagnetic clutch:

Electromagnetic clutches operate electrically, but transmit torque mechanically. That is why they are called electromechanical clutches. They are most suitable for remote operation since no mechanical linkages are required to control their engagement, providing fast and smoothing operation.

However, because the activation energy dissipates as heat in the electromagnetic actuator when the clutch is engaged, there is a risk of overheating. Consequently, the maximum operating temperature of the clutch is limited by the temperature rating of the insulation of the electromagnet.

In this type of clutch, the flywheel consists of winding from the battery or dynamo.
When the current passes through the winding. it produced an electromagnetic field which attracts the pressure plate.
Thereby engaging the clutch.
When the supply is cut-off the clutch is disengaged.
The gear lever consists of a clutch release switch.
When the driver holds the gear lever to change the gear, the switch is operated
cutting off the current to the winding which causes the clutch disengaged.
At low speed when the dynamo output is low, the clutch is not firmly engaged.
Therefore, three springs are also provided on the pressure plate which helps the
clutch engaged firmly at low speed also.

Construction:

A horseshoe magnet has a north and south pole. If a piece of carbon steel contacts both poles, a magnetic circuit is created. In an electromagnetic clutch, the north and the south pole is create by a coil shell and a wound coil. In a clutch when power is applied, a magnetic field is created in the coil. This field overcomes an air gap between the clutch rotor and the armature. This magnetic attraction, pulls the armature on contact with the rotor face. The frictional contact, which is being control by the strength of the magnetic field, is what causes the rotational motion to start.

The torque comes from the magnetic attraction of the coil and the fiction between the steel of the armature and the steel of the clutch rotor. For many industrial clutches, friction material is used between the poles. The material is mainly used to help to decrease the wear rate, but different types of material can also be used to change the coefficient of friction. For example, if the clutch is required to have an extended time to speed or slip time, a low co efficient of friction material can be used and if a clutch is required to have a slightly higher torque, a high coefficient friction material can be used.

In a clutch, the electromagnetic lines of flux have to pass into the rotor, and in turn, attract and pull the armature in contact with it to complete clutch engagement. Most industrial clutches use what is called a single flux, two pole design. Mobile clutches of other specially electromagnetic clutches can use a double or triple flux motor. The double or triple flux refer to the number of north- south flux paths, in the rotor and the armature.

Basic structure of Electromagnetic Clutch

This means that, if the armature is designed properly and has similar banana slots, what occurs is the leaping of the flux path. Which goes north south, south north. By having more points of contact, the torque can be greatly increased. In theory if there were two sets of poles at the same diameter, the torque would double in the clutch. Obviously, that is not possible to do, so the points of contact have to be at a smaller inner diameter. Also there are magnetic flux losses because of the bridges between the banana slot. But by using a double flux design, a 30- 50%increase in torque can be achieved, and by using a triple flux design, a 40-90% torque can be achieved. This is important in applications where size and weight are critical, such as automotive requirements.

The coil shell is made with the carbon steel that has a combination of good strength and good magnetic properties. Copper magnet wire, is used to create the coil, which is held in shell either by a bobbin or by some type of epoxy.

To increase life in applications, friction material is used between the poles on the face of the rotor. This friction material is flush with the steel on the rotor, since if the friction material was not flush, good magnetic traction could not occur between the faces. Some people look at electromagnetic clutches and mistakenly assume that, since the friction material is flush with the steel that the clutch has already worn down but this is not the case. Clutches used In most mobile applications do not use the friction material. Their cycle requirements tend to be lower than industrial clutches and their cost is more sensitive. Also many mobile clutches are exposed to outside elements, so by not having friction material, it eliminates the possibility of swelling, that can happen when friction material absorbs moisture.

Need of using Electromagnetic Clutch:

Function of clutch is to engage or disengage the engine from the transmission system. Hence it is inserted between the flywheel as well as gear box. It is consists of main important parts like clutch plate, pressure plate, friction disc, operating lever etc. In clutch engage as well as disengage are very important, because due to which clutch is used. But when clutch is applied at that time, some clearance is there in the clutch pedal called clutch pedal play and due to which, proper disengage of clutch is not achieve and clutch will slip or dragged.

