lesson plan - government polytechnic, hisar · 2018-06-21 · 40 introduction of basic machinery...
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Lesson Plan
Name of Faculty: Mr. JITENDER BAJIA
Discipline: Textile Technology
Semester: 3rd
Subject: EMPLOYABILITY SKILLS –I
Lesson Plan Duration: 16 weeks
Work Load (Lecture / Practical) per week (in hours): Pr= 2 per week/ pr =0
WEEK
PRACTICALS
PRACTICAL
DAY
TOPIC
1st 1 1. Writing skills Official and business correspondence
2nd
2 Job application - covering letter and resume (Cont.)
3rd
3 Job application - covering letter and resume.
4th
4 Report writing - key features and kinds.
5th
5 2. Oral Communication Skills Giving advice
6th
6 Making comparisons
7th
7 Agreeing and disagreeing
8th
8 Taking turns in conversation
9th
9 Fixing and cancelling appointments (Cont.)
10th
10 Fixing and cancelling appointments
11th
11 3. Generic Skills Stress management
12th
12 Time management
13th
13 Negotiations and conflict resolution
14th
14 Team work and leadership qualities
15th
15 Viva voce and evaluation
16th
16 Viva voce and evaluation
Lesson Plan
Name of Faculty: Mr. JITENDER BAJIA
Discipline: Textile Technology
Semester: 5th
Subject: Environmental Education
Lesson Plan Duration: 15 weeks (July-18 to Nov-18)
Work Load (Lecture / Practical) per week (in hours): Th= 3 per week/ pr =0
Week
Theory
Lecture
day
Topic
(including assignment / test)
1st
1st 1. Definition and Scope of Environmental Education
2nd
Importance of Environmental Education
3rd
2. Basics of ecology, biodiversity
2nd
4th
Eco system
5th
Sustainable development
6th
3. Sources of pollution - natural and manmade
3rd
7th
Causes, effects of air pollution
8th
Control measures of air pollution
9th
Causes, effects of noise pollution
4th
10th
Control measures of noise pollution
11th
Causes, effects of soil pollution
12th
Control measures of soil pollution
5th
13th
Causes, effects of radioactive pollution
14th
Control measures of radioactive pollution
15rd
Causes, effects of nuclear pollution
6th
16th
Control measures of nuclear pollution
17th
Units of measurement of pollution
18th
4. Solid waste management- Causes and effects of urban waste
7th
19th
SESSIONAL 1
20th
Control measures of urban waste
21th
Causes and effects of industrial waste
8th
22th
Control measures of industrial waste
23th
5. Mining and deforestation – Causes, effects of mining
24th
Control measures of mining
9th
25th
Causes, effects of deforestation
26th
Control measures of deforestation
27th
6. Environmental Legislation - Water (prevention and control of pollution)
Act 1974
10th
28th
Air (Prevention and Control of Pollution) Act 1981
29th
Environmental Protection Act 1986
30th
Role and Function of State Pollution Control Board
11th
31th
Environmental Impact Assessment (EIA)
32th
SESSIONAL II
33th
7. Role of Non-conventional Energy Resources Solar Energy
12th
34th
Wind Energy
35th
Bio Energy
36th
Hydro Energy
13th
37th
8. Current Issues in Environmental Pollution – Global Warming, Green
House Effect
38th
Depletion of Ozone Layer, Recycling of Material
39th
Environmental Ethics
14th
40th
Rain Water Harvesting
41th
Maintenance of Groundwater
42th
Acid Rain
15th
43th
Carbon Credits
44th
Revision
45th
Sessional
Specimen of Lesson Plan
Name of Faculty: Mr. JITENDER BAJIA (VF)
Discipline: Textile Technology
Semester: 3rd
Subject: WEAVING PREPARATORY PROCESSES-II
Lesson Plan Duration: 16 weeks
Work Load (Lecture / Practical) per week (in hours): Th= 3 per week/ pr =0
Week
Theory
Lecture
day
Topic
(including assignment / test)
1st
1st Introduction to yarn preparation
2nd
Introduction to yarn preparation
3rd
Objectives of yarn preparation
2nd
4th
Objectives of yarn preparation
5th
Types of different packages
6th
Types of different packages
3rd
7th
Sequence of Process involved in the preparatory
8th
Sequence of Process involved in the preparatory
9th
Brief description of Process involved in the preparatory
