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#1
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Replacing Fuses
I am looking to buying a new home. A few nice homes have fuses. What is
a general cost to upgrade fuses to a circuit breaker? |
#2
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Replacing Fuses
Just to be the devil's advocate here, let me ask, what is so horribly
wrong with fuses that you would want to pay what I'm sure would be hundreds of dollars to upgrade? Lena |
#3
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Replacing Fuses
There are many variables in this cost. Depending on local market conditions and the exact specific circumstances of your job it could range between $1,500 and $2,000. |
#4
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Replacing Fuses
Nitestarz wrote:
I am looking to buying a new home. A few nice homes have fuses. What is a general cost to upgrade fuses to a circuit breaker? Tread carefully!! That can involve a "major" service upgrade and, increasingly, inspectors are requiring that other parts of the wiring system be brought to present Code standards. Call the Building Dept in the locale you're looking at and ask what requirements they have in such situations. Also, talk to the insurance agent who covers your home (or will be) and ask what requirements *they* have for policyholders regarding outdated elctrical systems. Might be surprises lurking there too... Jim |
#5
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Replacing Fuses
i would count on 7-10 dollars per breaker. the bigger cost - the one
that is most often the source of the problem is the actual metal terminals on the metal box. they eventually start arcing ( if they are 20 yrs old or more ) and in a damp environment. changing out the box is a 5-6 hour job. I would say replacing the whole box is a 1500 - 2000 dollar job for most electricians. just got mine done. thanks, I hope it helps, and if you can do me a favor, check out my website http:\\www.investingwave.com |
#6
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Replacing Fuses
Nitestarz wrote:
I am looking to buying a new home. A few nice homes have fuses. What is a general cost to upgrade fuses to a circuit breaker? Hi, Some fused house wiring could be old which does not have 3 wire run(hot-neutral-ground). Is this the case? Or new panel (100 Amp minimum) and number of breakers. This one wouldn't bad. |
#7
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Replacing Fuses
you'll be upgrading that single home 110v fuses 60 amp service to
include power for air conditioning and replacing the line from the pole with a nice 200 amp or more 220v service? any aluminum wiring problems? any knob and tube wiring problems? read about "I'm buying a house! What should I do? What is this weird stuff? Old style wiring" and more at: http://www.faqs.org/faqs/electrical-wiring/part1/ |
#8
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Replacing Fuses
"Lena" wrote in message oups.com... Just to be the devil's advocate here, let me ask, what is so horribly wrong with fuses that you would want to pay what I'm sure would be hundreds of dollars to upgrade? Lena I once bought a house that had a 60A fuse box. The sellers insurance co insisted that the servive be upgraded to 100A breakers before we bought it. It may be that the 60A was more of the reason than the fuses though. Kevin |
#9
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Replacing Fuses
Some insurance companies dont insure homes today with fuses, knob and
tube, questionable roofs, cracxked sidewalks and a long list of other issues |
#10
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Replacing Fuses
Nitestarz wrote: I am looking to buying a new home. A few nice homes have fuses. What is a general cost to upgrade fuses to a circuit breaker? This is something that you should try to get the seller to do as a condition of purchase. Chances are pretty good that if they have the old 60 Amp "Main, Range and Four" fuse panel that the entire house probably needs rewired. Usually in houses like that 2 circuits pretty much run most of the outlets and lights. |
#11
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Replacing Fuses
mm wrote:
