Tuesday, July 23, 2013

What is Pitch Time, Pitch Diagram and how to make a Pitch Diagram?

Pitch time: In industrial Engineering, Pitch time is a ratio of total SAM of garment and number of operations to be set for the style. Or

Pitch Time = Garment SAM/No. of operations.

Pitch time is used for line setting and calculating production target for the line.

Pitch diagram:

A graphical presentation of individual operation’s time (SAM) and pitch time on a same chart is called pitch diagram. For example see the following chart (Fig.1). At this chart on X-axis operations name and on Y-axis time value is depicted. The blue line is showing individual operation SAM and red line is showing pitch time.
Fig.1: Pitch Diagram (SAM Vs Pitch Time)

Usage of Pitch Diagram:

Pitch time is to calculating machine requirement in each operation.
Pitch diagram is used for line balancing in an assembly line. Pitch diagram is made on operator’s production capacity per hour and target quantity per hour in pieces for easy understanding.


How to make a Pitch Diagram

To make a pitch diagram on operator’s capacity Vs line target collect information as following. First conduct a capacity study for all operators and find out how many pieces operators are making at each operation. Where more than one operator is doing same operation, sum up their capacity for that particular operation. With the capacity study data make one table on spreadsheet as following table-1. 

For example, the line is making ladies blouse. Operations are listed in column B as per operation sequence (all operations are not taken). In column C number of pieces is listed according to the operations that can be produced by the operators. Add one more column ‘D’ and write target quantity (in the example -27) against each operation.

Suppose that hourly production target is 27 pieces for the line. So to meet the target at the end of the line you should get minimum 27 pieces per hour from each operation and for the preparatory operations capacity should be more than 27 pieces. Now draw a line chart with capacity and line target (Fig. 2). This chart is also called as “Pitch Diagram”. The blue line is showing actual capacity at each operation and Red line is presenting the target quantity.

In the chart, the blue line moves up and down. Where blue line is below the target line, you will get pieces which are less than target quantity. These operations are the potential bottleneck for the line. On the other way, where blue is top of the target line, it means operators have potential to produce more pieces on those operations if they are provided work. From the Pitch diagram, it is easy to understand which operations are bottleneck and where operator’s full capacity is not being utilized.

Table-1: Data shown in the following table and chart are assumed only for example. Follow above steps and make your own “Pitch diagram” with real data of a line. 
A
B
C
D
Sl. No.
Operations
Capacity/Hour
(Pieces)
Target/hr
(Pieces)
1
Collar run stitch
35
27
2
Back dart making
27
27
3
Sleeve slit binder
29
27
4
Front placket attach
21
27
5
Front placket finish
20
27
6
Front dart making
33
27
7
Shoulder Join O/L
30
27
8
Shoulder edge stitch
40
27
9
Sleeve attach O/L
50
27
10
Side attach
20
27
11
Cuff attach
17
27
12
Cuff  finish & Tacking
16
27
13
Collar  attach
24
27
14
Collar finish
24
27
15
Bottom Hem
27
27

Thursday, July 18, 2013

How to calculate or check machine SPI ( Stitches Per Inches)

The abbreviation of SPI is Stitches per inch. In the Metric System it is expressed as Stitch per centimeter (SPC). It is very easy to measure SPI of the machine or seam. To measure it, take a fabric swatch of 12 inch X 2 inch. Sew the fabric length wise in a single burst with current SPI setting. Initially use contrast thread for bobbin and needle thread. Take out the stitched fabric and lay on a flat table. Remove all creases if present on the seam line by hand. Now, take one measuring tape, place it on the stitch line on the above fabric sample and mark line 2 inches apart. See the following figure.
Now count number of total stitches in between those two lines. Divide total number of stitches by 2. The result is the SPI of that machine or seam. For SPC measurement is taken in centimeters. If your SPI requirement is less or more than the current machine SPI then rotate SPI regulator accordingly (for basic machines). After setting check SPI again in the similar method. When you get correct SPI on the sample then go ahead for production.

Example: In the above figure, the total count of the stitches is 20 (in 2 inch gap). So SPI will be 10. 

Wednesday, July 17, 2013

What is line Planning

In this article, line means sewing production line or production batch. Each line contains a set of machines to make garments for mass production and set of machines vary depending on product category.


Line planning is scheduling and allocating of orders to production lines according to product setting (product is being made in the line) and due dates of production completion. A line plan defines when a style is going to be loaded to the line, how many pieces to be expected (target) from the line and when order to be completed. For example, please refer to the following Table-1, where a simple line planning has been shown in spread sheet.

Benefit of Line planning: It helps production manager as well as line supervisor with information such as what is the daily production target for line. They set their line (machines and manpower) accordingly. Line plan also provides information such as how many days style would run, what is the next style going to be loaded?

Table-1: Line Plan


Line 1
Line 2
Total
Date
Daily Prod.
Cumm Prod.
Daily Prod.
Cumm Prod.
Daily Prod.
1-Dec
loading #2341A,
Qty -3000 pieces
300
1200
300
2-Dec
200
200
300
1500
500
3-Dec
250
450
300
1800
550
4-Dec
400
850
200
2000
600
5-Dec
400
1250
loading #Polo ,
Qty -1500 pieces
400
6-Dec
400
1650
0
0
400
7-Dec
400
2050
100
100
500
8-Dec
400
2450
300
400
700
9-Dec
400
2850
350
750
750
10-Dec
150
3000
350
1100
500
11-Dec
loading #432K,
Qty -5500 pieces
400
1500
400
12-Dec
100
100
loading #YK45,
Qty -4500 pieces
100
13-Dec
250
350
200
200
450
14-Dec
500
850
250
450
750
15-Dec
500
1350
400
850
900
16-Dec
500
1850
400
1250
900
17-Dec
500
2350
400
1650
900
18-Dec
500
2850
400
2050
900
19-Dec
500
3350
400
2450
900
20-Dec
500
3850
400
2850
900
21-Dec
500
4350
400
3250
900
22-Dec
500
4850
400
3650
900
23-Dec
150
5000
400
4050
550
Daily Prod. – Daily production or line output
Cumm Prod. – Cumulative production of the style till date