There is a need to use some system incorporated in clutch system, to prevent above situation. Hence, if we shift gear and at that time clutch will disengage hence, it is very simple for driver and force require to engage as well as disengage the clutch is also neglected, hence a new type of clutch used in automobile vehicles called “Renault Car” called electromagnetic clutch.

In this clutch system, when gear shift lever is applied at that time, due to MMF clutch will disengage and when release lever, clutch will engage.

Basic operation of electromagnetic clutch:

The clutch has four main parts:

Field Coil
Rotor
Armature
Hub

When we apply the voltage, the stationary magnetic field generates the lines of flux that pass into the door. The flux pulls the armature in contact with the rotor, as the armature and the output start to accelerate. Slipping between the rotor face and the armature face continues until the input and the output speed is the same. The actual time for this is quite short, between 1/200th of a second and 1 second.

Disengagement is very simple. Once the field starts to degrade, flux falls rapidly and the armature separates. One or more springs hold the armature away from the rotor at a predetermined air gap.

Voltage/current and the magnetic field.

If a piece of copper wire was wound, around the nail and then connected to a battery, it would create an electromagnet. The magnetic field that is generated in the wire, from the current, is known as the “right hand thumb rule”. (FIGURE-21) The strength of the magnetic field can be changed by changing both wire size and the amount of wire (turns). EM clutches are similar; they use a copper wire coil (sometimes aluminum) to create a magnetic field.

The fields of EM clutch can be made to operate at almost any DC voltage, and the torque produced by the clutch or brake will be the same, as long as the correct operating voltage and current is used with the correct clutch. If a 90 V clutch, a 48 V clutch and a 24 V clutch, all being powered with their respective voltages and current, all would produce the same amount of torque. However, if a 90 V clutch had 48 V applied to it, this would get about half of the correct torque output of that clutch. This is because voltage/current is almost linear to torque in DC electromagnetic clutches.

A constant power supply is ideal if accurate or maximum torque is required from a clutch. If a non regulated power supply is used, the magnetic flux will degrade, as the resistance of the coil goes up. Basically, the hotter the coil gets the lower the torque will be, by about an average of 8% for every 20°C. If the temperature is fairly constant, but there may not be enough service factor in your design for minor temperature fluctuation. Over-sizing, the clutch would compensate for minor flux. This will allow the use a rectified power supply which is far less expensive than a constant current supply.

Based on V = I × R, as resistance increases available current falls. An increase in resistance, often results from rising temperature as the coil heats up, according to: Rf = Ri × [1 + αCu × (Tf – Ti)] Where Rf = final resistance, Ri = initial resistance, αCu = copper wire’s temperature coefficient of resistance, 0.0039 °C-1, Tf = final temperature, and Ti = initial temperature.

Engagement time:

There are actually two engagement times to consider in an electromagnetic clutch. The first one is the time that it takes for a coil to develop a magnetic field, strong enough to pull in an armature. Within this, there are two factors to consider. The first one is the amount of ampere turns in a coil, which will determine the strength of a magnetic field. The second one is air gap, which is the space between the armature and the rotor. Magnetic lines of flux diminish quickly in the air.. Air gap is an important consideration especially with a fixed armature design because as the unit wears over many cycles of engagement the armature and the rotor will create a larger air gap which will change the engagement time of the clutch. In high cycle applications, where registration is important, even the difference of 10 to 15 milliseconds can make a difference, in registration of a machine. Even in a normal cycle application, this is important because a new machine that has accurate timing can eventually see a “drift” in its accuracy as the machine gets older.

The second factor in figuring out response time of a clutch is actually much more important than the magnet wire or the air gap. It involves calculating the amount of inertia that the clutch needs to accelerate. This is referred to as “time to speed”. In reality, this is what the end-user is most concerned with. Once it is known how much inertia is present for the clutch to start then the torque can be calculated and the appropriate size of clutch can be chosen.

Most CAD systems can automatically calculate component inertia, but the key to sizing a clutch is calculating how much inertial is reflected back to the clutch or brake. To do this, engineers use the formula: T = (wk2 × ΔN) / (308 × t) Where T = required torque in lb-ft, WK2 = total inertia in lb-ft2, ΔN = change in the rotational speed in rpm, and t = time during which the acceleration or deceleration must take place.

