Creating Shop Orders Manually—Key Exercises
| IMPORTANT |
| It is extremely important
that you set up and work within your own site to maintain your
data integrity. If you work within any other site, you will
compromise your own exercise data as well as the data of other
students. Predictable exercise results require that your data
be isolated in your own site. |
Basic Data Setup
Discrete Manufacturing Overview Racing Engine
Purpose: The purpose of this exercise is to create the
required data that will be used in the Discrete Manufacturing exercises. This
sets up data for your site and needs to be done only once for the Discrete
Manufacturing courses exercises.
- Set up your site for discrete manufacturing of racing engines.
General
exercise for Overview of Discrete Manufacturing Data
Inventory Location
Purpose: The purpose of this exercise is to set up an
inventory picking location for running functionality isolated by site.
Windows:
Inventory Locations
- If you have not done so already, create the inventory picking location
shown in the table
below.
| Site |
Location No |
Warehouse |
Location Name |
Location Group |
| Your Site |
2C |
Sub |
Subassembly inv |
30 |
General exercise for
Entering Inventory Locations
Required Data
System Parameters
Purpose: The purpose of this exercise is to ensure that
the system parameters are set correctly for the main exercises below.
Windows:
Parameters for Distribution and Manufacturing
- Open the Parameters
for Distribution and Manufacturing window.
- Verify that the value for the Create SO in status Planned field is Yes.
General
information for System
Parameters
Inventory Part Balance
Purpose: The purpose of this exercise is to ensure that
the right quantities are available for manufacturing before you start the main
exercises below.
Windows:
Inventory Part Currently On Hand
Receive Inventory Part
Issue Inventory Part
- Open the Inventory Part Currently On Hand window.
- Verify that you have the correct quantity available for the part in
the table below. If you do not have enough parts, receive the appropriate
number of parts into the inventory picking locations so that the available quantity
meets what is specified on the table. If you have more parts than specified
on the table, issue the appropriate number of parts from inventory picking
locations so that the available quantity falls within the range indicated on
the table.
| Site |
Part Number |
Part Description |
Quantity Available for Manufacturing |
| Your Site |
21-410 |
Piston Assembly |
at least 9 but no more than 15 |
General exercise for
Receiving Inventory Part
General exercise for
Issuing
Inventory Part
Main Exercises
Purpose: The purpose of these exercises is to create a shop
order, see the resulting load on work centers, and see the resulting shop order
material when blow-through and phantom parts are in the product structure.
Windows:
Load per Work Center
Shop Order
Shop Order/Detail
Shop Order/Material
Shop Order/Operation
You need to create shop orders for two engine assemblies. You know that there
are just enough piston assemblies available to build one engine assembly and you
want to use the existing piston assemblies. Therefore you decide to create two
shop orders, each with a lot size of one. You also want to see the load and the work centers before and after the shop orders are created.
You decide to create this shop order to use the eight piston assemblies that are available in inventory.
- Open the Load per Work Center window and query for
your site. For the work
centers in the table below, look at the work center load for the next two weeks.
In the table below, record enough information to allow you to later recognize changes
in work center load.
| Work Center |
Description |
Work Center Load Information to Remember |
Work Center Load Changes |
| 100 |
Picking |
|
|
| 240 |
Grinding / Sanding |
|
|
| 300 |
General Assembly |
|
|
| 810 |
Test |
|
|
- Open the Labor Load per Labor class window and
query for your site. For labor class in the table below, look at the labor
class load for the next two weeks. In the table below, record enough
information to allow you to later recognize changes in labor class load.
- Open the Shop Order window and create a new record.
- If the value for the Site field is not your site, change it to your
site.
- In the Part No. field, enter 21-210 as the part to be manufactured.
- In the Lot Size field, enter 1 for the quantity to be manufactured.
- Save the information.
- Record the value that the system automatically generated for the Order No. field.
(This will make it easier for you to query your shop
order.)
Note: The Sched Direction field should have
defaulted to Backwards scheduling. The Earliest Start Date and Start
fields should have defaulted to the current date. The Need
Date, Start, and Finish fields are calculated based on the
manufacturing lead time for the engine assembly. The Need
Date field should contain the next working day after the date in the Finish
field.
- Click the
Material tab and verify
that each component part in the table below has a record.
