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How can you re-wire a wall switch that controls an outlet to control a ceiling fan?

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2015-07-15 18:21:04
2015-07-15 18:21:04
for USA, Canada and countries running a 60 Hz power supply service.You would probably have to open up portions of the sheet rock (or whatever wall material you have) in order to snake electrical cable from the switch up to where the fan is going to be mounted. There are wiring code restrictions on how cable is run and secured behind the wall. Best advice to you is get a free quote from a local licensed electrician, can't hurt to get an idea of what a professional would charge you for doing it right. I just did this in my own home. You don't have to be licensed electrician. And, if your house is wired like mine, you don't have to destroy your walls. But you should feel comfortable working with electricity before you take this on. You should also be aware that, if you screw something up and your house burns down, your home-owner's insurance may not pay up if they discover you did some amateur electrician work. Whatever happens, I refuse to accept responsibility or liability for any injury to you or damage to your home.

Now, I assume that you want to keep the outlet "switched" (switched means the outlet is hot only when the switch is turned on). If you want to make it "unswitched" (i.e., hot all the time), things get complicated. I also assume that your switch is just a regular on/off switch, and not a three-way switch (with a three-way switch, you can turn the device on and off from two different locations). If either of these assumptions is untrue, stop right here - the following instructions will not work for your situation.

The first thing you need to do is identify the circuit that runs to this switch/outlet combination. Plug a night-light or small lamp into the switched outlet and turn it on at the switch and at the light. Then go to your breaker box. The individual breakers may be labeled in such way that you can immediately identify which breaker is for that circuit, or at least narrow it down a little bit. Otherwise, just start flipping any switches that seem likely (one at a time) off and on until your night-light goes out (unless your breaker box and the outlet are within sight of each other, you will need an assistant to tell you when the light goes off). Once you have identified the breaker that supplies power to this switch/outlet combination, mark it with a piece of tape, but for now, turn the breaker back on.

(It may be helpful at this point to identify any other devices that are on this circuit.)

Okay, now you need to find the circuit wires that supply this switched outlet. Chances are, you won't be able to follow the wires all the way from the breaker box to the switch and then to the outlet, because the wires are hidden behind walls, and you don't want to tear down your walls. But, if the wires run through your attic, you can still figure out which ones go where. You will need a circuit tester capable of detecting current through both insulation and sheathing.

Go up to your attic and look around for any electrical cables. A cable is a bundle of individual wires, wrapped in a plastic sheath. They may not be easily visible, but nailed to the sides of your ceiling joists and buried under home insulation. If you find such cables, that's a good sign - it means that the person who wired your house used the attic for running electrical cable. If you don't find any in the attic, he may have run the cable through the walls, and it's going to be a real pain in the butt to do this.

Once you have established that there are electrical cables in the attic, you need to identify which ones are part of your circuit. First go to the area of your attic that is directly above your switch. This is not an easy thing to do because you can't see the switch from the attic. But as long as you have a decent sense of direction and distance, you should at least be able to narrow it down to a small area. Start searching that area for electrical cables. What you are looking for is a cable coming up through a hole drilled through the top plate of a wall (a top plate is a 2x4 that stretches horizontally across the top of a wall, perpendicular to the studs). If you find such a cable, and you are in the right area, there's a good chance that this cable is coming from or going to your switch. There may be two cables coming out of that hole. If so, one is going to the switch and one is coming from it. But first we need to make sure that it is somehow connected to that switch.

Now you really need an assistant. With the breaker still on, and the wall switch on, check the cable for current with your circuit tester. If you have no current, then either your circuit tester isn't working, you're not using it right, or the cable is not connected to any active breaker. Check your circuit tester against another cable. If it still isn't working, you need to take it back to the store and get one that will. If possible, have someone show you how to use it.

Once you are satisfied that your circuit tester is working properly, check the cables again. First, you want to find a cable that has current. Then have your assistant turn the breaker off. If you no longer have a current, you know you are on the correct circuit. But, as mentioned before, there are likely two cables coming from this same hole in the top plate, one going to the switch and one coming from the switch, and you want the one coming from the switch. Of these two, the one that is heading in the direction of the outlet is most likely the one you want. But to check that, have your assistant turn the breaker back on (at which point, you will have a current again), and then turn the wall switch off. If you no longer have a current, this is the cable you want. Basically, the section of cable you are looking for will have current if and only if both the breaker and the wall switch are turned on. If either is turned off, there will be no current. (Note, if there is only one cable coming from this hole in the top plate, that is fine, as long as you can identify it as the one that is coming from the switch.)