There are also online sites that can help confirm how much torque is required to accelerate a given amount of inertia over a specific time.

Elements of the Electromagnetic clutch:

Electromagnetic clutches share basic structural components: A coil in a shell, also refereed to as a field: a hub: and an armature. A clutch also has a rotor, which connects to the moving part of the machine, such as drive shaft.

The coil shell is usually carbon steel, which combines strength with magnetic properties.
Copper wire forms the coil, although sometimes aluminum is used. A bobbin or epoxy adhesive holds the coil in the shell.

Activating the unit’s electric circuit energizes the coil. The current running through the coil generates a magnetic field. When magnetic flux overcomes the air gap between the armature and field, magnetic attraction pulls the armature – which connects to the hub -into contact with the rotor.

Magnetic and friction forces accelerate the armature and hub to match rotor speed. The rotor and the armature slip past each other for the first 0.02 to 1.0 seconds until the input and the output speeds are the same. The matching of the speed is sometimes called 100% lockup.

Major Parts of the project:

1. Driving motor
2. Pressure plate
3. Clutch plate
4. Pedal
5. Steel shaft
6. bearing
7. Frame
8. Gang box
9. Dc battery
10. Gen stopper

Driving Motor:

Dc motor is being used in this project as Driving motor to rotate the engine shaft.
We connect the dc motors between the clutch plates and the engine shaft.
It is rotated with 20,000 RPM.
Practically it is rotating in this project at

Clutch plate and Pressure plate:

Clutch plate is connected with one end of motor shaft in place of the engine shaft.
Clutch plate is rotated at as same as the motor speed.
The friction material is attached to the outer periphery of the clutch plate
Pressure plate is connected with one end of driven shaft.
There is a clearance between clutch plate and pressure plate while clutch is disengaged.
The pressure plate rotated at the same speed as the clutch plate when clutch is fully engaged.
The RPM of the pressure plate varies according to the engaging condition.

SR. No.
Name
Nos

1.
Friction plate
1
2.
Aluminum angles
5 mtr
3.
Aluminum flat
3 mtr
4.
Drive motor
1
5.
Pressure plate
1
6.
Wire
10 mtr
7.
Switch for motor and clutch
2
8.
Electromagnet for clutch
1
9.
Hardware material
1
10.
Power supply
1

Working of Electromagnetic clutch:

The main components of EM clutch are a coil shell, an armature, rotor, and hub. The armature plate is lined with friction coating. The coil is placed behind the rotor. When the clutch activated the electric circuit energizes the coil, it generates a magnetic field. The rotor portion of clutch gets magnetized. When the magnetic field exceeds the air gap between rotor and armature and then it pulls the armature toward the rotor. The frictional force generated at the contact surface transfer the torque. Engagement time depends on the strength of magnetic fields, inertia, and air gap. When voltage is removed from the coil, the contact is gone. In most design a spring is used to hold back the armature to provide an air gap when current is removed.

Application of electromagnetic clutch:

They can be used for remote application because they do not require linkage to actuate the clutch. They are used in printing machinery, conveyor drives, copier machines and factory automation. In an automobile, it replaces clutch pedal by a simple switch button. A smaller EM clutch is used to drive the compressor of air conditioning system.

The complicated linkage is not required to control clutch.

Synopsis on pneumatic hammer

Synopsis 

on 

pneumatic hammer

A pneumatic hammer is more commonly referred to as a jackhammer or power hammer. They are of the same family and do roughly the same thing on differing scales. If you are driving through a big city then you have most likely seen them used by city workers as they break up a road for some reason unknown to you. A pneumatic hammer is typically connected to an air compressor that feeds into the device. Once you apply pressure to the triggers the blade begins to move at a very rapid RPM up and down through the shaft. This generates enough thrust to break apart most materials. The pneumatic hammer can be found in many sizes and speeds and some can have their maximum speed adjusted to your needs. The article that follows will go over several things that a pneumatic hammer is used for.

Road Construction

A pneumatic hammer is one of the main tools of workmen that are contracted the job of road repair. They often use the pneumatic hammer to chisel away the road to create an even surface in which to lay asphalt. They are also used to break through the road to the sewers below in order to create new manholes or access points. What many people do not realize is that roads are made from layers upon layers of asphalt, stone, concrete and other materials. This makes a road very difficult to break through without using a pneumatic hammer.

