Why do isolators have a sort of circular spring around?

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Discussion Overview

The discussion revolves around the design and functionality of electrical insulators, particularly focusing on the components such as the circular spring-like structures and ceramic disks. Participants explore the purpose of these features in the context of electrical insulation, voltage ratings, and environmental considerations.

Discussion Character

  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants inquire about the workings and purpose of the circular spring-like feature surrounding the insulators.
  • One participant explains that suspension insulators consist of porcelain discs connected in series, with the number of discs depending on the voltage level.
  • Another participant notes that the umbrella shape of the ceramic disks is designed to shed rain, helping to keep part of the insulator dry during adverse weather conditions.
  • There are repeated questions regarding whether the number of ceramic disks in the insulator matters, with one participant affirming that it does, as indicated by the voltage requirements.
  • A participant introduces the concepts of Creep and Strike ratings, explaining how these relate to the insulator's resistance to contamination and the distance through the air from one end to the other.

Areas of Agreement / Disagreement

Participants generally agree on the importance of the number of ceramic disks in relation to voltage, but there are varying levels of detail and understanding regarding the specific functions of the insulator components and their ratings.

Contextual Notes

Some assumptions about the environmental conditions affecting insulator performance and the specific applications of different insulator types are not fully explored. The discussion includes references to external resources for further reading.

ChrisToffer
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Can someone Please explain to me how do these isolators works, i mean what about the parts? why does it look like this? and what's the purpose of the spring like thing around the isolators?
 

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ChrisToffer said:
Can someone please explain to me how do these isolators works, i mean what about the parts? why does it look like this? and what's the purpose of the spring like thing around the isolators?
You can see how insulators differ here: http://en.wikipedia.org/wiki/Electrical_insulation

Suspension insulator - For voltages greater than 33 kV, it is a usual practice to use suspension type insulators shown in Figure. Consist of a number of porcelain discs connected in series by metal links in the form of a string. The conductor is suspended at the bottom end of this string while the other end of the string is secured to the cross-arm of the tower. The number of disc units used depends on the voltage.
 
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The individual ceramic disks are umbrella shaped to shed rain. You want at least part of the insulator to stay dry in bad weather.
 
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does the number of ceramic disk in the isolator matter??
 
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For these insulator there are two commonly referred to ratings, Creep and Strike.

Creep is the total distance along the surface of the insulator from one end ( conductor) to the other, Could be ground or energized conductor depending on the application. Creep is a measure of how resistant the insulator will be to contamination ( like salt ) or dust, that can lead to tracking, and ultimately a flash over, or tracking can also permanently damage the surface of the insulator itself. As you can visualize, this multiple mushroom shape, does shed off the water, but dramatically increases the distance on the surface of the insulator.

Strike - is the distance through the air - from one end ( conductor) to the other. The mushroom skirts could help with this in some cases, but typically the Strike is just the overall length of the insulator portion. ON some bushings ( an insulator that the conductor runs through) - you will often see the bottom skirt a little longer, to help add a few inches of strike distance.
 

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