Linear Motion Bearing
- Angular Contact Ball Bearings
- Precision Bearings
- Roller Bearings
  -  Cylindrical Roller Bearings
  -  Tapered Roller Bearings
  -  Spherical Roller Bearings
  -  Thrust Roller Bearings
  -  Needle Roller Bearings
Ball Screw
- Ball Screw And Nut Assembly
  -  Precision Ball Screw
  -  Miniature Ball Screw
- Ball Nut
  -  Single Nut with Flange
  -  Single Nut with M-thread
  -  Sleeve type Single Nut
  -  Square type single Nut
- Bearing Support
  -  BK-Ball Screw Fixed End Support
  -  BF-Ball Screw Fixed End Support
  -  FK-Ball Screw Fixed End Support
  -  FF-Ball Screw Fixed End Support
Lead Screw
- Lead Screw And Nut Assembly
  -  Trapezoidal Thread (DIN103)
  -  ACME Thread ANSI/ASME B1.5
  -  Metric Thread (DIN13)
- Lead Screw Nut
  -  Backlash Nut
  -  Anti Backlash Nut
Linear Module
- KKR Single Axis Robot
- GTHA Linear Module
Linear Guideways

Service

Service: Utilize a ball screw to actuate their application

When engineers come to SCREWTECH looking to utilize a ball screw to actuate their application, we get them thinking about four main data points: payload, speed, duty cycle and stroke.

Payload and speed

The first step is determining the quantified axial payload. This figure helps determine how much force is required to drive the application.

Second, taking the application's speed into account. We usually ask engineers a certain set of questions to help determine what the goal is for their application. It could be as simple as how many seconds do you want to complete this stroke in? Or, how quickly does it need to get from point A to point B?

The RPM (feed rate / lead of desired screw) is important but is typically determined after you have figured out the application’s linear feed rate, also known as the linear distance traveled per minute. Once you have that figure, you can determine the RPM of the application by taking a look at your desired lead screw and noting the distance traveled per revolution.

Duty cycle and stroke

When working with a polymer lead screw nut, one of the more important factors that's going to determine the lifetime of the part is the application’s duty cycle. How often is it going to be running per minute, per hour, per day?

This is extremely important for a polymer part because if the application has a higher load and a higher speed, the wear is going to be higher for the part. So, to properly spec a lead screw size, you need to take duty cycles into account to make sure that the PV values are in check.

Also, make sure you ask yourself how long is the application stroke and how long does the overall screw need to be?

Additional considerations

Payload, speed, duty cycle and stroke are four extremely important data points; but that's not all that should be considered.

Ask yourself whether or not you need a lead screw that's going to be self-locking or if you want a part that is able to back drive. You should be thinking about the types of linear guides that you're using for an application. Are you going to be using a sliding guide? Or, are you going to be using a rolling guide, like a reciprocating ball bearing? Those types of questions are going to help determine whether or not you can use a smaller or a larger lead screw in your application.

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