Rock Removal

When you are digging trenches for use as ponds, swimming pools or house foundations you may come into contact with a large boulder. Most rocks you come across are easily removed but some cannot even be removed by using a backhoe. These large boulders hinder projects often. A pneumatic hammer may be called in and used to chip away at the boulder. The pneumatic hammer will break off large chunks of the boulder that will manageable.

Concrete Walls

Concrete wall removal is difficult and made more so when enforced with steel. If you could knock it over it still will be impossible to move. The solution to this problem is to use the pneumatic hammer to break it into chunks that can be removed with a bulldozer or other such heavy machinery. A pneumatic hammer was used to break away the Berlin Wall. Using a pneumatic hammer for this particular problem requires one that is portable. You will also need to be able to be elevated in order to reach what has to be removed. Smaller pneumatic hammers are used to install concrete hardware without having the user exert any strength.

Building Construction and Demolition

Tools that are traditionally used to rip down a home or aspects of it include sledgehammers, axes, pry bar and other pieces of equipment. Large pneumatic hammers can be used to break apart the foundation of the building. This is also the case for walls. A small pneumatic hammer can be used to install large nails, bolt and the like through metal beams, duct and conduit.

Pneumatic Hammer Working

A pneumatic hammer, also known as air hammer or power hammer uses compressed air to carve or chip away at stone, metal and other materials. It is a tool generally used to shape or smooth a surface area, to dig holes or cut through a surface. An air hammer, which is a replacement for the traditional hammer and chisel, is a handy tool that is very valuable for its speed which at times may lack a bit of precision in the final result. Pneumatic hammers are generally attached by a tube or hose to a large tank that pumps up air and thus making the pistons move.

 

Material Required:

  • Pneumatic cylinder
  • solenoid valve
  • air compressor
  • hammer
  • shafts
  • metallic based
  • clamps

Applications:

Automatic hammer can be used in industries where metal sheets are being prepared. It will save the time and the cost of the man power and consumer less human energy. It is widely used in industries for producing the plain metal sheets mechanism.
ADVANTAGES

Money saving

Time Saving

Efficiency increasing

More output in less time

CONCLUSION:

After all the testing we are successful in representing our idea of the project in practical way. The project on which we are working is working with very ease and efficient way.The hammer is working in a right manner by hitting the objects accurately with pressure.

Synopsis On Automatic Drain Cleaner 9888708401

  1. Complete project cost Rs 12k + transportation charges
  2. Project Report

On

Automatic Drain Cleaner

Introduction:

Cleaning of drains/gutters has always been a problem. Labors cleaning gutters & drain seems unethical and also leads to a high risk of them catching infections or poisoning due to large amounts of waste/chemicals in them. Also throwing of bottles/plastics and other such objects into the gutters lead to narrowing and eventually blockage in gutter flow. This leads to overflow in many cases. So here we provide a fully automated drain gutter cleaning mechanism to tackle these modern day gutter jamming issues. Our system uses an automated gutter/drain cleaning system that lets fluids flow through it but catches large solid waste like bottles & plastic and accumulates it. So gutter cleaners need to just clean these gutter cleaning systems installed at points instead of cleaning entire gutter floors. Our system consists of metal teeth based jaws that wait at the bottom of the mechanism. It is mounted in a frame to hold the system upright in the gutter. The vertical frame bed is used to let liquid flow but catch all solid waste. The mechanism consists of a filter basket on top of it. After particular time intervals the jaw lifts up using a motorized shaft which is connected using a chain to the jaws. It then reaches the top and turns upside down to dump the solid waste. Now after dumping the waste, the motor rotates again to bring the jaw again to the bottom position to collect more waste. The system is a very efficient way to cleaning gutters & drains and also requires very low power since it will only rotate once or twice a day to dump the solid waste

Waste water is defined as the flow of used water from homes, businesses, industries, commercial activities and institutions which are subjected to the treatment plants by a carefully designed and engineered network of pipes. There are large no.of machines used for removing out the wastes from drains.