4th
10th
Brief description of Process involved in the preparatory
11th
Brief description of Process involved in the preparatory
12th
Introduction to Warp Winding
5th
13th
Introduction to Warp Winding
14th
Expert Lecture 1
15rd
Objects of Warp-winding
6th
16th
Objects of Warp-winding
17th
Sessional-1
18th
Conventional Winding machines
7th
19th
Conventional Winding machines
20th
Limitations of Conventional Winding machines
21th
Main features of high speed winding
8th
22th
Main features of high speed winding
23th
Construction of high-speed winding machine such as cone-winder
24th
Construction of high-speed winding machine such as cone-winder
9th
25th
Sessional 2nd
26th
Working of high-speed winding machine such as cone-winder
27th
Main features of auto- coner
10th
28th
Different types of tensioners,
29th
Expert Lecture 2
30th
Balloon-breaker and its functions
11th
31th
Full package stop motion
32th
Common faults in warp-winding
33th
Causes of faults in warp-winding and their remedies
12th
34th
Introduction to weft-winding
35th
Different types of machines of weft winding
36th
Special features of high-speed pirn winder
13th
37th
Sessional-III
38th
Common faults in pirn winding and their rectifications
39th
Comparison of slow speed, high speed and Automatic pirn winding
Machine
14th
40th
Comparison of slow speed, high speed and Automatic pirn winding
Machine
41th
Comparison of slow speed, high speed and Automatic pirn winding
Machine
42th
Introduction to drawing-in and different methods of the same.
15th
43th
Precautions to be taken during drawing-in
44th
Process Control Parameter in drawing -in
45th
Yarn numbering systems (direct system and indirect system),
16th
46th Yarn numbering systems (direct system and indirect system),
47th
Yarn numbering systems (resultant count, average count) 48th Yarn numbering systems (equivalent count and their conversion in various
systems)
LESSON PLAN
Name of Faculty: Mausam
Discipline: Textile technology
Semester: 3rd
Subject: Textile chemistry
Lesson Plan Duration: 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—04,
Practical—04
Week
Theory Practical
Lecture Day Topic (Including Assignment/ Test Practical Day Topic
1st
1 Introduction to textile processing
1 Desizing of cotton 2 Natural and added impurities in cotton
3 Natural and added impurities in wool and silk
2nd
4 Introduction of Singeing, Dyeing, Scouring
2 Scouring of cotton 5 principle and process of Singeing
6 principle and process Designing
3rd
7 principle and process Scouring
3 Bleaching of cotton
with suitable agent 8 Introduction of Bleaching
9 Bleaching of cotton with sodium bleaching powder
4th
10 Bleaching of cotton with hypochlorite
4 DO 11 Bleaching of cotton hydrogen peroxide
12 Scouring and carbonization of wool
5th
13 Bleaching of wool with sodium hydrosulphite and
hydrogen peroxide
5 Bleaching of wool 14 Degumming of Silk, bleaching of Silk with hydrogen
peroxide
15 Scouring of Polyamide
6th
16 Scouring Polyester
6 DO 17 Scouring of Acrylic
18 Scouring of Viscose rayon
7th
19 Bleaching of Polyamide
7 Bleaching of silk 20 Bleaching of Polyamide
21 Bleaching of Acrylic
8th
22 Bleaching of Viscose rayon
8 Scouring of polyester 23 Mercerization of cotton
24 Objective of Mercerization
9th
25 Physical and chemical changes of during process
9 bleaching of polyester 26 Classification of dyes
27 general terms used in dyeing
10th
28 basis of methods of dyeing, Principle of dyeing
10 Dyeing of cotton with
suitable classes of dyes 29 Introduction of Dyeing
30 Direct dyes
11th
31 ………….do………. 11
Dyeing of wool and silk
with suitable dye 32 Reactive dyes
33 ………….do………. 12th
34 Sulphur dyes
12 do 35 ………….do………. 36
Dyeing of wool with
a. Acid Dyes
b. Metal complex dyes
13th
37 Dyeing of Silk with
a. Acid Dyes
b. Metal complex dyes
13 Dyeing of polyester
with disperse dye 38 Dyeing of Polyester with disperse dyes
a. Carrier Method
b. High Temp. Method