Okay, so now you have identified the cable that is coming from the wall switch. It probably runs along the top plate of the wall to a location directly above the switched outlet, then runs down through a hole in the top plate to that outlet. You are going to splice this section of cable, somewhere in between the switch and the outlet. But don't cut anything yet. Look closely at the cable. Every 3-4 feet, there should be printing on the outside of the cable that tells you what kind of cable it is. If the cable is stapled down to the top plate, you may have to pry up some staples to look at the underside. What you are looking for is two numbers, separated by a dash. It may say 12-2 or 14-3 or something like that. The first number is the gauge of the individual wires (like the "gauge" on a shotgun, a smaller number means bigger, so 12-gauge wire is bigger than 14-gauge). The second number tells you how many wires (not counting the ground wire) are in the cable. (If the second number is a 3, stop here. You have a more complicated installation and the remainder of these instructions will not work.) The new cable you purchase should match the cable that is already in place. Most building codes require using 12-gauge or lower (lower gauge = bigger wire) wire. If your current wiring is 14-gauge, it may not meet the local building code, and even if it does, there is a potential fire hazard. But there's nothing you can do about that short of hiring an electrician to re-wire your whole house (and then another professional to repair all the walls that the electrician tears up).

So now you know what kind of cable you need. But how much do you need? On the section of cable that you are going to splice, find the point of that section that is located closest to the spot where you want to install your ceiling fan. With a tape measure, measure from that point to the spot where you want the fan. Measure along ceiling joists or top plates where possible, and, where that's not possible, measure in a line perpendicular to the joists (no diagonal lines). When you have the distance measured, double that distance, then add 5 feet. That's how much cable you will need. You can buy the cable by the foot in some stores, but it is generally cheaper (by the foot) to buy it by the box. Boxes come in multiples of 25 feet. Hopefully you won't need more than 25 feet. I would say forget about buying it by the foot and just buy a 25-ft box. That way, if you mess up, you have some extra cable to play with.

While you're at the hardware store, there are a few other things you will need. You will need two 2x4-inch electrical boxes, with "blank" cover plates and screws. By "blank" cover plates, I mean solid plates with no holes for switches or outlets. These boxes will be used for your splices and will not have any external controls or devices, so you want them completely sealed. I would recommend the plastic boxes with nails for attaching to studs or joists. They are less than a dollar apiece in most hardware stores, sometimes as cheap as a quarter. You will also need a box for mounting your ceiling fan. There are wide variety that can be used. If you want to mount your fan directly on a ceiling joist, there's a circular box that has a back side that is indented to fit around the underside of a joist. If you are mounting the fan between two joists, you can get a circular box that is mounted on a telescoping metal brace that can be nailed at both ends to two neighboring joists. But I don't think those things provide enough support for a spinning ceiling fan. What I would do in this case is just buy a standard plastic round box and cut a piece of 2x4 lumber to fit between two joists (later, after you cut your hole in the ceiling, you will nail your box to the 2x4 and nail the 2x4 to the two joists).

In addition to your three electrical boxes, you will need an assortment of wire nuts. Most of your connections will involve two wires coming from cables (even if they are 14-gauge, they will be bigger than the wires that go to the ceiling fan, which you don't really have to count). Now, "standard" wire nuts are color coded to indicate how many wires of different sizes they can hold. The yellow wire nuts, if standard, can easily accommodate two 12-gauge or 14-gauge wires (as well as the little wires from the ceiling fan) So make sure you have plenty (at least 10) of the standard yellow wire nuts. I would also get 2-3 red wire nuts, just in case, as well as 2-3 orange nuts and 2-3 grey nuts. Your best bet is to just buy an assortment pack, provided it contains plenty of yellow nuts.

You will also need some electrical tape - one roll should be plenty. And if you don't already have a pair of wire cutters, buy one. Get the needle-nose kind that doubles as a pair of pliers. And some cable staples (U-shaped nails, with points on both ends). And, if you don't already have one, a utility knife for cutting the tape and the cable sheathing. And both a flat-head and Phillips-head screwdriver, but I assume you already have those. Oh, and a pair of bolt-cutters would come in handy, but you can make do without it, so don't buy a pair just for this project. That's all I can think of for now.