Notice that the 21-314 part (Piston Kit), which is a blow-through part with a quantity per
assembly of 8, has been replaced by its component part 21-410 (Piston
Assembly) because there were at least 8 available in inventory.
| Component Part |
Description |
Qty Per Assembly |
Qty Required |
| 21-310 |
Block, Engine |
1 |
1 |
| 21-311 |
Head, Engine |
1 |
1 |
| 21-312 |
Crankshaft |
1 |
1 |
| 21-313 |
Oil Pan |
1 |
1 |
| 21-410 |
Piston Assembly |
8 |
8 |
- Click the
Operation tab and verify
that each operation in the table below has a record.
| Operation No |
Operation Description |
Work Center No |
Work Center Description |
Remaining Mfg Hours |
| 10 |
Pick Parts |
100 |
Picking |
0.5 |
| 20 |
Prep Block |
240 |
Grinding / Sanding |
0.5 |
| 30 |
Prep Heads |
240 |
Grinding / Sanding |
0.5 |
| 40 |
Prep Crankshaft |
240 |
Grinding / Sanding |
0.2 |
| 50 |
Assemble Engine |
300 |
General Assembly |
0.3 |
| 60 |
Test Engine |
810 |
Test |
0.4 |
- Refresh the Query - Load per Work Center window and re-check each work center's load for the next two weeks.
Find the changes.
- Refresh the Labor Load per Labor class window and re-check
each Labor class load for the next two weeks. Find the changes.
- Right-click anywhere in the
Shop Order window header, and then click Release.
- When the Release Shop Order dialog box appears, click OK.
- Verify that the state in the window header has changed to Released.
- Refresh the Query - Load per Work Center window and re-check each work center's load for the next two weeks. Find the changes.
- Right-click anywhere in the
Shop Order window header, point
to Material Actions, and then click Reserve.
- When the Reserve Shop Order dialog box appears, click OK
without entering anything in the Reserve to Date field.
- Click the
Material tab and verify
that
the value for the Qty Assigned field for the component part 21-410 row
is 8. Depending on the available inventory, the other rows may have material
assigned as well.
Note: The Discrete Manufacturing course will not use
this shop order after this exercise, so you may further process this shop order if
required.
You create this shop order knowing there are not enough piston assemblies available in inventory.
- Open the Inventory Part Currently On Hand window and query for
your site and the 21-410 part. Verify that there are less than eight piston
assemblies available.
- Open the
Shop Order window and create a new record.
- If the value for the Site field is not your site, change it to your
site.
- In the Part No. field, enter 21-210 as the part to be manufactured.
- In the Lot Size field, enter 1 for the quantity to be manufactured.
- Save the information.
- Click the
Material tab and verify
that each component part in the table below has a record.
Notice that the 21-314 part (Piston Kit), which is a blow-through part with a quantity per
assembly of 8, has not been replaced by its component part 21-410 (Piston
Assembly) because there were fewer than 8 available in inventory. Instead the
components of 21-410 have been used with the quantity per assembly of
each component of 21-410 multiplied by the quantity per assembly of part
21-410. Also notice that the 21-900 expense part has a quantity per assembly of
0.
| Component Part |
Description |
Qty Per Assembly |
Qty Required |
| 21-310 |
Block, Engine |
1 |
1 |
| 21-311 |
Head, Engine |
1 |
1 |
| 21-312 |
Crankshaft |
1 |
1 |
| 21-313 |
Oil Pan |
1 |
1 |
| 21-510 |
Piston, Engine |
8 |
8 |
| 21-511 |
Piston Ring |
40 |
40 |
| 21-512 |
Connecting Rod |
8 |
8 |
| 21-513 |
Rod Bearing |
16 |
16 |
| 21-900 |
Lubricant |
0 |
0 |
- Click the
Operation tab and verify
that each operation in the table below has a record.
| Operation No |
Operation Description |
Work Center No |
Work Center Description |
Remaining Mfg Hours |
| 10 |
Pick Parts |
100 |
Picking |
0.5 |
| 20 |
Prep Block |
240 |
Grinding / Sanding |
0.5 |
| 30 |
Prep Heads |
240 |
Grinding / Sanding |
0.5 |
| 40 |
Prep Crankshaft |
240 |
Grinding / Sanding |
0.2 |
| 50 |
Assemble Engine |
300 |
General Assembly |
0.3 |
| 60 |
Test Engine |
810 |
Test |
0.4 |
- Refresh the Load per Work Center window and and
again look
at each work center's load for the next two weeks. Find the changes.
Note: The Discrete Manufacturing course will not use
this shop order after this exercise, so you may further process this shop order if
required.