39 Dyeing of acrylic with basic dyes
14th
40 Introduction of basic machinery use in dyeing
14 do 41 a. Jigger dyeing machine
42 b. winch dyeing machine
15th
43 c. Padding mangle dyeing machine
15 Dyeing of acrylic with
basic dye 44 d. Fiber dyeing machine
45 e. Hank dyeing machine
16th
46 f. Principles of machine and working process
16
47 Checking of File n Viva
48 Checking of File n Viva
Lesson Plan
Name of Faculty : Rakesh Jindal
Discipline: Textile Technology
Semester: 3rd
Subject: WEAVING TECHNOLOGY-I
Lesson Plan Duration: 15 weeks (From JULY 2018 – NOV 2018)
Work Load (Lecture / Practical) per week (in hours): Th= 4 per week / pr =1
Week
Theory Practical
Lecture
day
Topic
(including assignment / test) Practica
l day Topic
1st
1st History of weaving
1st
Precautions to be observed
during working on loom
Practice of putting various type
of knots
2nd
Terminology (winding and
loom)
3rd
Introduction to handloom
4th
Introduction to power loom
2nd
5th
Introduction to different types of
healds,
2nd
Drawing-in of broken ends
according to draft.
Terminology (winding and
loom) Noting the different
parts of the power loom
6th
Introduction to different types of
reeds
7th
Introduction to different types of
shuttles
8th
Introduction to types of sheds-their
merits and demerits
3rd
9th
Different Sheds merits and demerits
3rd
Preparation of double flanged
warper’s Bobbins and cones
from hank. 10
th
Tappet shedding mechanism and
existing motion (for tappet loom)
11th
Introduction to Tappets
Construction of tappets
12th
Heald reversing motion Timing of
shedding motion early and late
shedding
4th
13th
Calculations regarding healds and
reeds
4th
Methods of finding reed count
from given reed
14th
Introduction to various parts of
picking Mechanism
15th
picking Mechanism and their
adjustment
16th
Mechanism of over pick motions.
With merits and demerits
5th
17th
Mechanism of under pick motions.
With merits and demerits
5th
Practice of Drafting & denting
Gaiting-up of the beam
18th
Varying the intensity of picking
with relation to velocity of shuttle
19th
Causes of shuttle flying out
and trapping and remedies
thereof
20th
Timing of picking motion Early and
late picking Faults occurring in both
types of picking and their remedies
6th
21th
Sessional 1
6th
Practice of adjustment and
timing of tappets. Dismantling;
adjustment and timing of over-
pick motion
22th
Mechanism of beating up motion
23rd
Eccentricity of slay methods of finding eccentricity of slay
24th
Various types of take up motions
7th
25th
Study of 5 wheel take up motion
7th
Dismantling; adjustment and timing of under- pick motion. Practice of increasing and decreasing picking force
26th
Study of 7 wheel take up motion
27th
Study of Continuous take up
motion
28th
Concept of standard wheel, change
wheel and ratchet wheel and dividend of a take up motion
8th
29th
Calculations in take up motion
for inserting specific number of picks/unit space
8th
Dismantling and resetting the beating up mechanism
30
th
Various types of let off motions
31th
Study of various parts of negative let
off motion
32th
Study the working of negative let off
motion
9th
33rd
Study of various parts of positive let
off motion
9th
Dismantling and resetting of 5 or 7 wheel take up motion
34
th
Study working of positive let off
motion
35th
Comparison of negative let off and positive let off motion
36th
Comparison of negative let off and positive let off motion
10th
37
th
Various types of weft fork motion.
10th
Sketching various parts of let off motion on the loom. 38
th Study of side weft fork motion
39th
Study of Centre weft fork motion
40th
Brake motion
11th
41th
Sessional 2
11th
Practically setting-up of side
fork motion
42th
Shuttle speed checking motion
43th
Study of loose reed motion
44th
Study of Fast reed motion
12th
45th
Temples- Their types and their use
in relation to different fabrics
12th
Practically set the checking device on the Machine.