Okay, you're back at home now with all of your supplies. Before you start doing any work, turn the breaker off. Now, go back to the attic, with all of your tools and supplies, and locate the section of cable you are going to splice. At this point, you need to notice whether the cable is running parallel to or perpendicular to your ceiling joists. If the cable is parallel to the joists, mark the point at which the cable comes closest to the ceiling fan (the point you measured from when you were trying to find out how much cable you needed). Then determine which direction the switch is from this point, and move 6-8 inches away from the switch and cut your cable right there. A pair of bolt cutters will cleanly slice through the entire cable, but if you don't have bolt cutters, you can still cut it. With a utility knife extended just to the first stop, carefully slice through the sheathing of the cable, parallel to the cable, for a distance of about 2 inches on either side of the spot where you want to cut the cable. Peel back the sheathing and hold it away from the wires inside and cut through the sheathing. Then separate the wires inside the sheath and cut them individually with your wire cutters. When the cable is cut, place a mark on the sheathing 6-8 inches from both cut ends (one of the wires will already have such a mark).

If the cable is perpendicular to the joists, you want to cut it somewhere in between the two joists, as close as possible to where your ceiling fan will be located. The cut doesn't have to be exactly in the middle of the two joists, but you should have at least 6-8 inches between the joist and the cable end, on both sides, to work with.

Now you need to install your two "splice" boxes. If the cable is parallel to the joists, you will mount the boxes on the same top plate that the cable is running across, or, if one is available, an adjacent joist. To find the exact location to mount the box, punch out one of the holes in the back side of the box and slide the marked end of the cable into that hole, pull it tight, and slide the box up the cable until the mark is visible inside the box. You should have at least 6 inches of the cable inside the box or protruding out the open end. Using the nails attached to the box, secure it to the top plate or to the joist. If securing to the top plate, you will have to turn the box sideways so that the opening is facing horizontally, toward the ceiling fan. The open face of the box should extend slightly out over the edge of the top plate so that you can attach the cover plate to the box securely with no interference from the top plate. If securing to the joist, the opening will be facing up. The open face of the box should extend above the top of the joist so that you can attach the cover plate to the box securely with no interference from the joist. Whether mounted on a joist or a top plate, the long side of the box will be parallel to the original direction along which the cable was running. For your other splice box, slide the other cut end of you cable into your other box and slide the box down the cable until you have 6-8 inches of cable inside the box or protruding out the open face. Secure this box to the top plate or joist the same as you did the other box. Then, for both boxes, use staple nails to secure the cable to the top plate or joist just before it enters the small holes on the back sides of the boxes.

If your cable is perpendicular to the joists, your boxes will be mounted on the two neighboring joists, with both of them between the joists, and as close to the top plate as possible. Nail your two boxes in position with the opening facing up. The open end of the box should extend above the joists slightly so you will be able to attach the cover plate securely with no interference from the joists. Push the two cable ends through the small holes in the back of their respective boxes and pull them tight through the opening of the box. Use staple nails to secure the cables to the joists just before they enter the back of the box.

Now, you want to peel back the sheathing from the cables that are protruding from your two boxes. Use a utility knife to slice the sheath as far as you can inside the box, being careful not to cut the insulation around the individual wires inside the sheath. Peel back the sliced sheathing and cut it off. You may also find some paper strips inside the sheath - cut that off too.

Now install the box for your ceiling fan. Cut a hole in the drywall ceiling just big enough to accommodate your box (you may want to cut this hole from below, so you know how it's going to look in your living room or bedroom, but you don't want it to be on a stud, so there is some degree of coordinating the hole cutting between both the attic and the down-stairs). Slide the open end of the box down through the hole in the ceiling until the opening is about halfway through the drywall. Hold it in place and set your 2x4 support on top of it, butting against the two joists. with a pencil, mark the edges of the box on the underside of the 2x4. Pull everything out and re-align the back side of your box to the marks on the 2x4 and attach it there with wood screws. Then slide the box back into the ceiling hole (from above), again to the point where the open end is about halfway through the drywall. The ends of your 2x4 should be butting up against the inside edges of your two joists. Put two nails through the other side of each joist and into the ends of your 2x4, securing it, and the box, tightly in place.

