Many automation environments rely on motion-driven applications. These often have to convert one type of motion, such as rotary, into another type of motion, such as linear. This is where screws come in. They can be either ball screws or lead screws, but both comprise a cylindrical metal shaft coupled with a screw, to form a mechanical linear actuator.
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The screw shaft is a rod with either single or multiple grooves carved in it, which spiral around it in a helix pattern. This forms the external thread. The thread is the means by which the rotational motion is converted into linear motion. This happens when the nut slides along the screw shaft. To do this, a lead screw nut mates its internal thread with the screw shafts external thread. A ball screw employs recirculating ball bearings to perform the same function.
A lead screw is a threaded nut with a cylindrical section. It can either be made from a metal, such as bronze or stainless steel, or a polymer composite. Either the screw shaft is driven to turn while the nut travels down its length, or the screw shaft remains static and the nut turns instead. Lead screws require you to mate the threads, so you need to determine whether nuts and screws have male or female threads. The threads are cut deeper and the two parts generally require lubrication to function effectively.
Both shaft and nut are directly engaged by means of the mated threads, and the helical design guides their movement. Both parts are continually sliding against each other over a fairly extensive contact area, which causes a lot of friction. This leads to greater energy losses, although lead screw thread design is changing to help address this problem.
Lead screws are typically used for lighter-duty or more compact applications. They can more easily be customised and are therefore good for OEM applications. The most common objection to lead screws is that they are slower, less accurate, and lack rigidity or precision.
A ball screw deals with the friction problem between the screw shaft and the nut by using ball bearings. Because the balls are continuously rolling inside the nut, the friction associated with sliding is vastly reduced. On a ball screw, the nut and the screw are carved with matching helical grooves that form ball races, in which the ball bearings recirculate. The rolling balls reduce the amount of direct mechanical contact taking place inside the screw assembly. Substituting rolling friction for sliding friction makes the power conversion infinitely more efficient.
A ball screw nut is comprised of a cylinder with the ball bearings inside it and the system by which they are recirculated. It also has internal ball grooves that match the screw shaft grooves. The balls are generally made of steel, and these form the contact points between the nut and the screw shaft. The number of these contact points can be determined by their groove profile. The most common designs are the circular arc profile and the gothic arc profile.
The circular arc profile has a semicircular shape that permits one contact point for the ball on the nut and one on the screw shaft. The gothic arc profile is more common, with two intersecting arcs permitting two contact points for the ball on the nut and two on the screw shaft.
Ball screws and lead screws are both types of mechanical actuator, and each type has its own advantages and disadvantages. On the face of it, lead screws are just cheaper. However, choosing the right type of screw to use in your application is a lot more complicated than that.
Lead screws are generally unsuitable for applications demanding high speed or throughput, or those with long or continuous cycle times. However, manufacturers are now producing precision lead screws that offer significant increases in accuracy. The newer generation of lead screws leverages material composition technologies and advanced thread-rolling processes. This results in lead screws that begin to match ball screws for precision and repeatability.
Whether you choose a ball screw assembly or lead screw assembly in your linear motion actuator depends on what you are using it for. What are the critical parameters of your application? Will it be influenced by factors such as operating temperature or speed?
One of the most important factors you need to determine is how precise and accurate it must be. If precision is crucial to your application, youll probably go for a precision-engineered lead screw or a ball screw.
On the whole, ball screws are preferred for applications that demand:
Traditional lead screws are usually chosen for simple transfer applications, where these factors arent so critical.
Before choosing between a ball screw or a lead screw for your application, you need to figure out each one's distinct characteristics and how they best match your specific needs. There will inevitably be some compromise, depending on your application. To start with, the assembly design and materials are always important, not just accuracy. Some other important variables might include efficiency, longevity, maintenance, noise and wobble error. In most cases, the choice of ball screw or lead screw will be determined by evaluating the accuracy, load, and lead required by your application.
Ball screws and lead screws form part of an effective linear motion transfer system and are part of our product range at Heason. In many applications, you could use either a ball screw or a lead screw, but the two devices have some differences and will therefore be better suited to particular applications.
Ball screws and lead screws form part of our precision screw range. They are used to transfer rotary motion into linear motion.
Ball screws and lead screws are threaded bars of metal with either a threaded nut (lead screws) or recirculating ball bearings (ball screws).
Very often, in an application, either a ball screw or a lead screw can be used. However, there are key differences between them.
The main difference is the way that they work. A ball screw design is far more complicated, it uses recirculating ball bearings which minimize friction during use. A lead screw uses either a metal or plastic nut to move along the threaded screw. The use of ball bearings minimises the friction within the screw which is often associated with lead screw use.
Because of their working mechanisms, another very big difference is the price. Because ball screws are a lot more complex they are more costly than the simpler lead screw.
Leadscrews can also be made to self-lock, an important feature for vertical applications, they also offer quieter operation.
Another difference between ball screws and lead screws is the application they are selected for.
Ball screws are generally better suited to more industrial applications, these usually require a higher load. The applications they are suited for generally require smooth motion, high efficiency, accuracy, precision and continuous or high-speed movement.
Lead screws are used in smaller or lighter duty applications and OEM applications. They are more easily customised and are well suited to transfer applications where speed, accuracy, precision, and rigidity are not as vital as they are for more industrial applications suited for ball screws.
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To see the differences, take a look at the below comparison chart:
Ball Screws
Lead Screws
Mechanism
Recirculating ball bearings
Threaded screw with plastic or metal nut
Industries and Applications
Large, industrial-scale applications
Smaller OEM applications
Price
Higher cost
Lower cost
Capacity
Higher load capacity
Lower load capacity
Design
Complex design
Simple design &#; easy to customise for applications
Operation
High efficiency, accuracy, precision.
Efficiency, accuracy, and precision are not as high.
All our ball screws and lead screws that we offer are from our supplier Thomson Linear. They are all well suited to linear motion applications.
Ball screws offer excellent reliability and reliable performance, our ball screws consistently perform the way they are expected to. The materials used are to the highest quality and are compatible with many applications ensuring a long life.
The Lead screws we can offer are available in various types. We provide assemblies with high axial stiffness, zero backlash and minimum drag torque to reduce motor requirements; this means that systems they are used within will cost less, perform better and last longer.
Browse the lead screws and ball screws on our website. If you would like more information or help with your application, please contact us.
Contact us to discuss your requirements of Lead Screw And Nut Assembly Supplier. Our experienced sales team can help you identify the options that best suit your needs.