How to Choose the Right Vibration Isolator | IDC

The right isolating material for your isolator depends on a system&#;s ambient conditions and loads. For example, although a high damping solution would provide more control in the region of resonance, isolation performance at higher disturbing frequencies will suffer due to the higher force generated by the damping element. Rubber isolators with increased damping often suffer from high dynamic stiffness, making it difficult to account for the varying performance with varying frequency when selecting the isolator.

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Wire rope isolators simultaneously reduce vibration and shock levels, making them highly cost-effective. However, the right isolator depends on the nature of your application.

Here are seven important factors for choosing the correct isolator.

1. Equipment Specifications

It&#;s important to know your equipment&#;s unique requirements before choosing an isolator. Some key specifications to keep in mind include:

• Disturbing frequency: Determine the main frequencies of the vibration you wish to isolate. For most types of reciprocating/rotating equipment, the manufacturer likely specifies this range in the operator&#;s manual. For cases where you have two or more disturbing frequencies, focus on the lowest one.
• Natural isolator frequency: Calculate the minimum natural frequency needed to isolate the vibration is essential for ensuring proper system performance. Choosing an isolator with too high of a natural frequency can amplify vibrations rather than reduce them.
• Vibration Input: How much vibrating force does your equipment produce? Measure this force or check the manufacturer&#;s specifications to ensure you know the correct range.

2. Equipment Location

Where your equipment is located and the kind of structural support it has can impact which isolator is right for your system. Is your equipment located in the basement or on the roof? Is it mounted on concrete slabs, or do you have rubber mounts? Can the isolator fit into the space without problems? These questions are key considerations for determining which isolator to use.

3. Vibration Excitation of Equipment

All types and directions of vibration should be considered. Equipment and environments often generate vibration in multiple directions simultaneously. For example, the rotational frequency forces and couples resulting from reciprocating masses may need to be considered when deciding which isolator is best for your system. These factors directly determine your system&#;s isolation requirements.

For instance, it&#;s important to know whether you are trying to isolate vertical or horizontal vibration. The isolator you choose must be able to handle a load in that direction. This specification will significantly narrow down your list of possible isolators.

4. Working Environment of the Isolator

The environmental factors that will affect the isolator are extremely important considerations for determining the best isolator for your application.

Temperature is the most important environmental factor because elastomeric isolators tend to perform differently in response to different temperatures. In general, elastomeric materials stiffen in lower temperatures and soften at high temperatures. The extent to which this fluctuation affects isolator performance will vary depending on the chosen material.

Fluid exposure is another important factor to consider, if applicable. The level of fluid exposure can impact your isolator, so determine whether your isolator will experience occasional splashes or full immersion.

5. Equipment Movement Restrictions

Your equipment&#;s installation type is important for choosing the right isolator. A stationary device will usually require a much simpler solution than a mobile one.

For example, a moving vehicle experiences significantly more intense vibration than a stationary vibrating machine in a factory. A captive isolator would be strongly recommended to keep the system intact even when driving over harsh terrain.

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6. Type of Building or Supporting Structure

The type of building as well as its intended use can significantly impact which isolator is right for you. Different types of buildings have different isolation requirements based on their purpose &#; for example, a manufacturing plant will have significantly different requirements from a hospital.

Consider how critical a quiet or reduced-vibration environment is for your setting. Will employees be in direct contact with vibrating equipment? Would noise affect customers or patients? Keep these questions in mind as you search for the right model.

7. Special Requirements for the Isolator

Consider any unique characteristics of your system, such as:

• Varying installation conditions: Will this piece of equipment be subjected to a wide variety of environments? Especially true for field equipment, its important to consider the variety, severity, and frequency of different environments when choosing an isolation system.
• Infrequent or rare dynamic loads: Examples would be wind loading, seismic events, or for outdoor applications, increased static load due to the accumulation of snow or ice. These events should be considered to ensure that the isolation system can sustain them. The requirement of whether or not the isolation system needs to maintain a certain level of performance or simply not fail must be considered in each unique case. 
• Additional externally applied forces: Are there any other environmental forces you may need to account for? For example, you may have a high-power fan blowing near the system that could impact vibrations. In multi-use buildings with different types of occupants, unexpected vibration demands often arise. For instance, a medical office may discover that they require isolation for a sensitive device because of fitness facility directly below them. 

Investing in a custom isolation solution can be advantageous for your application because it can address all the unique requirements of your system without sacrificing performance and quality.

Stockbridge Vibration Damper

Stockbridge Dampers are solid dampers used to help suppress the vibrational impact on outdoor electrical structures caused by windy weather, limiting the damage caused to fragile cables and wires.

A classic damper long favoured for its efficiency, the Stockbridge Vibration Damper is made from solid aluminium and galvanized steel. This maximises the resilience of the damper against the full range of weather conditions whilst maintaining a lightweight finish.

Its distinctive dumbbell shape consists of a flexible cable with two weighted ends and a central clamp. This design makes it ideal for safely dissipating energy throughout the connection, and it works with a wide frequency range.

Economic, effective, and easy to install, the Stockbridge Vibration Damper is the ideal choice for achieving maximum weather protection whilst facilitating optimum energy efficiency.

Suitable for clamping connectors between 1.1- 1.7&#; and for use on overhead power lines, OPGWS, cable-stayed bridges, long cantilevered signs, and more.

Key Features:

• Suppresses weather induced vibrations
• Aluminium safety plate and clamp
• Galvanized steel cable & weights
• Suitable for cables between 1.1 &#; 1.7&#;
• Effective on a range of frequencies
• Optimized barbell design
• Safe, easy installation
• Rust resistant

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