The Core Power Source In Sealing Rings: An Analysis Of Spring Types And Their Functions

Seals with such springs are typically called ​ spring-energized seals , the most common example being the Spring-Energized Seal.

​ II. Main Spring Types and Their Characteristics & Applications ​

The type of spring directly determines the performance and application of the sealing ring. Below are several mainstream spring types:

​ 1. V-Spring (V-Spring)​ ​

• ​ Structure : Made from precision-stamped stainless steel strip, forming a continuous V-shaped structure; the cross-section resembles a series of“V”s.
• ​ Function & Advantages :
  • ​ Uniform Radial Force : Provides a very smooth, even radial load, leading to uniform lip wear and stable sealing.
  • ​ Low Friction : Relatively low friction during movement due to small contact area with the seal inner wall.
  • ​ Kink Resistance : The continuous ribbon structure makes it resistant to twisting or kinking during installation, especially suitable for large diameters.
• ​ Typical Applications : The most versatile and common type, suitable for most rotary, reciprocating, and static applications; the first choice for many standard spring-energized seals.

​ 2. Helical Coil Spring (Helical Coil Spring)​ ​

• ​ Structure : Made from round or rectangular cross-section wire wound into a continuous helical coil.
• ​ Function & Advantages :
  • ​ High Spring Force : Provides higher unit area spring force than V-springs, resulting in stronger sealing pressure.
  • ​ Excellent Compression Resistance : Especially coils made from rectangular wire (Canted Coil Spring) excel at resisting axial compression and side loads, and are less prone to collapsing under high pressure.
  • ​ Low-Temperature Resistance : Lower rate of spring force decay in very low temperatures compared to V-springs.
• ​ Typical Applications :
  • ​ High-Pressure Conditions : Often used for static and dynamic sealing under extreme high pressure.
  • ​ Low-Temperature Conditions : Such as cryogenic media like LNG, liquid nitrogen, liquid oxygen.
  • ​ Large Clearance Applications : Better at compensating for larger radial clearances and eccentricity.

​ 3. U-Spring (U-Spring)​ ​

• ​ Structure : Similar in structure to the V-spring, but the cross-section is“U”-shaped.
• ​ Function & Advantages :
  • ​ Medium Spring Force : Its spring force characteristics are between those of V-springs and helical coil springs.
  • ​ Cost-Effective : Generally lower manufacturing cost.
• ​ Typical Applications : Found in some cost-sensitive, low to medium pressure applications where conditions are not extreme; less common than V and helical springs.

​ 4. Wave Spring (Wave Spring)​ ​

• ​ Structure : A flat metal ring with multiple continuous peaks and valleys.
• ​ Function & Advantages :
  • ​ Compact Space : Requires minimal axial installation space, ideal for thin-wall, compact designs.
  • ​ Controlled Force : Capable of providing precisely designed preload force.
• ​ Typical Applications : Primarily used for ​ static sealing , acting as a preload compensation element for O-rings or other elastomeric gaskets, not for lip compensation in dynamic seals.

​ III. How to Choose the Right Spring Type?​ ​

Selecting the spring type requires comprehensive consideration of the following factors:

• ​ Operating Pressure : Helical spring is preferred for high pressure; V-spring is a good choice for low/medium pressure.
• ​ Motion Type : V-springs providing uniform force are prioritized for rotary sealing; both can be used for reciprocating motion.
• ​ Temperature Range : Helical springs (especially rectangular wire) are more reliable in very low temperatures.
• ​ Media Compatibility : Spring material (usually 304 or 316 stainless steel) must be compatible with the medium; highly corrosive environments may require special materials like Hastelloy.
• ​ Space Constraints : Wave springs can be considered for static sealing when axial space is limited.
• ​ Cost Budget : V-springs offer high cost performance; helical springs offer excellent performance but at a relatively higher cost.

​ Conclusion ​

Though small, the spring is the soul of a spring-energized seal. From the V-spring providing uniform pressure to the helical spring granting ultra-high pressure resistance, each type is born to solve specific engineering challenges. Understanding their unique functions and applicable scenarios is a key step in selecting the most suitable and reliable sealing solution for equipment, thereby effectively enhancing reliability, efficiency, service life, and eliminating leakage risks.

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