Material Required:

  • Sprocket Gears

  • Welding Set

  • Cutters

  • grinding wheels

  • Angle 1.5 inch 3 mm 20 feet

  • Chain with special hole ¾ inch pitch

  • Sheet metal

  • Wire 3 mm 3 feet

  • Sheet 3 feet x 3 feet

  • DC Motor

  • Battery

drain cleaner9drain cleanerdrain cleaner 8

Working:

In this project we are using Dc motors to operate the project. Dc motors is being used to rotate sprocket gear which helps in moving the chain mechanism. The metal plates which are being used to clean the wastage materials are attached to the chain by using hooks. So when we give power supply to the DC

Motor through the 12 Volts battery it starts revolving. It helps in moving the sprocket gear as well as the chain mechanism. Hence with the movement of the chain our metal plates starts moving Up and Down. It starts collecting the wastage material on them and through them out to the garbage container which is attached with the metallic stand on the back side. For the blockage of the wastage material we are using a net which will block the wastage material at one pint. After that metal plates will collect the wastage material form the bottom of the structure and will through it out to the garbage cleaner.

ADVANTAGES

  1. Low cost
  2. Reliable
  3. Portable
  4. Flexible
  5. Easy to use- system is very easy to understand

Applications:

  • Used for cleaning the water in canals and rivers.

CONCLUSION:

After all the testing we are successful in representing our idea of the project in practical way. The project on which we are working, is working with very ease and efficient way. We are able to fetch out the wastage material from the water and be able to collect it in the garbage collector container.

box shifting projects mechanical projects ludhiana jalandhar chandigarh patiala bathinda

Synopsis 

ON

Box Shifting Machinde

INTRODUCTION

Box shifting is our major project.
This device is operated by Motor. We are controlling this machine with ac motor . we know in these days time & Money is very important. In production centers there are more need of above works. So if we take all machine for all work then a large investment is required to purchased them and obviously space also required. So to keep this in mind we made this project. We can do all works in one machine. Hence we can save space and money as well as time also.

Components:-

6mm Iron strip 12*12 Inch 2

6mm Iron strip 6*30” 1

Ply Board 12mm

Sewing machine 220 V 1

Crown pinion 1

Center bearing 1

1’’ L-shap iron strip 16 fit

Pully 2” 1

Pully 7” 1

Bush 2

5 fit, 1” pipe 1

Working

We rotate a motor with 220 Volt. This rotation is transmitted to the machining head by a shaft and the required operation is carried out. First of all we rotate pinion. This pinion is mechanically attached with crown and a round plate. Crown is directly connected with a drill bit holder and round Plate changes the rotation energy into horizontal movement with required mechanism. With this shaft one side a hex-saw is attached and other side a shaper is attached. At end of shaft we can connect more tools.

conveyor for box transmission using cam

ADVANTAGES

  1. Money saving

  2. Time Saving

  3. Efficiency increasing

  4. More output in less time

application

Base on the application of the device, I would say that it is very useful for small industrials, Carpenters,

 

