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A Project Report on

PIPE BENDING MACHINE

Submitted in the partial fulfilment of the requirements for the award of degree of

BACHELOR OF TECHNOLOGY IN MECHANICAL ENGINEERING By (1) MAYATEET KUMAR (43) (2) MD. FIRDAUS ANSARI (44) (3) MOHAMMAD HASSAAN (45) (4) NASIMUL HODA (49)

Under the valuable guidance of

Amit Meena Asst. Professor

DEPARTMENT OF MECHANICAL ENGINEERING FACULTY OF ENGINEERING AND TECHNOLOGY

GURUKUL KANGRI UNIVERSITY, HARIDWAR, UTTARAKHAND NOVEMBER 2014.

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CERTIFICATE

This is to certify that the project report entitled “PIPE BENDING MACHINE” being submitted by MD.FIRDAUS ANSARI, NASIMUL HODA, MOHAMMAD HASSAAN and MAYATEET KUMAR in partial fulfilment of the requirements for the award of the Degree of Bachelor of Technology in Mechanical Engineering from Faculty of Engineering and Technology Gurukula kangri University, Uttarakhand is a record of bonafide work carried out by them under the guidance and supervision.

The results embodied in this project have not been submitted to any other university or institute for the award of any degree or diploma.

Mr. Sanjeev Kumar Lamba Mr. Amit Meena

HOD, Mechanical Engineering Asst. Prof.Mechanical Engineering GKV, Haridwar GKV, Haridwar.

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AKNOWLEDGEMENT

It is with immense pleasure and satisfaction that we present our first attempt in practical experience in the form of project work. There are many people who helped us in successful completion of our project. We would like to take this opportunity to thank one and all. First of all we would like to express our sincere thanks to our Dean Dr. R.D. KAUSHIK, for providing congenial atmosphere to carry out our project work. We would like to express heartfelt thanks to Mr. SANJEEV LAMBHA Head of The Department, Mechanical Engineering for their guidance and encouragement they have given throughout the course of the project work.

We wish to express our gratitude to Mr. AMIT MEENA who guided us and supported us towards the completion of project.

November 2014 MD. Firdaus Ansari Nasimul Hoda Mayateet Kumar Mohammad Hassaan

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ABSTRACT

Mechanical Engineering without production and manufacturing is meaningless. Production and manufacturing process deals with conversion of raw materials inputs to finished products as per required dimension, specification and efficiently using recent technology. The new development and requirements inspired us to think of new improvements in manufacturing field.

In our project Pipe Bending Machine various diameters of pipe is being bend with the help of this machine and various shapes is obtained like v-shape, circular, square, channel etc. It is widely used in various industrial operation such as bending a tube to make coil or sheet metal to make certain shape such as ‘V’ shape.

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CONTENTS

Content Page No

List of Figures……….………..II CHAPTER 1……….1 INTRODUCTION………...………1 1.1 Overview………...….1

1.2 Need for pipe bending machine……….1

CHAPTER 2………2

TYPES OF BENDING MACHINE……….2

2.1 Tube bending………...2

2.2 Circle bending……….2

2.3 Channel bending……….3

2.4 Square bending………4

CHAPTER 3……….5

DESIGN AND SPECIFICATION OF BENDING MACHINE………..5

2.1 Design………..5 2.2 Specification………5 CHAPTER 4………..6 WORKING………6 CHAPTER 5………...7 CALCULATION………...7 CHAPTER 6………8

APPLICATION AND ADVANTAGES………8

6.1 Application………...8 6.2 Advantages……….9 CHAPTER 7……….10 CONCLUSION………10 CHAPTER 8……….11 FUTURE SCOPE………...11 REFERENCE………...12

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List of Figures

Fig. no. Figure Name Page No.

2.1 Tube bending 2

2.2 Tube bending operation 2

2.3 Circle bending 3

2.4 Channel bending 3

2.5 Square bending 4

4 Pipe bending machine 6

II

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CHAPTER 1

INTRODUCTION

Bending is a manufacturing process that produces a V-shape, U-shape, or channel shape along a straight axis in ductile materials, most commonly sheet metal. Commonly used equipment includes box and pan brakes, brake presses, and other specialized machine presses.

1.1 Overview

A bending is a process of bending a metal. The metal can be a sheet metal, tubes, square hollow, rod, and iron angle. This type of metal has its own thickness. In bending machine designing several considerations is taken into including type of metal, type of the roller bender, power driven or manual and the size of the bending machine. Usually, the difference of these types of bending machine is only on the capacity of the bending machine that can bend a sheet metal or tube. Today, the bending machine that available in the market is for the sheet metal and tube bending machine. Many machine makers vary their products based on the capacity of the bending machine and power driven or manual. Moreover, most of the machine uses roll bending type. This type of machine has 3 rolls which is 1 roll is fixed and the other 2 are adjustable. The sheet metal needs to put in the roller and then rolls around it until the desire shape is acquired. The products that can be produced with this machine are coil, truncated cone, etc.

1.2 Need for Pipe Bending Machine

As we know that pipe bends are used in various household things therefore it is necessary to build a economical pipe bending machine. It is also used in designing of various machine components, without this bending device a machine can’t work properly. As far as industrial application is concerned it is used for piping purpose. The reason to design a bending machine is because there is no proper bending machine to bend a solid or hollow pipe for small scale. The bending machines found in the market come from variety of types. There are bending machine such as press brake bending machine, roll bending machine and a folding machine.

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CHAPTER 2

TYPES OF BENDING MACHINE

2.1 Tube Bending

The Forming Roller method of tube bending is recommended for all large bends where the centerline radius is at least 4 times the outside diameter of the tube. It can also be successfully employed for bending pipe or heavy wall tubing to smaller radii and is the most practical method of bending very small diameter tubing.

