7 Attachment(s)
Installed the MSD ignition coil wires and heat protect "booties". These were a pain as I wasn't sure the best way to install the booties - they wouldn't slide over the plugs very easily
Also didn't find the plug wire connections to be very positive. On other cars, the wires make a nice *click* when you push them on. One the spark plug side especially, I had to remove and reinstall a few times until I was sure they were on all the way. Guess the first fire up will tell... They also seem a bit longer than needed but not causing any issues here Attachment 8754 Heat shield for the PCM Attachment 8755 Still room for plug wires and shield to live together over here Attachment 8756 Amazingly, I didn't need to make any modifications to make the Miata throttle cable work. At the TB side, looks almost stock to me Attachment 8757 Here's how it routes from the firewall, just along the coil packs... Attachment 8758 ...and then makes an S-shape on top of the engine Attachment 8759 Tested the pedal and due to the tunnel widening there is some touching of the pedal to the tunnel. No evidence of the pedal sticking but might not be worth the risk, so I may pound out the tunnel a bit here. Attachment 8760 Made some final adjustments so that the "stop" on the pedal adjustment does its thing before the throttle is wide open so there is no stretching of the cable if you are pushing the pedal at WOT. When the pedal is in normal position, so is the throttle plate. Any final adjustments can be made once the engine is running and things start to "loosen up". Still amazed that the cable just WORKS. |
Pictures no worky!!!
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Originally Posted by wcw5023
(Post 22272)
Pictures no worky!!!
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I looked at this thread a few times in the past few days and they've always worked for me.
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This is a great read, plenty of V8 Miata content:
Miatagasm |
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Since the PCM now inhabits the area where the washer bottle was, I needed a relocation solution. Flyin Miata sells the alternative washer bottle:
https://www.flyinmiata.com/suzuki-ca...er-bottle.html Last I had checked this bottle was about $130 I think, but they seemed to have lowered the price by half (!) to $70 as of this post. There were and still are a lot of cheaper options for the same thing from overseas. I ordered mine from https://www.amayama.com/en/genuine-catalogs using part number 3845080F00. The price shipped was $46 and I got it within a week or two from Japan - not too shabby. Attachment 8750 The oem motor fits right into the new bottle. The bottle is designed to fit in the cowl/drain area of the Miata. Capacity seems to be about the same. Strangely the picture on the FM site of this bottle shows it mounted with low point on the bottle where the motor sucks up washer fluid sitting too high in the picture. Any remaining fluid in the bottle will not get picked up very well. Maybe it’s me, or that bottle was shown for example purposes and not actually installed. Anyway, I fab’d up some aluminum brackets to withstand the weather and will very securely mount the bottle in place. I extended the wiring to reach the new location. We will see once the hood is mounted if there are any clearance issues with the bottle or harness connector. The rubber hose might also reach, if not I’ll just extend it as well once the hood is installed. Seems like a nice option to clean up the engine bay in any case. Attachment 8751 Attachment 8752 Attachment 8753 |
Everything looks great, you might want to add a wire loop at the bolt and another nut to secure the wires.
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I was able to sort out the intake situation pretty cheaply using some pieces from Silicone Intakes Intercooler Pipe Fabrication
Here was my order: 1 x Silicone Reducer, 90° bend - 4.0" to 3.5" - Black (BRE000958) = $19.99 1 x 3.5" Silicone 45° Elbow, Black (SIL000408) = $19.99 1 x 1' Straight Aluminum Pipe, 3.5" (SIL000279) = $14.99 1 x Dual-Cone Air Filter - black, 3.5" inlet (AIR002008) = $14.99 You may want to measure the O.D. of your throttle body or MAF sensor plate for the right match. The 4” end of the 90° bend is not a perfectly snug fit on the throttle body, but with a hose clamp on it I think it will hold fine. Unfortunately the 90° bend was not a perfect 90° either, more like 80°. When I brought this to their attention, they refunded the cost of the $20 piece from my order. Made the total price of this kit pretty reasonable ($50 + shipping). Next challenge was to adapter the IAT (air intake temp) sensor to the intake. I picked up the correct two wire sensor and grommet from Amazon. Some later LS engines might have a 3 wire sensor or have the IAT integrated into the MAF sensor. The IAT sensor (ACDelco 213-243) https://www.amazon.com/gp/product/B000C9JQVS Grommet (Part# 14054892) https://www.amazon.com/gp/product/B00266IC06 The grommet is pretty important to create an airtight seal to the intake tubing an also space the part of the sensor so that it sits in the air stream at the right height. Fitted up the silicone bends and MAF sensor to see where it put me: Attachment 8741 After some measurements, I only needed about 6” of the 12” section of aluminum pipe to place the air filter in the right spot. Flyin Miata seems to think that putting the air filter near the shock tower works the best. I’ve got my bandsaw setup with a metal cutting blade already, which will help me down the road shortly with my exhaust system. Made some marks and cut it in half. Attachment 8742 Cut a hole in the aluminum pipe with my big step drill Attachment 8743 A hole of an appropriate size Attachment 8744 Installed grommet Attachment 8745 Installed the IAT. Needed to use the heat gun a bit on the grommet to loosen it up and slide the IAT in Attachment 8746 Attachment 8747 Final install Attachment 8748 Attachment 8749 |
Originally Posted by john j
(Post 22479)
Everything looks great, you might want to add a wire loop at the bolt and another nut to secure the wires.
