|
 Mobile View
ELECTRICAL INSPECTION, DIAGNOSIS, REPAIR
AFCIs ARC FAULT CIRCUIT INTERRUPTERS
ALUMINUM SECs & WIRING
ALUMINUM WIRING HAZARDS
AMPS & VOLTS DETERMINATION
CIRCUIT BREAKER FAILURE
Classified CIRCUIT BREAKER WARNING
DEFINITIONS of ELECTRICAL TERMS
DIRECTORY OF ELECTRICIANS
ELECTRIC METERS & METER BASES
ELECTRIC PANEL AMPACITY
ELECTRIC PANEL INSPECTION
ELECTRICAL BASICS
Electricity Basics - how it works
Electrical Circuit ID, Map & Label
Electrical Circuits, shorts
Electrical Code Basics
Electrical Conduit Tips
Electrical Definitions
Electrical Grounding Basics
Electrical Wiring in Old Houses
Grounding
Voltage Available
Amperage Available
Knob-and-tube wiring
Electrical Shorts
Number of Circuits
Polarized Plugs, Receptacles, Lights
Electrical Outlet-how to add
Electrical Splices, how to make
Electrical Tools & Tests
Electrical Wire Stripping Tips
Electrical Wiring Books & Guides
KNOB & TUBE WIRING
LIGHTNING PROTECTION
LOW VOLTAGE BUILDING WIRING
MAIN DISCONNECT AMPACITY
MULTI-WIRE CIRCUITS
RUST in ELECTRICAL PANELS
SAFETY FOR ELECTRICAL INSPECTORS
SE CABLE SIZES vs AMPS
SQUARE-D RECALLS
UNDERGROUND SERVICE LATERALS
VOLTAGE MEASUREMENT EQUIPMENT
ZINSCO / SYLVANIA HAZARDS
InspectAPedia ® Home & Site Map
Air Conditioning
InspectAPedia Bookstore
Electrical
Environment
Exteriors
Heating
Home Inspection
Insulate Ventilate
Interiors
Mold Inspect/Test
Plumbing Water Septic
Roofing
Structure
Accuracy & Bias Pledge
Contact Us
|
 Electrical Knob & Tube Electrical Wiring Inspection, Evaluation, & Repair Suggestions
ElectricAPedia ©
|
- How to inspect & repair or improve electrical grounding in older homes
- Guide to Electrical Hazards in Buildings: inspection, detection, & repair advice
Our site offers impartial, unbiased advice without conflicts of interest.
We will block advertisements which we discover or readers inform us are associated with bad business practices,
false-advertising, or junk science. Our contact info is at inspect-ny.com/appointment.htm.
This article answers basic questions about Knob and Tube electrical wiring. Readers of this article should also see ELECTRICAL DEFINITIONS. This website provides information about a variety of electrical hazards in buildings, with articles focused on the inspection, detection, and reporting of electrical hazards and on proper electrical repair methods for unsafe
electrical conditions. Critique and content suggestions are invited. Credit is given to content editors and contributors.
© Copyright 2008 Daniel Friedman, All Rights Reserved. Information Accuracy & Bias Pledge is at below-left. Use links at the left of each page to navigate this document or to view other topics at this website. Green links show where you are in our document or website. Sketch at page top courtesy of Carson Dunlop.
Knob-and-tube wiring in older homes: description, inspection, repair
Knob and tube electrical of wiring has been installed in homes from the 1920s right up into the 1970's in some jurisdictions. Our photos above will assist homeowners and inspectors in recognizing this wiring method. Just below we list the characteristics of a knob and tube electrical circuit:
- No ground: Only a hot and neutral wire are provided. The circuit has no electrical ground path.
- Wire insulation: The individual electrical wires are wrapped in a rubberized cloth. That was fine when the wires remained suspended in air and had not been chewed by a squirrel.
- Knob and tube wiring connections or splices were made outside of electrical junction boxes. In normal practice knob and tube wiring splices are soldered and also taped. We describe these splices at "Taps" in Electrical Splices, how to make.
|
- Ceramic tubes to route knob and tube electrical wires through building framing members:
Wherever the knob and tube circuit wires pass through building framing lumber a ceramic tube is used to insulate the wire from the wood.
These thick ceramic tubes are a good insulator separating electrical wire from wood - if both are un-damaged. Our photo at left shows knob and tube electrical wiring in the Justin Morril Smith historic home in Strafford VT. Also see our earlier photo at above right where electrical wires pass through a wall top plate in a 1920 home.
|
- Ceramic knobs to support knob and tube electrical wires passing over building framing surfaces: Where the knob and tube wiring is surface mounted in a building it is attached using a ceramic "knob".
These ceramic knobs are a good insulator provided they have not been damaged or modified. Our photo at left shows knob and tube electrical wiring in the Justin Morril Smith historic home in Strafford VT. Also see ceramic tubes supporting knob and tube circuits in other photos and sketches on this page.
|
Illustrations of Proper and Improper Knob and Tube Wiring Details
|
The sketch at left, courtesy of Carson Dunlop, shows the usual ways that knob and tube electrical wiring is connected in homes.
|
- No electrical ground is provided - the circuit is less safe than a modern grounded electrical circuit and appliances and devices that use a grounded plug should not be connected on an un-grounded circuit.
- The knob and tube wiring may have become damaged by age, exposure to leaks, or to chewing rodents. In attics, for example, we often see that this wiring has been damaged by having been stepped-on or by chewing rodents.
- The safety of the knob and tube circuit may have been affected by building changes such as adding insulation (discussed next) and modifications to the original circuit (discussed below).
