Why Choose A Single Acting Hydraulic Cylinder?

The hydraulic cylinder plays a significant role in industrial applications. It is essential in the operational capabilities of diverse equipment. While two different types exist, single and double acting, each type has its own specific relevance and appropriateness in addressing specific functions. While both types are effective in lifting, holding, moving and pulling a load, in some instances, the single acting cylinder is often preferred over its double acting counterpart.

Advantages of Single Acting Cylinders

Companies that favor single acting cylinders over double acting ones provide a variety of reasons for their preference. They tend to consist of the following:

  • Air Consumption: When compared to a double acting cylinder, the amount of consumed air is at least cut in half
  • Low maintenance: Companies know fewer parts mean less equipment to maintain. This reduces the time spent in this aspect of equipment upkeep
  • Simplistic Design: This is an effective design for applications that require reliability.
  • Size: A single hydraulic cylinder is compact, making it more versatile – an essential quality for certain applications
  • Cost effective: Overall the costs for single hydraulic cylinders is lower in terms of piping and valves

Single acting hydraulic cylinders do offer companies certain advantages when it comes to utilizing them in specific applications. They prove to be more advantageous in industries that require heavy lifting. This makes this cylinder suitable for material handling equipment. However, for this type of cylinder to be most effective, the action should be moving only in one direction.

The Single Acting Cylinder

Today, many industries rely on the capabilities of hydraulic cylinders to provide motive power to their equipment. While some prefer the abilities of a double acting hydraulic cylinder, others do not. They favor the cost-effective single acting cylinder with its simple design and effective reliability under rugged and demanding conditions. In the end, the definitive choice always depends upon cost, the specifications, the application, and the environment.

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