blog

How it Works – Machining Families of Parts

You can increase production and reduce costs by exploiting what different jobs have in common.

The most obvious kind of part family is made up of items that share a name and geometry – 8-32 pan-head screws in different lengths, or a series of standoffs that come in different lengths, perhaps with different features (through hole or internal thread).

From a machining perspective, however, other characteristics can also define a family. Consider parts that you can

  • hold in the same fixture.
  • run with variations on the same program.
  • make using the same type of operations.
  • cut with the same set of tools.

Sometimes it’s hard to see these commonalities, but once you do, you can use them to boost production by reducing setup and changeover time, minimize programming effort, or improve other aspects of your process.

Tooling

Parts made by the same processes and tooling might not look the same, but the operations performed will determine a family. You won’t be changing out tooling between parts. The tooling is a family, A family of parts made with a particular grouping of production tools [will have] virtually no downtime between parts.

You can expand this type of family by making the most of the limited space in the tool magazine – try to optimize the selection of tools to cut the greatest number of parts. Can you use one drill instead of three in different lengths?

Workholding

Usually people know when they a have family of parts, but don’t necessarily know how to make the most of it. Workholding is generally the least-noticed aspect of machining part families. However, the benefits of a family approach to workholding can be considerable. If you are using the same set of jaws, the offsets are the same, saving time on every part you load.

For example you could use stepped jaws. The top, wider step could hold larger parts, the lower step or steps could hold smaller parts. For milling round parts, you can use V-shaped jaws to hold a large range of diameters.

Your suppliers can help sort out how best to approach your workholding. Typically [customers] share with us a sampling of part prints. We take those parts and separate them out into families using similar workholding.

blog

Programming

As you add parts to a family, you may be able use portions of previously written programs. Suppose you are already making a part with a particular feature on it, and the customer asks you to make another part with the same feature – in a different size or location. You can copy the relevant section of the program and use it again, with appropriate adaptation.

More advanced software features help you to do more. If you repeatedly program a certain feature or process, you can write a macro, which will automatically run the desired series of commands. Plug-ins, often written by consultants, can take this approach to another level.

All in the family

Setup and fixating on a CNC machine is time consuming. A family can have one fixture to handle all parts. Changing tools in the magazine takes time, but with a family of parts, it will be possible not to retool the machine.

Any opportunity to group, streamline, consolidate, rationalize, or optimize programming, tooling, workholding or other aspects of production can benefit your whole operation.

The fact you have a family of parts is not important. What you do with the family – how you use the family’s characteristics to help you increase production and reduce costs – that is the advantage you can gain from recognizing what parts have in common.

blog

Lathe Machined Parts – Higher Quality with Lower Prices

Lathe Machined Parts – Higher Quality with Lower Prices

blog

CNC Lathe machining is a great way to make lots of precise parts cost-effectively.

blog

Every machining process must be programmed into the CNC controls and tooling. ome parts have special threads and features that may be inspected by precision gauges and instruments.You will be surprised to see each part we produce with pleasant price.

blog