Now you get to use your new cable. Take the end of your new cable and insert it into one of the holes in the back side of one of your splice boxes (not the same hole that the other cable is going through). Pull it through the open side until you have 6-8 inches of cable inside the box or protruding through the open side. Secure the cable to the joist with a cable staple just before it enters the box. Now unroll the new cable in the direction of your ceiling fan box. Run it along the joist until it is even with the fan box. Pull the cable tight and secure it to the joist with a staple nail at that point. Then bend the cable in the direction of the ceiling fan box and stretch it about a foot past the leading edge of the box and cut it there. Push the cut end of the cable through one of the small holes in the back side of the box, as far as it will go. Then secure the cable to the underside of the support 2x4 as close as you can to where it enters the back side of the box. Repeat this procedure with another length of cable going from the other splice box to your ceiling fan box. Then go back along both of your new lengths of cable and secure them to the joists every 2-4 feet with cable staples.

Now go back to your two splice boxes and strip the sheathing off of the cables that are going to the ceiling fan box, the same way you did the other cables coming into those boxes.

Now you are finally ready to start connecting wires. First the splice boxes. The procedure is identical for both splice boxes so I will tell you only once. Match the wires up by color. You should have two each, black, white, and bare. (You shouldn't have any red wires - if you do, the second number on your wire type would have been a 3, and you should have stopped long ago.) Using a pair of wire strippers, strip the insulation off the last 1/2 to 3/4 inch of both black and both white wires. (If you don't have wire strippers, you can use a pocket knife to carefully cut through the insulation all the way around the wire, then pull off the insulation with pliers.) Using your pliers, twist the two black wires together in a clockwise direction. Squeeze the two tips of the wires together as tightly as possible. Slide the open end of a yellow wire nut over the twisted-together wire ends, push it tightly against the wires, and turn it clockwise as far as you can (use your pliers if you need to, but be carefully not to break the wire nut). Hold the wire nut in one hand and tug hard on each of the two wires separately with the other hand to make sure both are securely fastened inside the nut. There should be no un-insulated wire visible outside of the nut - if there is, you stripped too much insulation off. Then wrap electrical tape around the wires and the nut. (When wrapping connections with electrical tape, I like to fold the last half inch or so of the tape over onto itself so it doesn't stick to the connection. That way, if I have to go back and undo everything, I have a little "tab" I can pull to remove the tape. Otherwise, I would end up having to cut the tape off.) Repeat this procedure for the two white wires. Then repeat again for the two bare wires, except, since these two wires are entirely bare, you will have some un-insulated wire outside of the nut. Bend and/or fold all the wires inside the box until they are no longer protruding from the open face. Put your cover plate in place over the open face and secure it to the rim of the box with the screws provided.

Once you've done this for both splice boxes, you are ready go back downstairs and prepare your ceiling fan box. Strip the sheathing off of both cables as far as you can and cut off the excess. Then cut the ends of the individual black, white, and bare wires to 6-8 inches. Then, using wire strippers, strip the insulation from the last 1/2 to 3/4 inch of the white and black wires.

Now you are ready to attach the ceiling fan. Your ceiling fan should have come with instructions for installing it, and I don't want to contradict anything they say. However, I will tell you that ceiling fan instructions often assume that your fan will be installed at the end of a circuit, and therefore that you will have only one set of supply lines to deal with. But because you are installing this fan in the middle of a circuit, you will have two supply lines to deal with (one incoming and one outgoing). All this means is that, where your instructions say to connect the (one) black, white, or bare supply wire to something, you will actually have two supply lines to connect. Just twist them both together with whatever other wires are supposed to be connected. However, you may have to use a bigger wire nut than the ones that came with your fan, because you have more wires to connect. (That's why I recommended that you buy plenty of the yellow wire nuts.) Other than that, install your ceiling fan according to the instructions that came with it.

After everything is connected, go back to the breaker box and turn the breaker back on. Go back to the room where your celing fan is located and turn on the switch. If the ceiling fan doesn't come on, pull the chain. (If it still doesn't come on, you messed up somewhere.) If your ceiling fan has a light attachment, test it too. Finally, test the outlet and make sure that it works (it should only work when the switch is on).<><><>

As always, if you are in doubt about what to do, the best advice anyone should give you is to call a licensed electrician to advise what work is needed.

If you do this work yourself, always turn off the power

at the breaker box/fuse panel BEFORE you attempt to do any work AND

always use an electrician's test meter having metal-tipped probes

(not a simple proximity voltage indicator)

to insure the circuit is, in fact, de-energized.

IF YOU ARE NOT ALREADY SURE YOU CAN DO THIS JOB

SAFELY AND COMPETENTLY

REFER THIS WORK TO QUALIFIED PROFESSIONALS.