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4 Attachment(s)
Still making progress on the build. Alot of the wiring is done, so I'll write up a post that goes over in pretty good detail my thoughts on the wiring stuff. I have to make the fuel pump relay connection and the car *should* start. I also want to verify I have oil pressure before I start it as well.
I was able to turn the engine over a few nights ago. At first I had nothing when I turned the key but I ultimately traced the problem to bad connection at the starter solenoid. I used the LS1 connector, but it seems the metal contact inside the connector was slighly bent out of shape, and was not making contact with the single pin on the solenoid. It's a tight fit with the oil pan dipstick there. I have a shorter starter than stock to clear the headers, so I'm wonddering if this tight clearance is normal. If the starter was 1/4" or more longer at the solenoid, I'd need to move the dipstick to get the starter solenoid connection plugged in. Other than that, I also bypassed the clutch interlock so that I could turn it over w/out sitting in the car - since I don't have seats installed. I verified there were no strange noises from the engine as I cranked it, as I had not been able to do this in the almost year I've had it. No blown fuses or strange smells, etc. I decided to fill up the engine with various fluids.
Attachment 8737 Attachment 8738 Attachment 8739 Installed the T56 shifter to keep the gear oil sealed in there. New shifter boot since I tore the old one during the engine removal WAYYYY back in September. Attachment 8740 |
8 Attachment(s)
In preparation for the engine startup I decided to work on the exhaust system. Most of the work I do on the car right now is during weeknights so I didn't want to wake the dead with the first startup. :firedevil:
So far this has been going swimmingly. The result of two nights and 6 hours of work: Attachment 8729 I'm using the 2.5" Summit Racing Universal Rod Builder Exhaust Kit SUM-670146 https://www.summitracing.com/parts/SUM-670146 The crossover pipe is a Flowtech Universal Off-Road X-Pipes 53620FLT https://www.summitracing.com/parts/BIG-53620FLT I would like to do something in stainless, but I don't have a TIG welder. This is my first exhaust, so MIGing a regular steel exhaust seemed like the natural step. The car will be a fair weather car, kept garaged, etc. so I'm not worried about it lasting over time. I will be coating it with some exhaust paint once it's all done. The car will be registered as a Modified vehicle in Pennsylvania, so there are no Emissions restrictions and some guidelines around limited usage b/c of lack of emissions requirements. So there will be no catalytic converters on the car. Sorry for the lack of detailed pictures on this step, I think things were moving along so quickly that I forgot. I started on the driver's side with a large straight pipe from the kit and then eyeballed two bends to zig-zag to line up with the half round cutouts on the trans crossmember. I used a carpentry angle finder gauge to get a rough idea of what angle I needed and where I needed it on the pipe. I then made some pie cuts on the pipe to make the bend. The metal cutting blade on my bandsaw didn't seem up to the task and I didn't feel like forcing it, so I reverted to using a large metal cutting blade in my grinder. Once I was happy I tacked the pipe together on the ground and reinstalled it. You can see in these pictures I used a clamp to hold it in the right position against the crossmember. Attachment 8730 Attachment 8731 On the pass. side I started at the crossmember by making a little zig zag around the transmission towards the front of the car. Then I clamped it in place to fit up the crossover pipe. I just used the 45 degree pieces from the kit to meet up with the crossover pipe on either side and cut them at the right length to line up. What's nice with the slip joints is that depending on how tightly you push them together, you can still rotate them and wiggle them to get a 1/8" or 1/4" sometimes of movement so you line up with other pipes. Welding the connections together will seal up anything that doesn't perfectly line up. To finish up the pass. side and meet up with the header required a bit more thought. I took one of the 90 degree pieces from the kit and marked off the pipe in sections at 45 degrees, 22.5, etc. I just used some cardboard to bend around the inside and outside curves and made markings on the cardboard at the halfway points, and then worked my way down until I had the smaller sections marked off. Attachment 8732 Attachment 8733 This is after the cut was made, using the angle finder and a machinist square to judge where the cut line would be that would match up with the angle I needed. Attachment 8734 If the cut was square to the pipe you should not see any gaps when a normal section of pipe is fitted up Attachment 8735 I measured what I needed for the short straight section of pipe and made sure it all lined up. It did, so I tacked it in. If you put at least 3 or 4 tacks around the pipe in a butt connection, it shouldn't move at all I've found. Attachment 8736 That was enough doing geometry and welding on my back for one night, so I called it quits and pulled the exhaust system off the car for a full welding of the joints tomorrow night. Trying to take advantage of some warmer weather the last few days. I like how things look for getting the pipe around the differential, as I had intentionally tried to get the diff is high up as I could for clearance reasons. It's pretty much a straight shot back to the diff and then a 45 degree up to meet up with whatever mufflers I decide to go with. I'll work on exhaust hangers later as well. |
Thanks for doing a well detailed install with lots of pictures. It will be extremely helpful once I get a drivetrain bought and cleaned up.