Practically setting-up the
loose reed motion
46th
Temples- Their types and their use
in relation to different fabrics
47th
Temples- Their types and their use
in relation to different fabrics
48th
Various types of materials used for
picking stick
13th
49th
Various types of materials used for
slay
13th
Check the setting of fast reed by opening and resetting 50
th
Various types of materials used for
Shuttle
51th
Various types of materials used for
Shuttle
52th
Timing of different motion of loom
14th
53th
Timing of different motion of loom.
14th
Fitting the temples on machine and resetting its parts
54
th
Calculations relating to speed of
loom
55th
Sessional 3
56th
Calculations relating to speed of
loom
15th
57th
Production of loom in terms of
weight of cloth produced
15th
Calculations regarding the weight of warp and weft
58th
Production of loom in terms of
weight of cloth produced
59th
Production of loom in terms of
length of cloth produced/shift and
efficiency of the Loom
60th
Production of loom in terms of
length of cloth produced/shift and
efficiency of the Loom
Lesson Plan
Name of Faculty : Rakesh Jindal
Discipline: Textile Technology
Semester: 5th
Subject: WEAVING TECHNOLOGY-III
Lesson Plan Duration: 15 weeks (From JULY 2018 – NOV 2018)
Work Load (Lecture / Practical) per week (in hours): Th= 4 per week / pr =1
Wee
k
Theory Practical
Lecture
day
Topic
(including assignment / test) Practic
al day Topic
1st
1st Introduction to Automatic loom
1st
Preparation of weaving beam
from either hank or cone to
loom
2nd
various types of shuttleless weaving machines
3rd
various types of shuttleless
weaving machines
4th
Comparative study of the various types of shuttleless machines along with power loom (06 hr
2nd
5th
Introduction to Automatic loom
2nd
Finding faults occurring due to Malfunctioning of 5 wheel take up motion
6th
Introduction to Automatic loom
7th
Working of different motions/
mechanisms to be studied with
neat sketches
8th
Working of different motions/
mechanisms to be studied with
neat sketches
3rd
9th
Introduction to automatic cop
changing and its limitations
3rd
Sketching different parts of
automatic loom
10th
Introduction to automatic cop
changing and its limitations
11th
Mechanical warp stop motion
12th
Mechanical warp stop motion
4th
13th
Mechanical warp stop motion
4th
Finding faults occurring due to Malfunctioning of 7 wheel take up motion
14th
Mechanical warp stop motion
15th
Electric warp stop motion
16th
Electric warp stop motion
5th
17th
Electric warp stop motion
5th
Practice and Fitting of cop changing mechanism after dismantling
18th
Electric warp stop motion
19th
Types of shuttleless looms
20th
Comparison of power loom and
shuttleless weaving and among
different shuttleless loom
6th
21th
Sessional 1
6th
Practice on automatic loom 22
th
- Rapier weft insertion
23rd
- Gripper weft insertion
24th
- Pneumatic weft insertion (Air
jet)
7th
25th
- Hydraulic weft insertion
(Water jet)
7th
.
