A compressive study on rib circular knitting machine

SOUTHEAST UNIVERSITYSchool of Science and Engineering, Department of Textile Engineering Presentation ON A compressive study on Rib Circular Knitting Machine 1... SOUTHEAST UNIVERSITYSc

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

Presentation ON

A compressive study on Rib Circular Knitting Machine

1

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• The structure in which the face and back loop occurs along to the coarse

successively but all the loops of a wale is same is called rib structure The

circular knitting machine which is used to produce the rib structures is

known as rib machine.

INTRODUCTION

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

MACHINE DESCRIPTION

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• Feature of Rib Circular Knitting Machine

• In this m/c one set of needle is arranged vertically in the cylinder and another set of needle is arranged

in the dial of the m/c.

• Here both dial and cylinder rotates where cam with yarn feeder remain stationary.

• The needle and cylinder are arranged in different position alternatively.

• No sinker is required for this m/c Dial’s needle do the performance of sinker.

• Not more than two track of cam is possible for dial.

• Feature of Rib Circular Knitting Machine

• In this m/c one set of needle is arranged vertically in the cylinder and another set of needle is arranged

in the dial of the m/c.

• Here both dial and cylinder rotates where cam with yarn feeder remain stationary.

• The needle and cylinder are arranged in different position alternatively.

• No sinker is required for this m/c Dial’s needle do the performance of sinker.

• Not more than two track of cam is possible for dial.

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• Is the circular knitting m/c ,yarn is supplied from the set of packages which is placed in the creel When supplying the yarn from the packages tensioner & anti snail device are placed over & in contact with the yarn The yarns is fed from the feeder to the needles of the needles of the dial & cylinder In successively, the knitted fabric is produced by the action of needles, cam & sinker The produced knitted fabric is passed over & in contact with the fabric spreader & fabric withdraw roller Finally the fabric is wound in the fabric winding roller.

Description of yarn to fabric path diagram:

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• 1.Creel:Creels are the knitting elements which carry the yarn packages to feed the knitting zone.

• 2.Feeder:The feeders feed the yarn into the needles hooks and control the needle latches in their position while the needles attain their position.

• 3.Dial:Dial is the upper steel needle bed used in double jersey knitting m\c Into the grooves of the dial ,the needles are mounted horizontally and near allowed to move radially in and out by their dial cam.

• 4 Guide: Guides control the yarn path which is very necessary

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• 5 Needle: It is the principal element of knitting m/c The function of the needle to retain old loop & to receive the new loop.

• 6 Cam: The cams are the mechanical devices which convert the rotary m/c drive into a suitable reciprocating action for the needles.

• 7 Cylinder: The cylinder is a steel circular bed having grooves on its outer periphery where the needles are mounted.

• 8.Fabric Spreader: A simple fabric spreader is a solid wooden plate, placed above the take down rollers & held in position by the fabric tube

• 9.Cloth roller: this mechanism withdraw the fabric from the needles & winds them into cloth roller.

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

Knitting action of the m/c

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• 1 Rest position: The rest position for the cylinder and dial needles Needles are constant Loops are present in their hooks Latches are close

• 2 Tucking position for dial needle: The dial needle moves forward Loop is present on the latch Latch is open Cylinder needle is

in the rest position

• 3 Tucking position for cylinder needle: The cylinder needle moves forward The cylinder loop is present on the latch Here dial needle holds down the fabric on the cylinder needle So that the latch of the cylinder needle is opened

• 4 Clearing position of dial needle: The dial needle further moves forward to clear the old loop from its latch Here dial latch is open

Knitting action of the m/c

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

Knitting action of the m/c

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• 5 Clearing position of cylinder needle: The cylinder needle will further move forward to clear the old loop from its latch

Cylinder latch is open

• 6 Yarn presenting position: The cylinder and dial needles are pulled back again and they move into their yarn presenting

position The newly presented yarn is laid in the open needle hooks of both the needles

• 7 Cast on position: The cylinder and dial needles are pulled further and move into their cast on position Here the loops lie over the closed needle head and the newly presented yarn is held in the closed needle head

• 8 Knock-over position: The cylinder and dial needles are pulled further The new yarn is drawn through the loops of the both needles The loops are knocked-over as stitches and new loops are formed out of the yarn presented

Knitting action of the m/c

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

Motor to cylinder gearing diagram

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

Description of motor to cylinder gearing diagram:

A motor is needed to perform the action of creating the motion is the circular knitting m/c This motor drives the motor pulley & motor pulley gets the motion Then the motor pulley drives the other m/c pulley The driver m/c pulley also drives the next m/c pulley There after, m/c pulley drives the bevel gear & finally the bevel gear drives the cylinder gear.

Description of motor to cylinder gearing diagram:

A motor is needed to perform the action of creating the motion is the circular knitting m/c This motor drives the motor pulley & motor pulley gets the motion Then the motor pulley drives the other m/c pulley The driver m/c pulley also drives the next m/c pulley There after, m/c pulley drives the bevel gear & finally the bevel gear drives the cylinder gear.

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• Production Calculation from our LAB double jersey knitting m/c

• R.P.M of cylinder=1400×3/8×3/11×33/237 =19.9367=20

• R.P.M of dial=1400×3/8×3/11×33/237×296/45×45/296=19.9367 =20

Specification:

• Cylinder diameter=22’’

• Gauge=24

• No of feeder=25

• Stitch length=2.2mm

• Yarn count=28Ne

• Shift =8

• Efficiency=90%=0.90

• Cylinder R.P.M=20

• CPI=36

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

1.Rib has a vertical cord appearance.

2.1×1 rib has the appearance of technical face of plain fabric

3.Relaxed 1×1 rib is theoretically twice as thick and 1\2 the width of an equivalent plain fabric.

4.It is more expensive fabric to produce than plain fabric.

5.It can be unravel from the end knitted last by the free loop head through to the back of each stitch.

6.It is a heavier structure.

7.It has very little curling tendency.

8.Rib structures are elastic from fitting and retain warmth better than plain structure.

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• In This Presentation we learned about details of rib circular machine This experiment has significance in our study life In this experiment we sketch the yarn path diagram of the machine, show the knitting action, cam system We point out the various specification of the machine.

CONCLUSION

SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

• Class Lecture.

• Circular knitting, By lyer/schach/Mammel, Second edition

• Knitting Technology by David J Spencer.

• International Journal of Engineering & Technology IJET-IJENS Vol: 11 No: 01

• Understanding textiles for A Merchandiser by Engr Shah Alimuzzaman Belal

•

http://textilelearner.blogspot.com/2012/01/mechanical-interlock-circular-knitting_29.html#ixzz1sec2XeLV

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SOUTHEAST UNIVERSITY

School of Science and Engineering, Department of Textile Engineering

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