On Wed, 08 Mar 2006 23:14:52 -0500, mm wrote: On 8 Mar 2006 17:46:39 -0800, "volts500" wrote: This is something that you should try to get the seller to do as a condition of purchase. Chances are pretty good that if they have the old 60 Amp "Main, Range and Four" fuse panel that the entire house probably needs rewired. Usually in houses like that 2 circuits pretty much run most of the outlets and lights. This is what the FAQ says about the difference between cb's and fuses: ubject: Breakers? Can't I use fuses? Statistics show that fuse panels have a significantly higher risk of causing a fire than breaker panels. This is usually due to the fuse being loosely screwed in, or the contacts corroding and heating up over time, or the wrong size fuse being installed, or the proverbial "replace the fuse with a penny" trick. It would be interesting where the stats came from. I have probably seen more arcs develop from a plug-in breaker to the bus bar. If using Fusestats, which are readily available non-interchangable plug fuses, the wrong size fuse can't be used, nor can the fuse be bypassed with a penny. Since breakers are more permanently installed, and have better connection mechanisms, the risk of fire is considerably less. Fuses are prone to explode under extremely high overload. When a fuse explodes, the metallic vapor cloud becomes a conducting path. Result? From complete meltdown of the electrical panel, melted service wiring, through fires in the electrical distribution transformer and having your house burn down. [This author has seen it happen.] Breakers won't do this. Fusestats have an interrupt rating of 10,000 Amps, same as residental CBs (recently some are higher). Cartridge fuses that should be used have an interrupt rating 100,00A or higher. Breakers won't explode on short circuits (not a high overload)? How about if it is mechanically slow or frozen? Anyone still make crappy CBs (ala FPE or Zinsco)? Many jurisdictions, particularly in Canada, no longer permit fuse panels in new installations. The NEC does permit new fuse panels in some rare circumstances (requiring the special inserts to "key" the fuseholder to specific size fuses) The "special" inserts to convert to Fusestats aren't particularly special and often have been installed in old panels. Some devices, notably certain large air conditioners, require fuse protection in addition to the breaker at the panel. The fuse is there to protect the motor windings from overload. Check the labeling on the unit. This is usually only on large permanently installed motors. The installation instructions will tell you if you need one. The fuse is not there primarily to protect the motor from overload. It protects the supply wiring from short circuits but gives some protection to the motor and other equipment in unusual circumstances. That is the same function the CB provides. I presume the manufacturer likes the operating characteristic of the fuse better. I would never ever put a penny in a fusebox, and I wouldn't bother to change a fusebox to a breaker box unless I was trying to sell the place, but ymmv. CBs are a lot more convenient than fuses. However I wonder about 10 year old panels. It would seem like a breaker could mechanically deteriorate and freeze or have its operating characteristic change. If a fuse element deteriorated it should open early. Anyone seen long term reliability information? Would seem like someone would have run tests. Like mm, I don't think I would change out a fuse panel if my house had one, if it was large enough. But I wouldn't install one either. I think the advantage of CBs, other than convenience, is overstated. Fused service panels do come in ratings larger than 60A. When I was a kid the service in my home was replaced with a 100A all fuse service panel. It was 'main and range' style similar to volts500's description. A 60A pullout fed 8 branch circuits. There was a 60A pullout for possible range and I think 1 or 2 30A pullouts. The pullouts were all service disconnects. (I don't think 'main and range' is allowed for new installations). bud-- |
#12
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Replacing Fuses
According to Bud-- :
mm wrote: On Wed, 08 Mar 2006 23:14:52 -0500, mm wrote: On 8 Mar 2006 17:46:39 -0800, "volts500" wrote: This is something that you should try to get the seller to do as a condition of purchase. Chances are pretty good that if they have the old 60 Amp "Main, Range and Four" fuse panel that the entire house probably needs rewired. Usually in houses like that 2 circuits pretty much run most of the outlets and lights. This is what the FAQ says about the difference between cb's and fuses: ubject: Breakers? Can't I use fuses? Statistics show that fuse panels have a significantly higher risk of causing a fire than breaker panels. This is usually due to the fuse being loosely screwed in, or the contacts corroding and heating up over time, or the wrong size fuse being