Sketching different parts of
mechanical warp stop motion 26th
Tuck in selvedges. Selvedge
forming mechanism of rapier and
gripper type looms
27th
Tuck in selvedges. Selvedge
forming mechanism of rapier and
gripper type looms
28th
Tuck in selvedges. Selvedge
forming mechanism of rapier and
gripper type looms
8th
29th
Weft accumulators or weft
measuring motion
8th
Practice on the shuttle less
loom
30th
Weft accumulators or weft
measuring motion
31th
Electronic Warp Stop Motion
32th
Electronic Warp Stop Motion
9th
33rd
Electronic Warp Stop Motion
9th
Practice on the shuttle less
loom
34th
Leno selvedges
35th
Leno selvedges
36th
Introduction to Non Woven
Fabrics
10th
37th
Introduction to Non Woven
Fabrics
10th
Study of different parts of the Shuttle-less loom
38th
Non Woven plain needle punch,
Fabrics
39th
Introduction to Technical Textiles
40th
classification of Technical Textiles
11th
41th
Sessional 2
11th
Practice on gripper loom
through mill visit
42th
Uses of Technical Textiles
43th classification and uses of
Technical Textiles
44th
Terry pile weaving
12th
45th
Terry pile weaving
12th
- Practice on tuck-in
selvedge forming mechanism
46th
features of Terry weaving
47th
features of Terry weaving
48th
Introduction to Fabric defects
13th
49th
Fabric defects due to raw material,
mechanism and other miscellaneous
reasons, their causes and remedies 13
th
- Mill visit for the tuck-in selvedge forming
50th
Fabric defects due to raw material,
mechanism and other miscellaneous
reasons
mechanism -
51
th Fabric defects causes and remedies
52th
Calculations relating to production
of loom
14th
53th
Calculations relating to production
of loom
14th
Practice on leno selvedge
mechanism
54
th
Calculations relating to efficiency
of loom
55th
Sessional 3
56th
Calculations relating efficiency of
loom
15th
57th
Factors effecting the production
and efficiency in the weaving
15th
Dismantling and proper fitting of positive let-off motion
58th
Factors effecting the production
and efficiency in the weaving
59th
Process Control parameter in
weaving
60th
Process Control parameter in
weaving
Lesson Plan
Name of Faculty : Tejendar Singh
Discipline: Textile Technology
Semester: 3rd
Subject: SPINNING TECHNOLOGY-I
Lesson Plan Duration: 15 weeks (From JULY 2018 – NOV 2018)
Work Load (Lecture / Practical) per week (in hours): Th= 4 per week / pr =1
Week
Theory Practical
Lecture
day
Topic
(including assignment / test)
Practica
l day Topic
1st
1st Objects of ginning, ginning
percentage,
1st
To sketch and study the working
of different parts of Single
Macarthy Gin and to operate it
2nd
description and working of Double
Knife
Roller Gin,
3rd Double Macarthy Gin and Saw
Gin
4th
Importance of mixing and blending,
mixing
and blending techniques in Blow
Room,
2nd
5th
description and working of Auto
Mixer and
Multi Mixer
2nd
Demonstration of Mixing and
Blending
techniques during with visit/Mill
training
Practically sketch and describe
the
passage of material through
condenser.
6th
Principle of opening and cleaning,
opening
by the action of nails, beaters and air
currents.
7th Description and working of Condenser
8th
Study of following opening and
cleaning
machines: Blending Bale Opener,
3rd
9th Automatic
Bale Plucker, Feeder
3rd
Practically sketch and describe
the passage of material through
condenser. Practically sketch and
describe the
passage of material through
Blending
Bale Opener, Hopper Feeder, Step
Cleaner, Feed Unit, Porcupine
Opener
10th
Feeder; Super Jet Cleaner,
Mono Cylinder Cleaner, ERM Cleaner,
CVT-3 cleaner.
11th
Objects of evener motion and its
importance, construction and working
of Piano Type Feed
Regulating Motion, of Cone Drums
12th
Objects, construction and working of
Two
Bladed Beater and Krischner Beater
4th
13th
Objects of calendaring in Scutcher and
passage of cotton sheet through them 4
th
Study of feed regulating motion.
and cone Drums
- To sketch and understand the
working 14th
Lap rejection and lap variation: their
causes
and remedies
- Defects in laps and their removal
of Krischner Beater.
- Practice of setting & guages of
the
openers & beaters in the Blow
Room
Line
- Study of exhaust system and
Cages in
Scutcher
15th
Cleaning efficiency of Blow Room line
and waste percentage
- Work load distribution in Blow Room
Automatic lap doffing and its
Advantages
16th
Necessity & working of Chute Feed
System
at Blow Room.
5th
17th
Main features and
advantages of Modern Blow Room
Line
5th
- Practice of drawing of gearing to
understand drive to various parts.
- Study of Lap Forming Unit.
- Calculate draft/Production of
Blow
Room & Maintenance schedule of
Blow Room
- Workload distribution at Blow
Room
& card machine.
- Practical study of Automatic Lap
doffing mechanism
18th
Main features and
advantages of Modern Blow Room
Line
19th
conversion from one to other
system and calculation of
equivalent count.