MECHANICAL PROJECT LIST

Padel operated water purifier

DSC_0649

Mechanical Projects chandigarh

Mechanical Projects

  • Dancing Floor energy Utilization 4
  • Soil leveling using Pneumatic leveller 8
  • Hammer using pneumatic or hydraulic system 8
  • Solar System based Vehicle with Control
  • Medicine Spray with Automatic mechanical logic
  • Solar based Grass cutting machine
  • Solar based water sprayer system
  • Pneumatic Projects
  • Pneumatic Jack
  • Pneumatic Lift – In this project
  • Coneveyor belt
  • Automatic braking with pneumatic system
  • Pneumatic door control +password system pneumatic
  • railway crossing system
  • Pneumatic machine control Pneumatic
  • regenrative beaking system
  • water sprinkler
  • Steam Engine
  • Paddle operated washing machine
  • paddle operated electricity generattor
  • Compressed Air Engine
  • Hydraullic Punching Machine
  • Hydraullic press
  • Multiactuator hydraullic system
  • Solar Grass cutter with trolley
  • Trolley based dishwash washing system
  • bootling Plant automation
  • Industrial automation using robotics complete model
  • Moving trolley based spray pump
  • hydraulic Lift Object segregation and rejection
  • Speedometer
  • Auto Gear control
  • IC based engine
  • Remote operated patient bed
  • Hydraulic Robotic ARM
  • Pneumatic control of jack Conveyor belt
  • Automatic remote Jack
  • Trolley conveyor
  • Room cooler using special cotton.
  • Road Energy utilization
  • regenerative braking system
  • Auto braking system
  • Automatic Guided vehicle fire fighting robot
  • Snake robo
  • walking Robo Robotic ARM
  • PLC based Industrial Automation
  • PLC based Bottling Plant
  • PLC based Crane System
  • PLC Machine Control or Drill Control
  • Multi functional Machine
  • Water Sprinkler
  • Auto Gear control
  • IC based engine
  • Remote operated patient bed
  • Trolley conveyor
  • Segvey vehicle
  • Padle operated washing machine
  • Solar Car Big
  • Solar water Srayer
  • Solar Jack
  • Conveyor belt
  • Robotic ARM
  • Multifunctioning Machine Control
  • Drilling Mechanism
  • Pneumatic machine control
  • Pneumatic Lift
  • Pneumatic Jack
  • Pneumatic door control +password system
  • Pneumatic railway crossing system
  • Automatic braking with pneumatic system
  • Pneumatic Hammer for Ground levelling
  • Pneumatic Cane Crasher
  • Pneumatic Screw Driver kit
  • Pneumatic Punching machine
  • Pneumatic Colour Paint Sprayer
  • Pneumatic Regenerative Braking System
  • Pneumatic Machine control
  • Pneumatic Drill Mechanism
  • Pneumatic Arm
  • Pneumatic Mechanism in Car washing service station
  • Regenerative Braking SystemEnergy producing with Speed Breaker
  • Energy producing with Dancing Floor
  • Energy producing from a busy road
  • Solar Seeker
  • Carefully walking Robot
  • Water sprinkle using cycle
  • Conveyor belt automation
  • Pedal operated Hacksaw
  • Pedal operates washing machine Single roatation
  • Pedal Operated wahing machine with dual side rotation
  • Pedal operated electricity generation
  • Footstep opearted electricity generation
  • Peltier based refrigeration System
  • Electricity from Speed Beaker
  • Robotic arm mechanical
  • Auto Braking System
  • Sterling Engine
  • Multifunction machine system
  • Hydraulic/ Pneumatic based Zig Zag Bridge
  • Electricity generation from tidal effect of sea waves-
  • Ball grinding machine
  • Water spray pump trolley
  • Industrial Automation using robotics
  • Pneumatic crane / hydraulic crane
  • Mini JCB with robotics
  • Wheel chair cum patient bed system
  • Frictionless braking System using electromagnetic auto brakes
  • Go CART project
  • Segway with three tyres
  • Multi Actuator system Hydraulic system
  • Rack and Pinion based car Lift
  • Six/ eight legs Spider
  • Automatic Scrap collecting robot
  • mechanical white board cleaner using rack and pinion assembly
  • Solar E- CYCLE- battery operated
  • Automatic Glass door with person detection
  • Conveyor mechanism  2 meter Long
  • Pipeline robot with leakage detection
  • Hovercraft based Project
  • Head Light Steering Control-In this project there will be head light movement. there will be analog input from steering movement. we will change resistance input with roatation of 8
  • 4 wheel controlled Steering System – in this we will control all four wheels with the movement of steering.
  • Single Paddle Cycle Mechanical Projects ludhiana bathinda chandigarh ambala patiala sangrur rajpura | Projects
    • Dancing Floor energy Utilization 4
    • Soil leveling using Pneumatic leveller 8
    • Hammer using pneumatic or hydraulic system 8
    • Solar System based Vehicle with Control
    • Medicine Spray with Automatic mechanical logic
    • Solar based Grass cutting machine
    • Solar based water sprayer system
    • Pneumatic Projects
    • Pneumatic Jack