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Related Questions

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If you don't know, don't try it, it could be dangerous. You need an electrician to teach you.

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Why are you trying to rewire it? What's wrong that you're trying to repair? If the wiring is damaged, you'd do more than if it's just a worn out plug outlet.

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You first need to determine where the supply voltage is coming from. Black is hot and white is neutral. All the neutrals are connected together. The hot is switched. You need to get power to the fan wires and switch the hot side to the fan.

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Is better to turn off at the fuse box if possible.

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If your trying to plug in a 110 Volt lamp into 240 volt outlet the answer is simple. You must buy a step down transformer, or your lamp will burn out.

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how can i rewire my electric scooter? it's a razor e500

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using 18 AWG speaker wire to rewire a lamp

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Yes, if you rewire the bed and rewire the plug on the wall to 220 volts.

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The end sockets have to be rewired. The schematic for the rewire is on the ballast label.

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if you changed ur factory radio then they wont work anymore. you gotta probably go back to Mitsubishi 4 them to rewire stuff

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Go to Road Race Enginiering they have a page on how to rewire the CAS

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You rewire the outlet. The maximum voltage rating of devices comes into play here. A 120 volt device can only be used on voltages up to 120 volts as per the manufactures specifications. These maximum voltage ratings come from regulations that state there can only be certain minimum distance clearance between live parts. These minimum clearances become greater as the voltage level increases. This is why you would have to change to a 240 volt rated device if you supply 240 volts to it.

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Most switched outlets have one half that's hot all the time. If that's the case it will be as easy as changeing the outlet. In the center of each side of the outlet there is a small piece of copper connecting the two screws. Look and see if the copper piece is broken on the hot side, if it is then replace the outlet using the constant hot. Cap off the unused wire from the switch. If both sides of the outlet are switched then you can remove the two wires from the switch and tie them together. then either replace the switch and have a dummy or put on a blank cover. You should be all set.

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No problem. But watch the wattage on the bulbs. The heat is going to go the opposite direction. And the lamp is ment to be in the opposite stress position so that it could be much less stable than when sitting. But wiring wise it is the same, just wire the two wires in the ceiling to the two on the lamp. And there may be issues with code requirements. Overall it is better to be safe than sorry and use a lamp designed for the ceiling.

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You don't. Electric devices like outlets have voltage and current ratings that should not be exceeded. Also, the 240V would have to be run from the main panel and may require a different size wire depending on the current required.

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Open up the ceiling box and disconnect the blue wire coming from the light and connect it to the black wire coming from the fan. Be sure and put a wire nut on the wire where the light was connected before you removed it. The wall switch is controlling power to the wire where the fan is connected so when you connect the blue fan wire to that connection you will be sending power to both the fan and light from the wall switch.

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Unless the ballast is a multi tap primary you can not rewire it for 220 volts.

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You would need to rewire it at the breaker box, and switch it from a single pole breaker to a double pole breaker. But when you do, all outlets and lights on that circuit will carry 240 volts. Best thing to do is run a new wire to the outlet you want to carry 240 volts. Put it on it's own circuit with the proper size breaker. I advise you to call an electrician unless you know what you are doing.

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This is virtually impossible, as 210 is coming from the main fuse or breaker box from a 220 breaker or fuse. In order to do this you would have to start at the breaker or fuse box and rewire the breaker or fuse for the 110 outlet. otherwise this project will be impossible to complete without having risk of fire later. When 220 is run it is run alone and not intertwined with 110. 220 is double 110 output and will cause problems if not switched over to 110 properly. Use 110 wire and start at the breaker or fuse box. Most newer houses or electrical have breakers. Hope this helps. To do this correctly, you need to remove one of the hot wires and wrap both ends with white tape and reconnect it to the common strip in the panel.(220 is created by two 110 circuits out of phase) Replace the 220 outlet with a 110 outlet and wire it just like any 110 outlet. If you are lucky, the 220 outlet may already have 4 wires (2 hots, 1 common, 1 ground) in this case all you need to do is remove one hot and wire up the new 110 outlet. Insulate any bare wire and be sure the power is off before you start.

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If Available you buy the correct Wiring Harness.

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The best way is to replace. Get same type of wire from a hardware store &amp; you can buy the ends as well-the rest is easy. Splicing the wires is a fire hazard. If it reaches the outlet, a new plug end is the easiest way to go.

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Its possible if you rewire it correctly

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He do you splice and rewire an iphone4 cord


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