20th
Gearing diagram of Scutcher and
Calculation
of lap hank, lap weight
6th
21th
Sessional 1
6th
Practically study of the Chute Feed
System during mill visit/mill
training. Gearing diagram of
Scutcher and
Calculation of lap hank, lap weight,
lap
length and Scutcher production per
shift
22th
lap length and
Scutcher production per shift
23rd
Calculation of clearing efficiency of
blow
room line
24th
Calculation of calendar roll and shell roll
speeds and tension draft between
calendar
roll and shell roll
7th
25th
Mixing and blending cost calculations
7th
Calculation of production constant
of blow room Scutcher.
Calculation of calendar roll and
shell roll
speeds and tension draft between
calendar roll and shell roll
26th
Maintenance schedule of Blow Room
line
27th
Objects of carding, Passage of material
through Revolving Flat Card and
functions of
various parts i.e.
28th
licker-in, mote knives, back
plate, front plate, cylinder, flats, doffer
and
Under casing
8th
29th
Difference between carding action and
stripping action
8th
Study of various electronics
parts/motion
in Blow Room
30th
Flexible and metallic card clothing,
31th
Advantages of metallic card clothing.
32th
Objects of stripping, procedure for
Plain
9th
33rd
Roller stripping and Vacuum stripping
9th
Demonstrate the passage of
material
through the machine and to
introduce
with different parts of Revolving
Flat
Card
34th
Objects of grinding and Types of
Grinding
35th
Web doffing by doffer comb, India Roll
System
36th
Web doffing Cross Roll Verga System
10th
37th
General settings and gauges for Semi
High Speed Card 10
th
Stripping of cylinder and doffer of
Card.Grinding of Card with dead
roll grinder
and Traverse Roller Grinder 38
th General settings and gauges for High
Speed Card
39th
Objects principle of Auto
Levellers at card
40th
working of Auto Levellers at card
11th
41th Sessional 2
11th
Piecing of web and sliver on Card.
To Practice the setting and gauging
between different parts of Card
Machine
42th
Card wastes e.g. motes, fly
43th Card wastes e.g. strips and sweeps
44th
Salient features of High Production
Card.
12th
45th
Defects in card web and their removal
12th
Calculate drafts between various
parts,
total draft, draft constant, tension
draft
and tension draft constant
46th
Defects in card web and their removal
47th
Calculation of waste percentage of a
card.
48th
Cleaning efficiency of Card.
13th
49th
Calculation of draft, draft constant
13th
Calculate production and
production
constant of Card 50th
Tension draft and tension draft
constant
51th
Calculation of production and
production
Constant
52th
Calculation of production and
production
Constant
14th
53th
Calculation of time taken to exhaust a
lap
14th
Calculate the time taken to exhaust
a lap
on Card 54
th
Calculation of time taken to exhaust a
lap
55th
Sessional 3
56th
Maintenance Schedule of Carding
Machine
15th
57th
Process control Parameter in mixing,
15th
Study of various electronic
Parts/Motion in carding 58
th
Process control Parameter in Blow
Room
59th
Process control Parameter in Carding
60th
Process control Parameter in (yarn
realization, trash
Content etc)
Lesson Plan
Name of Faculty : Tejander Singh
Discipline: Textile Technology
Semester: 5th
Subject: SPINNING TECHNOLOGY-III
Lesson Plan Duration: 15 weeks (From JULY 2018 – NOV 2018)
Work Load (Lecture / Practical) Per week (in hours): Th= 4 per week / pr =1
Wee
k
Theory Practical
Lecture
day
Topic
(including assignment / test)
Practical
day Topic
1st
1st Introduction and objectives of a Ring
Frame
1st
Practice of passage of material
through Ring
Frame. Practice of drafting roller
settings. Mill visit
be arranged to see top arm
weighing system
2nd
nomenclature of various parts
of a Ring Frame, passage of material
through it
3rd Drafting, function of the drafting
system
4th
study of top arm drafting
system, apron drafting, advantages of
apron drafting.