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I definitely like the build notes and pics of the exhaust work. Pipes are looking good and well thought out. Very cool.
Continue... |
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One thing I forgot to post was how I did the heater hose connections. I did some research and found some hoses that I think worked really well for the ls swap applications.
It mainly consists of molded bends that come off the water pump and heater box to allow some clearance with the frame of the car or engine, and also the right diameter for the outlets. You can then swivel these to fit your swap, and all are reasonably priced pieces. This was used on the right side, water pump inlet: ContiTech 1027AMZ8653 Left side, water pump outlet: URO Parts 64 21 1 394 292 Heater Hose Then I used two 90 degree molded heater hoses of the right diameter to come off the heater box connections: Gates 28466 90 Degreees Molded Heater Hose To help with the connections between the heater box and pump, I used four of these. I went in favor of brass as I didn't feel comfortable adding plastic to the system for longevity. They do make plaster heater hose couplers, which would certainly work fine here Anderson Metals Brass Hose Fitting, Union, 5/8" x 5/8" Barb The heater hose itself: Gates 28491 5/8 Inch Polybag Heater Hose The LS water pump connections are: Inlet on the right, towards front of the car Outlet on the left Miata heater box connections are: Inlet on the left, passenger side Outlet on the right, driver's side The final product installed: Attachment 8726 Attachment 8727 Attachment 8728 |
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Still plugging along, with the finish line in sight.
Motor runs, though w/out any o2 sensors. I'll post a proper video of it when I can get some good video over the weekend. Getting some light lifter ticking but never really gave it a chance to warm up. Exhaust is done and fitted. I have some Flowmaster Super 40s I borrowed from a friend that I've tested. Seems loud but that was with no clamps on them and the exhaust not fully welded. Pretty happy with the way it turned out. Getting the final bends around the diff and rear subframe brace was a bit of work. I would recommend anyone doing this to buy a decent metal chopsaw. My bandsaw and blade were not up to this task, and using a cutting wheel worked ok, but doesn't guarantee decent square cuts. Good square and accurate cuts will make your life and welding much easier. First startup was very loud and produced some evil looking smoke out of the pipes Attachment 8719 Bulk of the system is painted Attachment 8720 pieces that go around the diff Attachment 8721 Rear subframe brace was used to make the exhaust hangers and was repainted Attachment 8722 Closeup of DIY hangers. I used some 1/2" rod (I think) and some older rubber mounts from my Subaru. Then once I had the position right for the donuts I welded little beads on the hanger to keep the donut in place. Obviously don't do this with the rubber mounted Attachment 8723 Attachment 8724 Found a good place for the o2 sensor bungs and welded them in Attachment 8725 Will have final pics once all buttoned up I'll be posting much more on the whole wiring setup as I complete that. I have 15x9 6ULs in Tungsten with Toyo Proxes R1R 225/45ZR15 coming to me soon from Flyin Miata. They sell wheel/tire packages which are a good deal vs buying separately I think. Many places were out of stock on the 6ULs. A fender roller should arrive in the mail by the weekend and they might need massaging Was also able to do any final application of seam sealer under the car and on other spots. Then installed the fenders and the hood. I needed to tweak the oil dipstick tube a bit for hood clearance and dent the hood for sufficient clearance for the oil filler neck and the clip that holds the hood prop. Car is looking like a car again from the outside. On the interior I have the carpet, dash and center console back in. I have some new ebay rear deck and wall carpet coming as the original ones were pretty faded and beat up. Need to finish wiring CEL for the dash, OBD connector wires and some other little stuff on the inside, as well as the airbags and steering wheel, seats, etc. |
Nice update! What diameter exhaust tubing is that?