Fig: 2.1 Tube Bending.

The Forming Roller and Radius Collar must be grooved to exactly fit the tube and the tube must not be allowed to slip during the bending operation as even a slight amount of slippage will cause distortion.

Fig: 2.2 Tube bending operation.

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2.2 Circle Bending:

This operation is somewhat involved by the fact that most materials “spring back” after they have been formed. To compensate for this, it is often necessary to use a Radius Collar having a smaller diameter than that of the circle required. Actual size can best be determined by experiment, as the “spring back” varies in different materials. Material should be precut to exact length before forming.

Fig: 2.3 Circle Bending.

2.3 Channel Bending:

The same general bending rules which cover the forming of channel with “flanges out” also apply when it is formed with “flanges in.” Since it is necessary to compress the flanges as they are bent inward, the operation shown below requires considerably more bending pressure than when forming with the “flanges out” and it is recommended that the largest possible radius be used to allow for compression of the material. if a sharp 90° bend is desired, it can be obtained by cutting a notch out of the channel flanges before forming around a special Zero.

Fig: 2.4 Channel bending.

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Radius Block as illustrated. It is sometimes possible to make a circle in channel by using a segment of a Radius Collar similar. By following the procedure outlined on, the circle can be formed in three operations. To form channel with the flanges facing upward it is necessary to first fill it with Cerro bend or some other commercial filler as it is not possible to support the flanges in this position with a radius Collar.

2.4 Square Bending:

Forming zero radius bends around square, rectangular, or other multisided blocks employs the same principle used in scroll bending. Forming Nose “leads” material between corners of the block. Any number of zero radius bends can be obtained in one operation by this method in all types of solid materials. Both centered and off-center square eye can also be formed by following the same procedure outlined on.

Fig: 2.5 Square bending.

This method of bending is limited by the size of the square block and the ductility of the material. In general, when squares larger than 1” are needed, they should be formed in progressive operations using the zero radius blocks.

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CHAPTER 3

DESIGN AND SPECIFICATION OF BENDING

MACHINE

3.1 Design

It consists of several parts namely:-

a) FRAME- The frame provides support to the entire machine components.

b) MOTOR- It is fastened to the frame and draws power from a.c source and it also consists of a bending die.

c) DIE- A bending die consists of a vice which is welded to it and which is used to hold a pipe firmly.

d) STAND- It is used to support the rod or pipe at other side.

e) VICE- It is located on the stand which provides strength to the rod.

3.2 Specification

Sr. No Components Specification

1. FRAME 2m x 1m

2. MOTOR power= .5hp and speed= 40 rpm

3. STAND .5m x 5m

4. DIE Radius=8cm and thickness=3cm

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CHAPTER 4

WORKING

Pipe bending as a process starts with loading a tube into a pipe bender and clamping it into place between two dies, the clamping block and the forming die. The tube is also loosely held by two other dies, the wiper die and the pressure die.

A pipe bending machine is a simple bending machine which is operated by a a.c or d.c motor. The motor is attached to the frame of the machine and also consist of a circular die on which a vice to hold the rod is welded.

Fig: 4 Pipe bending machine.

First of all the rod to be bend is set in the vice of the machine and then power supply is put on, then the motor begins to produce torque and depending upon the dimension of the rod it is bend. The power from the motor is transferred which rotates the circular plate in anticlockwise direction and bend the rod for given radius. Various die can be used as per requirements namely v-die, wiping die, roller die, etc.

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CHAPTER 5

CALULATION

Given,

Power of motor, P = .5hp Speed of motor, N = 40rpm Radius of circular die = 8cm

Modulus of Elasticity of iron rod = 210GPa To find,

Torque produced by motor = T Minimum diameter of rod = d Therefore

P=.5hp = 372.8W P= (2ΠNT) /60 W T=89000 N-m Applying bending equation,

Using,

M/I=E/R, where

M=moment or torque produced by motor I =polar moment of inertia of rod

E =modulus of elasticity of rod

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R=radius of bend or die radius

Therefore, I = (π÷64) ×d4 89000/[(π÷64) ×d4] =(210 * 109)/(8*10-2) d4 = (64*89000*8*10-2)/(3.14*210*109) d4 = 6.91*10-7 d = .0288 m d = 2.8 cm Diameter of rod, d ≤ 2.8 cm 8

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CHAPTER 6

APPLICATION AND ADVANTAGES

6.1 Applications: 1. Angle Bending 2. Metal Folding 3. U Hook 4. Marine Tube 5. Heat Exchanger 6. Scroll Bending 6.2 Advantages 1. Easily operated 2. Simple construction 3. Low cost 4. Rigid construction 9

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CHAPTER 7

CONCLUSION

In this project , a iron rod is efficiently bend for a given power of motor, whose diameter is 2.8 cm. the various pipe bending machines consisting of various dies used for production in Industries are known in this project This bending tool is very useful in household application as it runs at very low cost and very efficient.

In this project various pipe shape that is square, v-shape, channel bend, circular shape are bend the rod at any angle.

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CHAPTER 8

FUTURE SCOPE

In the next stage we are trying to make a pipe bending machine which will be helpful in easy bending of pipes. Although there is higher initial cost involved we have tried to make the system cost effective and also add different enhancements to make the system more efficient so that it may work around the year.

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REFERENCE

[1] Wikipedia - Bending Machine (tube bending)

[2]Clifford M.J., Eastwood D. (2006). Design of hydraulic pipe bending machine No. 77 pp.269-280.

[3] Strength of Material – Er. Rk Rajput, for calculating minimum diameter of rod.

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References

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