installed, or the proverbial "replace the fuse with a penny" trick. It would be interesting where the stats came from. I have probably seen more arcs develop from a plug-in breaker to the bus bar. If using Fusestats, which are readily available non-interchangable plug fuses, the wrong size fuse can't be used, nor can the fuse be bypassed with a penny. I cowrote the FAQ, and authored that section. So, I think I can justify it ;-) That rationale has been explicitly stated (without giving specific numbers) in many trade and media articles, pamphlets from the Canadian government and in various guides (eg: Knight) for at least 20 years. Including the code sections of course. Let me tell you a little story: In 1974, as a 19yo, I wired my grandfather's cottage, with my grandfather and father as "laborers". Winterized, electric heat, 200A fuse panel, fully inspected ("one of the best jobs I've seen!"), additionally with my father, who's both DIY-minded and an engineer watching me _very_ carefully ;-) I've spent _very_ little time (no overnighters) in the cottage since the mid 80's. My parents, my brother's family and an intermittent stream of their friends renting it by-the-week used it since then. About 3 years ago, my dad started complaining that the cottage seemed to be consuming a lot of electricity, without anyone being there - the only electrical consumption was one small fan heater with a special thermostat to keep the pipes warm in a small insulated space. He also mentioned that one of the wallmount electric fan heaters seemed to be defective. Curious. About 18 months ago, my dad started making noises about selling it - since the GPs and my mother had died, my father was making very little use of it, and even with the sporadic rentals bringing in enough to maintain it, it wasn't justified to keep it any longer. Being the dutiful son, my wife and I volunteered to help tune up the cottage for sale. During one visit I made a minor tweak to an electrical circuit. My grandfather had installed a ceiling fan by mid-air splicing some zip cord (!!!!!). So I installed a proper outlet and fan-control switch. Then realized that some of the fuses in the panel were the wrong value - a 30A on a 15A circuit. Oh dear. Obviously my brother, who is the exact opposite of DIY-minded would replace a blown fuse with anything handy without even looking at the fuse value. Still little idea of what the excessive consumption was caused by. Next time we went to the cottage, I brought two boxes of 15A fuses, and spent the afternoon "auditing" the panel and making sure each fuse was right for the wiring. I had to buy a third box of 15A fuses and a couple of 20s... While making sure that each fuse was solid, I burned my fingers on one of the 240V fuse-pair blocks. What the hell? Turns out that the fuse contacts to the supposedly burned out heater had sufficiently corroded/burnt, that it was providing a couple amp flow to the heater which had been switched on for a very long time. Not enough to make the heater noticably warm or the fan operate, but enough to pull significant amounts of electricity and not _quite_ flame out the fuse block. [I replace the fuses _and_ fuse block to be certain of the repair.] That was one bullet we dodged. [The other was, when asked by the electrical supplier "do you want to use aluminum or copper"? "What's the difference?" "Copper is mechanically easier, aluminum is cheaper". "Please grandpa, can we do the easier one?". He went for "easy". Thank heavens for that!] That's how just _one_ fuse panel "evolved" over 30 years - wrong fuses, overheating connections. That's _why_ CBs are required these days. [The cottage got sold, complete with a several hours worth of "owner's lecture" by us ;-)] The one other major catastrophe I've personally seen involved a 60A fuse exploding in a commercial building. The resulting plasma arc-over slagged two floor-to-ceiling panel sections, blew 2 of 3 2000A fuses (600V 3 phase service), and started a fire on the utility pole. Not to mention vaporizing the electrician's coffee cup. I've encountered a number of broken CBs in my day (including 3 of 4 Square D (I assume "Homeline") breakers in my damn cooktop!), and not _one_ of them failed "badly". They simply tripped and wouldn't reset. Fusestats have an interrupt rating of 10,000 Amps, same as residental CBs (recently some are higher). Cartridge fuses that should be used have an interrupt rating 100,00A or higher. Breakers won't explode on short circuits (not a high overload)? How about if it is mechanically slow or frozen? Anyone still make crappy CBs (ala FPE