Effect of Building Insulation on Knob and Tube Electrical Circuit Safety
|
|
- Adding building Insulation changes the knob and tube wire game: The fire safety of knob and tube wiring relied on the fact that the wires were generally routed through the air, suspended by knobs and protected by a heavy ceramic tube where passing through wood.
The two photos above, courtesy of Tim Hemm, show a knob and tube circuit that has not been covered with insulation (though we wonder about the significance of those leak stains on the ceiling joist forming the attic floor), while the knob and tube circuit in the right photo has been partly buried in blown-in cellulose insulation. We pose that the same insulation project may have filled wall cavities with insulation too, possibly leading to overheating of knob and tube circuits that run in the building's exterior walls. We're also concerned that where knob and tube wires have been run in an attic floor and later covered
by insulation, there's a good chance that someone walking in the attic has stepped-on and damaged the wires - a condition we've found often.
Where such wires were routed in walls or in attic floors, and where later those building cavities have been insulated, the knob and tube wires are no longer suspended in air, can become hotter than intended, and may be a fire hazard for that reason.
Safety & Electrical Code Concerns with Knob and Tube Electrical Circuits that Have been Extended or Spliced-into
Our photo at below left shows a combination of errors, extending a knob and tube electrical circuit and a twist on connector electrical splice outside of an electrical junction box. The photo also shows three types of electrical circuit wiring: knob-and-tube, armored "BX" cable, and plastic cable wires. The photo shows therefore three generations of electrical wiring (and probably other modifications) in this building. Carson Dunlop's sketch at below right shows how these circuits might be extended.
|
 
|
- Often the knob and tube circuit has been modified or extended by subsequent building owners/occupants - an improper practice that is not permitted in most codes.
Our photo at the top of this page shows an inspection client pointing to a modern plastic NM electrical cable that has been used to extend an older knob and tube electrical circuit.
In some jurisdictions, extending an existing knob and tube circuit is not recommended, and is even an illegal installation: by adding load to the knob and tube circuit, risks increasing the temperature of the wiring and possibly causing a fire.
Our advice about improving the safety and reliability of knob and tube electrical wiring
- Inspect the whole electrical: An expert should inspect the condition of the building electrical wiring, including the wires, connections, devices like receptacles, switches, and overcurrent protection by fuses or circuit breakers.
- Replace bad circuits: Knob and tube circuits that have been modified, damaged, or covered with insulation should be replaced with a modern grounded electrical circuit.
- Ground fault protection GFCI circuit protection and possibly arc fault protection can be added on two-wire un-grounded electrical circuits to reduce the chances of electrical shock or fire - steps that we recommend. See AFCIs ARC FAULT CIRCUIT INTERRUPTERS. (A homeowner cannot safely test a GFCI while it is in place, installed on an electrical circuit that has no ground but the GFCI can still be expected to work correctly if it is wired properly.)
Technical Reviewers & References
Particular thanks are due to experts and also consumers who read these articles and suggest corrections, changes, and additions to
the material. Content suggestions, technical corrections and content critique are invited for any of the content at our website.
- Daniel Friedman - principal author/editor of the InspectAPedia TM Website
- Thanks to Alan Carson and Bob Dunlop, Carson Dunlop, Associates, Toronto, for permission to use illustrations from their publication, The Illustrated Home which illustrates construction details and building components. Carson Dunlop provides home inspection education, publications, report writing materials, and home inspection services. Alan Carson is a past president of ASHI, the American Society of Home Inspectors.
Also see Knob and Tube Wiring & Home Owners' Insurance [Carson Dunlop]
- Timothy Hemm, Yucala, CA, contributed various photographs of electrical equipment installed in California buildings. Mr. Hemm can be contacted at TimHemm@yahoo.com
- Critique, contributions wanted: Contact Us to suggest text changes and additions and, if you wish, to receive online listing and credit for that contribution.
Use links at the left of each page to navigate this document or to view other topics at this website. Green links show where you are in our document or website.
More expert information on this topic
|
ELECTRICAL HAZARDS, INSPECTION, REPAIRS
More Information
InspectAPedia ® Home & Site Map
Air Conditioning
InspectAPedia Bookstore
Electrical
Environment
Exteriors
Heating
Home Inspection
Insulate Ventilate
Interiors
Mold Inspect/Test
Plumbing Water Septic
Roofing
Structure
Accuracy & Bias Pledge
Contact Us |
More Information on Building Diagnostic Inspections and Repairs
Links to our list of additional documents on electrical inspection, repair, and products
 InspectAPedia® Home & Site Map - Building & Environmental Inspection, Testing, Diagnosis, Repair, & Problem Prevention Advice: In-depth research & advice on diagnosing, testing, correcting, & preventing building defects & indoor environmental hazards. Unbiased information, no conflicts of interest. |
The Mold Information Center: What to Do About Mold in Buildings, When and How to Inspect for Mold, Clean Up Mold, or Avoid Mold Problems
|
Use this simple, economical mold test kit by following our instructions on how to collect and mail mold samples to our lab
| |
Environmental Inspection, Testing, & Diagnosis On-Site IAQ, Gas, Air Testing, Mold Investigation, Sick Building Diagnosis, Lab Services, & Remediation Plan Preparation - indoor air quality testing, problem source determination, supporting lab work, written remediation plan addressing removal of environmental and other hazards and prevention of their recurrence.
|
Building Inspection, Problem Diagnosis, Forensic Investigation & Testing, Repair Consulting |
|
Contact Daniel Friedman for website content suggestions or for fee-paid consulting
|
|
Building & Environmental Inspection, Testing, Diagnosis, Repair, & Problem Prevention Advice 
Directory of Professionals to Inspect or Test a Building 