2nd
5th Introduction to rings, sizes and
different types of rings, ring
travellers, its functions
2nd
Practice on ring and ring traveller,
spindle
gauge/setting. Selection of ring
travellers for
different Counts
6th types of ring
travellers, their sizes. Numbering of
ring travelers
7th
Insertion on of twist into the yarn, S
and Z twists,
8th
effect of twist on yarn,
selection of TM for various counts,
ring and travellers speeds
3rd
9th Building motion mechanism,
insertion of coil on bobbin.
3rd
Practice of inserting S and Z twist
in the yarn
and draw sketches.
10
th
Yarn ballooning, yarn ballooning
control
rings, separators, lappets
11th
Reasons for end breaks and their
remedies on Ring Frame
12th
Principle of Auto doffing at Ring
Frame
4th
13th
Principle of variable pulley speed at
Ring Frame
4th
Practice of drawing and setting of
building
motion of ring frame.
14th
Workload distribution at Ring Frame
15th
Gearing diagram of Ring Frame
16th
Gearing diagram of Ring Frame
5th
17th
Gearing diagram of Ring Frame
5th
Practice of drawing gearing
diagram of Ring
Frame. Calculation of spindle
speed and Front Roller
speed of Ring Frame and
calculation of
production of machine per shift.
18th
Calculation of spindle speed, front
roll speed,
19th
production per shift per
machine
20th
Calculation of total draft,
6th
21th
Sessional 1
6th
Calculation of total draft, break
draft and
individual zone draft.
22th
Calculation of break draft
and individual zone draft.
23
rd
Calculation of twist per inch.
24th
Calculation of twist multiplier.
7th
25th
Calculation of production constant,
draft constant
7th
Calculation of TPI and Twist
Multiplier ™
26th
break draft constant
and twist constant.
27th
Calculation of traveler speed
28th
Calculation of yarn content on bobbin
8th
29th
Objects of Ring Doubling, Doubling,
and its effects
8th
Calculation of production
constant, draft
constant, break draft constant
and twist
constant.
30th
Objects of dry and wet systems
of doubling
31th
Twist insertion in ply yarn, types and
amount of twist.
32th
Factors effecting the
multiplier for double yarn
9th
33rd
Yarn defects and their causes and
remedial measures in doubling
machine (Expert Lecture)
9th
Calculation of traveler speed.
Calculation of yarn content on
bobbin 34th
Yarn defects and their causes and
remedial measures in doubling
machine (Expert Lecture)
35th
Improvement in quality and
productivity performance of a
doubling machine (Expert Lecture
36th
Improvement in quality and
productivity performance of a
doubling machine (Expert Lecture
10th
37th
Working principle of TFO
10th
Practice of passage of yarn
through Ring
Doubling Machine. Different
parts and their
working.
38th
39th
Gearing diagram showing various
drives of a Ring Doubling Machine
40th
Gearing diagram showing various
drives of a Ring Doubling Machine
11th
41th Sessional 2
11th
Practice to find the direction of
twist in ply
yarn.
42th
Calculation of production per
machine,
43th Calculation of production constant
44th
Calculation of spindle speed,
12th
45th
Calculation of delivery
Roll speed
12th
Demonstration of working of TFO
during mill
visit / training
46th
Calculation of twist per inch/twist
Multiplier
47th
Calculation of twist constant of the
Machine
48th
Calculation of different types of
yarn’s diameter
13th
49th
Calculation of different types of
yarn’s diameter
13th
Practice of drawing gearing
diagram on Ring
Doubling Machine
50th
Calculation of balancing of machines
in different sections for a particular
spin plan requirement
51th
Calculation of balancing of machines
in different sections for a particular
spin plan requirement
52th
Sequence of machinery used in the
production of Woolen System
14th
53th
Sequence of machinery used in the
production of Worsted system
14th
Calculation of production per
machine and
production constant.Calculation
of spindle speed, delivery roll
speed
54th
Difference between Woolen &
Worsted yarn
55th
Sessional 3
56th
Difference between Woolen &
Worsted yarn
15th
57th
Various maintenance schedules
adopted in a frame
15th
Calculation of twist per inch/twist
Multiplier and twist constant of
the
Machine 58th
59th
Process control Parameter with
reference to productivity
60th
Process control Parameter with
reference to yarn quality