or Zinsco)? I've _never_ heard of a CB "exploding". Failing to trip, failing to reset, yes. Never exploding. Many jurisdictions, particularly in Canada, no longer permit fuse panels in new installations. The NEC does permit new fuse panels in some rare circumstances (requiring the special inserts to "key" the fuseholder to specific size fuses) The "special" inserts to convert to Fusestats aren't particularly special and often have been installed in old panels. They're relatively special here, because hardly anyone uses them. Some devices, notably certain large air conditioners, require fuse protection in addition to the breaker at the panel. The fuse is there to protect the motor windings from overload. Check the labeling on the unit. This is usually only on large permanently installed motors. The installation instructions will tell you if you need one. The fuse is not there primarily to protect the motor from overload. It protects the supply wiring from short circuits but gives some protection to the motor and other equipment in unusual circumstances. That is the same function the CB provides. I presume the manufacturer likes the operating characteristic of the fuse better. Read your code book and the equipment instructions. Large motors (eg: in ton-rated builtin A/Cs) that don't have integral thermal protection _often_ require a "nearby" fuse block sized _exactly_ according to the plate/installation instructions, in addition to the normal branch circuit breaker (which may be rated somewhat higher, and in some cases _lower_). The reason for this is that properly sized "regular" fuse response closely mimics the current overload/thermal failure path of these motors. As such, these fuses are primarily to protect the motor - since they're local to the motor, they will _not_ protect against upstream circuit faults. It's the job of the circuit breaker (or fuse) to protect the circuit. Circuit breaker overload response is very similar to fusetron ("time delay fuse") response. Fusetrons are what are usually specified for motor circuits that don't need the local fuse block. Eg: furnace blower & water pump circuits (these motors have builtin thermal protection, and hence don't need the fuse trick). This is why you don't have to worry about "time delay" versus "regular" with CBs, but you do with fuses. I would never ever put a penny in a fusebox, and I wouldn't bother to change a fusebox to a breaker box unless I was trying to sell the place, but ymmv. CBs are a lot more convenient than fuses. However I wonder about 10 year old panels. It would seem like a breaker could mechanically deteriorate and freeze or have its operating characteristic change. If a fuse element deteriorated it should open early. Anyone seen long term reliability information? Would seem like someone would have run tests. I haven't seen formal reliability info, but according to my personal experience, and what is evident in the electrical code evolution, this isn't nearly the issue of fuse panels allowed to deteriorate. Like mm, I don't think I would change out a fuse panel if my house had one, if it was large enough. But I wouldn't install one either. I think the advantage of CBs, other than convenience, is overstated. Fused service panels do come in ratings larger than 60A. Like I said. We had a 200A one. When I was a kid the service in my home was replaced with a 100A all fuse service panel. It was 'main and range' style similar to volts500's description. A 60A pullout fed 8 branch circuits. There was a 60A pullout for possible range and I think 1 or 2 30A pullouts. The pullouts were all service disconnects. (I don't think 'main and range' is allowed for new installations). I'm not familiar with "main and range" panels. Bigger fuse panels tend to have 2 (or sometimes 3) pullouts for cartridge fuses, plus pairs of screwin fuse sockets. In the cottage panel, it had 2 pullout blocks (stove and dryer), plus each pair of fuses were installed in a "carrier" block which in turn plugged into the panel. The "carrier" is either an "open style" (open access to two fuse sockets) or a closed style (two hinging doors that cover the fuses - you have to pull the carrier out to change the fuses - required for 240V circuits to ensure that both fuses were out when working on the circuit) A good unit. But not one I'm comfortable with my brother maintaining .... :-( -- Chris Lewis, Una confibula non set est It's not just anyone who gets a Starship Cruiser class named after them. |
#13
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Replacing Fuses
ubject: Breakers? Can't I use fuses?