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2.5" pipe. This was the Summit Racing Universal Rod Builder Exhaust Kit
SUM-670146 https://www.summitracing.com/parts/SUM-670146 I also used their bungs: WLK-88103 Fitting, Bung, Weld-In, Oxygen Sensor, Female 18mm x 1.5, Steel, Each (Mfr. #: 88103) One comment on the crossover, I liked the crossover pipe that creates an X-shape, vs. those that are more like an H-shape. You can make fewer bends in my opinion with the X-pipe. Since each pipe comes off the X at a 45 degree angle, you just need another 45 degree pipe to make another pipe that will end up straight with the body of the car, front to back. Also you can just shorten your 45 degree pipe to adjust whether you want both pipes coming off the X-pipe to be closer or farther from each other. Hope that makes sense. |
Thanks for the info. I'm curious to see it all mounted up in the car with the hangers. I've just started thinking about how I want to mount the hangers, but I like your solution!
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Originally Posted by acedeuce802
(Post 22804)
Thanks for the info. I'm curious to see it all mounted up in the car with the hangers. I've just started thinking about how I want to mount the hangers, but I like your solution!
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Great write up and pics. I'm interested in how you are hanging the mufflers.
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Originally Posted by darkblue
(Post 22814)
Great write up and pics. I'm interested in how you are hanging the mufflers.
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12 Attachment(s)
For some reason Youtube is not liking my uploads tonight, so not able to post video yet of the engine running. But it does sound badass.
Here are some random pics of the exhaust hanging situation: Attachment 8707 Attachment 8708 Attachment 8709 Attachment 8710 Attachment 8711 Attachment 8712 Attachment 8713 Attachment 8714 Attachment 8715 Attachment 8712 Seems like I'm not getting a full seal on the exhaust clamps: Attachment 8717 It should look like this: Attachment 8718 The two exhaust hangers I have now are enough to hold the system in place happily for now, even with the mufflers installed. I'm using FlowMaster Super 40s in 2.5". I'm not going to do any muffler hangers for now until I decide what I want to use and will then weld in some hangers using the stock locations where possible. |
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With the engine running now there are a few issues I need to address:
- The cooling system was literally being "pissy" with me. The coolant reservoir overflowed once the temp gaug hit 12 o'clock. Might be that the thermostat is not opening. What a shock to have finicky thermostat on a car that hasn't been run in awhile :vash: - I couldn't get my bluetooth OBD reader to work. So not sure if it was the reader (which was cheap) or if the port was not functioning. I got a CEL shortly after the car was running so I know the PCM is able to throw codes, and the dash CEL was working. :-) - Engine idle seemed high at 1000 or above. Need to verify using the OBD port that the PCM idle reading is matching the dash idle reading This was my clearance with the accessory belt and the existing thermostat housing flipped around towards the radiator. It ran fine with no rubbing but I knew this wasn't sustainable. Attachment 8705 So I had to go all out on this one. I could have just flipped the thermostat back to it's original location facing away from the radiator, and reconfigured my hoses. I liked the way my hoses were routed so I researched another thermostat housing that might give more clearance and went with this one: CSR 912LS1-1.5: 90° Swivel Thermostat Housing - Clear Chevy LS* | JEGS and the matching thermostat: JEGS Performance Products 53220: HP Thermostat Pre-LT1 GM, Ford, AMC | JEGS Yeah, I know, the price is a bit ridiculous. But as far as clearance it will do the job: Attachment 8706 |
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In order to make the muffler fit easily I decided to remove the rear tie down points. I'm hoping I don't regret this in the future, but you can always use the rear subframe to tie the car down. <<Update from the future>> Removing these will prevent you from using some trailer hitches that bolt in between these mounts. But Bethania Garage/Hard Dog sells a Class I hitch that mounts to the bumper mounts - this worked great for me.
These are pretty bulky and really not in a good spot if you are trying to do a dual muffler setup. Plus I lost about a few pounds in the process. My fear was that I'd put alot of effort into routing the muffler around it, only to have rubbing or clunking from the rear in high G corners. Just some work with a grinder and big hammer to knock them out, and touched up the bare metal with some black paint. The hunk of metal removed Attachment 8702 The cutaway area Attachment 8703 Alot more room to fit this muffler or another one Attachment 8704 |
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One thing I tried to put a little thought into was the emissions/fuel tank vent situation.
Since I had the room I decided to install the charcoal canister in the stock location. There is some tight clearance with the passenger side exhaust pipe: Attachment 8701 Starting at the top of the fuel tank my thought was to remove the tank pressure check valve (TPCV) since there is no longer any control signal coming from the Miata PCM. Though I'm not sure it gets a PCM signal, maybe it just needs power to open when there is enough pressure from the tank pressure sensor? I would also remove the check valve between the charcoal canister and the air filter underneath the car. There won't be any line running to the engine to burn off gas fumes so that could be left open to the air using the port on the charcoal canister. Curious what others are doing. |
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