    • Pneumatic Lift – In this project
    • Coneveyor belt
    • Automatic braking with pneumatic system
    • Pneumatic door control +password system pneumatic
    • railway crossing system
    • Pneumatic machine control Pneumatic
    • regenrative beaking system
    • water sprinkler
    • Steam Engine
    • Paddle operated washing machine
    • paddle operated electricity generattor
    • Compressed Air Engine
    • Hydraullic Punching Machine
    • Hydraullic press
    • Multiactuator hydraullic system
    • Solar Grass cutter with trolley
    • Trolley based dishwash washing system
    • bootling Plant automation
    • Industrial automation using robotics complete model
    • Moving trolley based spray pump
    • hydraulic Lift Object segregation and rejection
    • Speedometer
    • Auto Gear control
    • IC based engine
    • Remote operated patient bed
    • Hydraulic Robotic ARM
    • Pneumatic control of jack Conveyor belt
    • Automatic remote Jack
    • Trolley conveyor
    • Room cooler using special cotton.
    • Road Energy utilization
    • regenerative braking system
    • Auto braking system
    • Automatic Guided vehicle fire fighting robot
    • Snake robo
    • walking Robo Robotic ARM
    • PLC based Industrial Automation
    • PLC based Bottling Plant
    • PLC based Crane System
    • PLC Machine Control or Drill Control
    • Multi functional Machine
    • Water Sprinkler
    • Auto Gear control
    • IC based engine
    • Remote operated patient bed
    • Trolley conveyor
    • Segvey vehicle
    • Padle operated washing machine
    • Solar Car Big
    • Solar water Srayer
    • Solar Jack
    • Conveyor belt
    • Robotic ARM
    • Multifunctioning Machine Control
    • Drilling Mechanism
    • Pneumatic machine control
    • Pneumatic Lift
    • Pneumatic Jack
    • Pneumatic door control +password system
    • Pneumatic railway crossing system
    • Automatic braking with pneumatic system
    • Pneumatic Hammer for Ground levelling
    • Pneumatic Cane Crasher
    • Pneumatic Screw Driver kit
    • Pneumatic Punching machine
    • Pneumatic Colour Paint Sprayer
    • Pneumatic Regenerative Braking System
    • Pneumatic Machine control
    • Pneumatic Drill Mechanism
    • Pneumatic Arm
    • Pneumatic Mechanism in Car washing service station
    • Regenerative Braking SystemEnergy producing with Speed Breaker
    • Energy producing with Dancing Floor
    • Energy producing from a busy road
    • Solar Seeker
    • Carefully walking Robot
    • Water sprinkle using cycle
    • Conveyor belt automation
    • Pedal operated Hacksaw
    • Pedal operates washing machine Single roatation
    • Pedal Operated wahing machine with dual side rotation
    • Pedal operated electricity generation
    • Footstep opearted electricity generation
    • Peltier based refrigeration System
    • Electricity from Speed Beaker
    • Robotic arm mechanical
    • Auto Braking System
    • Sterling Engine
    • Multifunction machine system
    • Hydraulic/ Pneumatic based Zig Zag Bridge
    • Electricity generation from tidal effect of sea waves-
    • Ball grinding machine
    • Water spray pump trolley
    • Industrial Automation using robotics
    • Pneumatic crane / hydraulic crane
    • Mini JCB with robotics
    • Wheel chair cum patient bed system
    • Frictionless braking System using electromagnetic auto brakes
    • Go CART project
    • Segway with three tyres
    • Multi Actuator system Hydraulic system
    • Rack and Pinion based car Lift
    • Six/ eight legs Spider
    • Automatic Scrap collecting robot
    • mechanical white board cleaner using rack and pinion assembly
    • Solar E- CYCLE- battery operated
    • Automatic Glass door with person detection
    • Conveyor mechanism  2 meter Long
    • Pipeline robot with leakage detection
    • Hovercraft based Project
    • Head Light Steering Control-In this project there will be head light movement. there will be analog input from steering movement. we will change resistance input with roatation of 8
    • 4 wheel controlled Steering System – in this we will control all four wheels with the movement of steering.
    • Single Paddle Cycle

stair climbing trolley

IMG-20160205-WA0016

bootling Plant automation

DSC_0403

Solar gass cutter

mech

regenrative braking system

In this project we will generate electricity from brake applied in vehicle.

project will generate electricity and  will protect from slipage of vehicle also.

Tyre will be used for opposite forces.

in this project there will be a cucle tyre will be fixed on rod. tyre will move using a motor. when brakes applied then brake tyre will touch with cycle tyre. electricty of motor during this duration will be stopped .

when opposite brake tyre touch with cycle tyre then brake tyre will rotate shaft of dynamo

so electricity will generate

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