Statistics show that fuse panels have a significantly higher risk of causing a fire than breaker panels. This is usually due to the fuse being loosely screwed in, or the contacts corroding and heating up over time, or the wrong size fuse being installed, or the proverbial "replace the fuse with a penny" trick. It would be interesting where the stats came from. I have probably seen more arcs develop from a plug-in breaker to the bus bar. If using Fusestats, which are readily available non-interchangable plug fuses, the wrong size fuse can't be used, nor can the fuse be bypassed with a penny. I cowrote the FAQ, and authored that section. So, I think I can justify it ;-) That rationale has been explicitly stated (without giving specific numbers) in many trade and media articles, pamphlets from the Canadian government and in various guides (eg: Knight) for at least 20 years. Including the code sections of course. I would actually be interested in event based stats. I don't remember reading articles in the US (but could have missed them). Older fuse panels may not be made as well and be less reliable (but I havn't seen information suggesting this). The one other major catastrophe I've personally seen involved a 60A fuse exploding in a commercial building. The resulting plasma arc-over slagged two floor-to-ceiling panel sections, blew 2 of 3 2000A fuses (600V 3 phase service), and started a fire on the utility pole. Not to mention vaporizing the electrician's coffee cup. Fuses are readily available at low cost (such as Buss FRN) that are "current limiting", meaning they open a circuit in less than 1/4 cycle - significantly before the fault current sine wave reaches its first peak. This is a major feature since magnetic effects than can tear loose bus bars are proportional to current squared. It also greatly reduces heating effects that, for a short, are proportional to current squared times time. These fuses also limit the available fault current downstream, which non-"current limiting" devices can't do. This is a major advantage for not only equipment but safety of electricians. It is a lot harder (and a lot more expensive) to get a CB to operate fast enough to be "current limiting". Fuses are also readily available at low cost with interrupt ratings up to 200,000 amps. (On reason is they are "current limiting", as above, and interrut the fault long before it reaches 200,000 amps.) It is a lot more expensive to get CBs with that high a rating. In fact series combinations of fuses and CBs are sometimes used, and old CBs can be protected for a higher available fault current than they were rated for with an engineered retrofit series combinations. It is reasonable to assume your 60A fuse was not rated for the available fault current. In the US its use is a code violation (as would be a CB not rated for the available fault current). I would also wonder about the service fuses if there was a fire on the utility pole. This certainly does not reflect on fuses. In high available fault current applications I would be especially concerned by the long term reliabiliy of CBs since even a mechanically produced slow trip on large fault can have dire consequences. Scheduled testing of such CBs is sometimes done. Fusestats have an interrupt rating of 10,000 Amps, same as residental CBs (recently some are higher). Cartridge fuses that should be used have an interrupt rating 100,00A or higher. Breakers won't explode on short circuits (not a high overload)? How about if it is mechanically slow or frozen? Anyone still make crappy CBs (ala FPE or Zinsco)? I've _never_ heard of a CB "exploding". Failing to trip, failing to reset, yes. Never exploding. Suffice it to say CBs do explode. If they trip slow (or not at all) on a high current fault magnetic and thermal effects can do awesome things. Some devices, notably certain large air conditioners, require fuse protection in addition to the breaker at the panel. The fuse is there to protect the motor windings from overload. Check the labeling on the unit. This is usually only on large permanently installed motors. The installation instructions will tell you if you need one. The fuse is not there primarily to protect the motor from overload. It protects the supply wiring from short circuits but gives some protection to the motor and other equipment in unusual circumstances. That is the same function the CB provides. I presume the manufacturer likes the operating characteristic of the fuse better. Read your code book and the equipment instructions. Large motors (eg: in ton-rated builtin A/Cs) that don't have integral thermal protection _often_ require a "nearby" fuse block sized _exactly_ according to the plate/installation instructions, in addition to the normal branch circuit breaker (which may be rated somewhat higher, and in some cases _lower_). The reason for this is that properly sized "regular" fuse response closely mimics the current overload/thermal failure path of these motors. As such, these fuses are primarily to protect the motor - since they're local to the motor, they will _not_ protect against upstream circuit faults. It's the job of the circuit breaker (or fuse) to