What drives Linear Actuator costs up so much
We get this question a lot. People argue about the price of a linear actuator. Some actuators may be inexpensive, but you get what you pay for. Consider our classic linear actuator pictured above. Notice how many parts are required to make a quality actuator like this! Over 100 parts are necessary to build a linear motion control product of this caliber and this takes time and costs money. Sure we could cheap out and use a brass brushing instead of a bearing or forget the O-rings, but then you are stuck with an actuator that won’t last long. So to answer the question, “Why do linear actuators cost so much?” it is because they are a complex piece of electro-mechanical machinery with many moving parts and the quality of these parts and the material they are made from affect the cost.
There are several reasons why linear actuator costs can be relatively expensive:
- High precision and accuracy: Linear actuators need to be precise and accurate to ensure that they move exactly as intended. This requires high-quality materials and manufacturing processes, which can increase the cost of production.
- Complex design: Some Linear actuators can have complex design with many components, such as precision motors, gears, and bearings. Each of these components needs to be precisely manufactured and assembled to ensure that the actuator operates smoothly, which can also increase the cost.
- Specialized applications: Linear actuators are often used in specialized applications, such as robotics, medical devices, and aerospace equipment. These industries require high-quality sensors, and electronics equipment inside them, which can further drive up the cost.
- Limited production volumes for custom applications: Linear actuators are not produced in large quantities, as they are often used in specialized applications. This can limit economies of scale and increase the per-unit cost.
Overall, the cost of linear actuators is driven by a combination of factors related to their precision, complexity, specialized applications, and limited production volumes.
How Are Manufacturers Cutting Costs?
There are many cheap linear actuators on the market, just look at Amazon or EBay. An online search will provide many options to purchase an actuator for less than $100 but you really get what you pay for with a low-cost linear actuator. They will likely not have any bearings or O-rings and the motors won’t have many copper windings in them, meaning the motor power will be reduced with a low life-span. Unfortunately, yes you do get what you pay for.
Linear actuators vary greatly in price because of several factors. The following considerations will greatly affect the cost of an actuator:
- Low duty cycle
The duty cycle is a period of work minus a period of rest. A linear actuator has on and off phases. When a linear actuator is working, it uses energy to move the load and due to inevitable overheating, it has to stop for some time. But this process happens so fast you almost cannot notice it. So, the less time your linear actuator has to take rest, the more expensive it will be.
- Stroke length
A stroke length is a characteristic that allows your linear actuator to retract and reach maximum length in the minimal amount of time. The longer the stroke the more material is required to make that extra stroke and the more on-time the motor needs to make it move that stroke duration.
- Operational temperature
Operational temperature is the unit that manifests which temperatures your motion controls application will bear. Linear actuators are prone to be overheating if overworked, so most cheap actuators can’t work at high temperatures and are not applicable for places with hot climates, their cheaper materials simply cannot take the heat. And again, some of the linear actuators don’t work or work incorrectly in places with cold climate, that is why the lubricants and greases in the motor of a linear actuator starts freezing at low temperatures for cheaper actuators where low quality grease and oils are used. This is why if you are thinking about building an automation in a place with very hot or very cold climate should consider buying a more expensive variant that is made exactly for the right temperature.
Why should you buy a more expensive linear actuator when you can buy a cheaper variant? The thing is, motion controls are quite serious and if one element like a motor will be out of order, the whole movement and linear motion can break, which will lead to overall problems. It is better to buy a more expensive actuator once than buying hundreds of cheaper variants. A linear actuator is a thing that is supposed to serve your application a long time, that is why a quality made Actuator is so expensive.
Cost drivers for Actuators
There are several factors that drives up the cost to produce Linear Actuators in volumes. The most expensive part is the motor which has copper windings around the armature and also magnets. Both Magnets and copper are expensive commodities. Not only that but magnets come in many different forms from rare earth neodymium magnets that are super expensive but are also very strong but also the coper wire used in the motor can differ depending on what you want to pay. Obviously lower cost magnets and copper are going to result in lower motor speeds and forces which is the backbone of any Electric Linear Actuator, and the worst part is that neither of these items you can see on the actuator either because they are both fully hidden away from view.
What would be the different ways to bring costs down?
There are several ways to bring the costs of linear actuators down:
- Design optimization: By optimizing the design of the actuator, manufacturers can reduce the number of components required, simplify the manufacturing process, and reduce the overall cost of production.
- Material selection: Choosing less expensive materials without sacrificing quality can help reduce the cost of production. For example, using plastic or composite materials instead of metal can be cost-effective without compromising performance.
- Automation and economies of scale: Investing in automation and increasing production volumes can help reduce the per-unit cost of linear actuators by taking advantage of economies of scale.
- Outsourcing and partnerships: Outsourcing production to lower-cost regions or partnering with other companies to share production resources can help reduce costs.
- Streamlining the supply chain: Improving the supply chain and reducing the number of intermediaries involved in the production process can help reduce costs.
- Standardization: Standardizing the design and components of linear actuators can help reduce the cost of production by allowing manufacturers to take advantage of economies of scale and reduce the complexity of production.
Below is a table to show all the factors that go into increase costs, and also suggestions to reducing the costs of Actuators.
| Factors that Increase Costs | Strategies to Reduce Costs |
|---|---|
| Precision and accuracy | Design optimization |
| Complex design such as auto braking systems/anti-slip | Material selection |
| Specialized applications requiring special materials or sensors. | Automation and economies of scale |
| Limited production volumes for custom applications | Outsourcing and partnerships |
| Expensive materials such as hardened steel in gear | Streamlining the supply chain |
| Ball bearing Leadscrews, Anti-backlash devices | Standardization |
Overall, reducing the cost of linear actuators requires a combination of design optimization, material selection, process improvement, and supply chain management strategies.
FIRGELLI have always tried to maintain a range of Actuators to suit all price ranges. To view our linear Actuators follow the link here.