protect the circuit. Circuit breaker overload response is very similar to fusetron ("time delay fuse") response. Fusetrons are what are usually specified for motor circuits that don't need the local fuse block. Eg: furnace blower & water pump circuits (these motors have builtin thermal protection, and hence don't need the fuse trick). This is why you don't have to worry about "time delay" versus "regular" with CBs, but you do with fuses. Actually I have read my code book. The NEC divides protection into "short circuit" protection for the conductors (and to a limited degree for the equipment) and "overload" protection, which protects both the motor and the conductors. In general "overload" protection is provided by internal thermal protectors or sensors or by overload units in a motor starter. The overload units can be 115% max of the motor run amps. Fuses are not made in enough sizes to provide this protection. (Note that the supply wires are protected from overloads at the load end.) Fuses and circuit breakers provide "short circuit" protection. Hermetic air conditioner compressor motors may be more complicated since they are subject to heating from the compression and also have heat removed with the exiting refrigerant. I presume integral thermal protection or sensing is more effective. I do not know what a "regular" fuse is. We have time delay (with several delay curves) and non time delay. Non time delay would have to be sized much higher than the run amps to avoid blowing on motor start - 300% max. Time delay fuses can be sized up to 175% of run amps, again to avoid blowing on motor start. bud-- |
#14
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Replacing Fuses
lol the ultimate keeping up with the Jones's- now how good your switchboard
is. you may be able to get CB's to fit in the fuse holder in your area, making it a possible DIY project. it is true that fuses are more dangerous but only because the wiring in the house is old and failing and lack of maintenance with appliances etc. CB's wont fix and old house so if there are problems they will need to be addressed before the house burns down.. "Nitestarz" wrote in message oups.com... I am looking to buying a new home. A few nice homes have fuses. What is a general cost to upgrade fuses to a circuit breaker? |
#15
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Replacing Fuses
"Kevin Ricks" wrote in message m... "Lena" wrote in message oups.com... Just to be the devil's advocate here, let me ask, what is so horribly wrong with fuses that you would want to pay what I'm sure would be hundreds of dollars to upgrade? Lena I once bought a house that had a 60A fuse box. The sellers insurance co insisted that the servive be upgraded to 100A breakers before we bought it. It may be that the 60A was more of the reason than the fuses though. Kevin I really hope that did not happen, because as I see it now there is more chance of a house fire. maybe qualified ppl should give advice to insurance companies. |
#16
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Replacing Fuses
"Saus29" wrote in message ... "Kevin Ricks" wrote in message m... "Lena" wrote in message oups.com... Just to be the devil's advocate here, let me ask, what is so horribly wrong with fuses that you would want to pay what I'm sure would be hundreds of dollars to upgrade? Lena I once bought a house that had a 60A fuse box. The sellers insurance co insisted that the servive be upgraded to 100A breakers before we bought it. It may be that the 60A was more of the reason than the fuses though. Kevin I really hope that did not happen, because as I see it now there is more chance of a house fire. maybe qualified ppl should give advice to insurance companies. It did happen. There were only 4 circuits in the entire house, plus an Edison circuit for the dishwasher / disposal that someone added in a small subpanel. The entire rest of the kitchen, garage (including laundry) were on one 20A circuit. (That fuse was blown when I first looked at the house). After I moved in, and after the fuse box was replaced, the wires on that kitchen circuit would be warm to the touch. I rewired much of the house adding about 8 new circuits and split up several circuits. This is all work I expected to do after taking one look at the fuse box. In my case I was lucky because the seller paid for the service upgrade and breaker box. ~$1800 for a new breaker box, meter base and head, ground rod, etc. This was 6 or 7 years ago in Bay Area CA. Kevin |
#17
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Replacing Fuses
I've _never_ heard of a CB "exploding". Failing to trip, failing to
reset, yes. Never exploding I used to repair machines at a westinghouse power systems plant. they built breakers and panels. they had troubles with a foreign company building knocks offs. from the outside they looked genuine. Inside they were crap. I found out about this one day when walking thru the plant I heard a explosion. Wierd the workers went on as nothing happened, I was ready to run for my life. just another test of a knockoff properly built breakers shouldnt explode |
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