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Identification of Kohler K-series and Magnum Single Cylinder Engine Cylinder Heads
Cylinder heads for the AIR-COOLED Kohler engine models K141, K160/K161, K181 and M8 -
The cylinder head used on Kohler K-series engine models K141, K160/K161, KV161, K181 and Magnum M8. The first air-cooled head was introduced in 1952 on the K141. Being there are 14 different part numbers for these heads, they are virtually the same with very little difference. The OEM Kohler part numbers for these heads are: 230402-S, 230403-S, 230990-S, 231200-S, A-230770-S, 41 015 01-S, 41 015 02-S (most common), 41 015 04-S, 41 015 06-S, 41 015 07-S, 41 015 08-S and 41 015 09-S. These heads are discontinued from Kohler. These heads should not be milled to raise the compression in an attempt to increase engine power output because the valves are already very close to the head when they are at full lift. All that can be done to these heads is resurface it on a wide, flat belt- or disc-sander/grinder to remove any warpage and restore flatness to prevent a blown or leaking head gasket. Remember - always wear a face mask or air respirator mask to prevent from inhaling the sanding and aluminum material, and do the repair job right the first time and it won't have to be done again for a long time.
Cylinder heads for the vintage LIQUID-COOLED Kohler engine models L160/L161 and L181 -
The vintage Kohler engine models L160/L161 and L181 are a liquid-cooled version with the same combustion chamber as Kohler's air-cooled engine models K141, K160/K161 and K181. Just like with most automotive engines, these liquid-cooled engines require anti-freeze/water mix with a water pump and radiator to maintain the engine operating temperature. The L160/L161 and L181 engines were obviously used in extreme heat desert-like conditions for long periods of time to prevent overheating of the engine. The liquid-cooled Kohler engine model L160/L161 with specification numbers 4149F, 4150F, 4152E, 4166F, 4167F, 4168E, 4168G, 4168H, 4173E, 4192E, 4194F, 4195F, 4199G, 4199H, 41101F, 41109F, 4110F, 41117F, 41131F and 41137F are listed as generator (power plant) engines, and the liquid-cooled Kohler engine model L181 with specification numbers 42583H, 42594H, 42597H, 42626H, 42723H, 42745H, 42746H are also listed as generator (power plant) engines. These are very rare engines. Go here to see a complete Liquid-Cooled Kohler L160/L161 or L181 Engine. If anyone have information or additional photos regarding these engines that they would like to share in this website, please let me know and I will post it/them in this article with your name for full credit.
The First Generation Cylinder Head -
This cylinder head was manufactured by Kohler from the early 1960s until 1971 and was available only on engine model K241 before engine serial number 3184999. It has a heart-shape and wedge-contoured combustion chamber and is now known as the high compression, "LP head." The spark plug is centered in the combustion chamber. This particular head was originally made for and came on the very early K241 engines. It'll also work on the Magnum engine model M10, M12 engines and the early K321 engine with a 1-1/8" exhaust valve. But being the later K321 engines have a larger exhaust valve (1-3/8"), the exhaust area in the head would need to be machined out for use with the bigger exhaust valve. And because of its high compression ratios, if this head is used on a K301 or K321 engine, Premium, race gas, E-85 or methanol fuels must be used, or the engine will overheat and wear out prematurely. The compression ratio is 7:1 when used on a K241 and M10 and 8.6:1 when used on a K301 or M12. If this head was used on a K321 and M14, it would yield a 9:1 compression ratio. And LP heads did not come on nor will they fit the K341 engines. This head requires 2-1/4" length bolts with no mounting bracket(s) under the bolt, and 2-1/2" length bolts with [gas tank] mounting bracket or other bracket(s) under the bolt. And due to early technology and design of the combustion chamber, the majority of the expanding gases or combustion pressure is placed over the valves instead of the piston, resulting in lower engine performance. The number embossed on this head is 235461. Cub Cadet part # is IH-385303-R1. It is no longer available from Kohler or new from any other source.
This Kohler cylinder head with the numbers 235461 embossed in it is designed for the K241, K301 and early K321 engines with the small (1-1/8") exhaust valve. To use this head on a newer K321 engine with the larger (1-3/8") exhaust valve, the valve shrouding area in the head will need to be milled out for adequate clearance.
NOTE: This particular head was originally designed many years ago ONLY for the K241 engine because these engines have low compression due to their small bore and short stroke. The only reason anyone would put one of these heads on a bigger engine today is to attempt to get more power out of it. Also, people found that the LP head worked better than a newer low compression head on an engine burning liquefied petroleum (propane) gas. LP gas is a high octane fuel (about 110-115 octane). Therefore, it burns more thoroughly and produces more power in a high compression engine. That's why these heads are known today as the "LP head." Also, the LP head, when used on any size engine including the K241, have been known to cause detonation (pinging) nowadays even with 93 octane Premium gas. That's why Kohler stopped making them. They replaced them with the "dished" head. Ê However, high octane race gas, E-85 or methanol fuels can be safely used with the LP head.
If you want to use an LP head on your engine, the genuine OEM Kohler LP head is no longer available from Kohler or any other source. They haven't been made since the early 1960s. They were discontinued when the K301 engine came into production, because this engine requires a lower compression head. So if you need an LP head, remember, they came only on the very early K241 engines equipped with the starter/generator and no indention on the side of the block for the upper mount gear starter. But if you can't find an LP head at all or for a reasonable price, what you could do is cast an aluminum head just like the LP head. A Kohler-replicated LP head can be CNC-machined from billet aluminum, but if you prefer a head that's close to the genuine product, first, you'll need an OEM LP head in good condition to use as a mold or pattern. For more information on this subject and a how-to video, click here: Melting Cans With The Mini Metal Foundry - YouTube.
The Second Generation Cylinder Head -
The second type of head manufactured by Kohler has a heart-shape and a depression area in the combustion chamber. It has improved technology over the earlier LP head. Kohler engine engineers made the depression area for a special reason and it helps engines to produce more torque and horsepower than the LP head at any RPM. This head was installed on Kohler's K241 and K301 engines, before the K321 engine went into production. It's a good head. It flows good and with increased compression. The "hump" directs the incoming air/fuel toward the piston at higher RPM.
Unlike the sought-after, but misidentified LP head, the depression area places the majority of the expanding gases or combustion pressure over the piston instead over of the valves, which produces more engine power and torque. The spark plug is centered in the combustion chamber. It was lowered in compression and was made for both the K241 and K301 engines, but would not work on the K321 or M14 engine because of its' larger exhaust valve (it was manufactured before the K321 engine went into production) unless reduce the size of the exhaust valve on a K321 to a 1.125" (same as a K241 and K301) This can be accomplished by installing a valve seat insert in the block for the smaller valve. By the way - this type of head is not officially a "high compression head" because it has a depression in the combustion chamber. It is however, 'slightly higher' in compression than the newer style heads, but it's not a "high compression" or even an "LP head," but the next best to it. The compression ratio is 5.4:1 when used on a K241 and 6.6:1 when used on a K301. If this head was used on a K321 (the exhaust circumference area would need to be machined larger), it would yield a 7:1 compression ratio. By the way - Kohler no longer makes this type of head.
NOTE: The older head like this has the tall bolt hole bosses. And the newer head with the same combustion chamber and spark plug location have the bolt hole bosses lowered in the head. The shorter bosses allows air from the flywheel pass through the fins on the head with less blockage/restrictions for better cooling with less head warpage. The early heads with the tall bolt holes with no mounting brackets or plates under the bolt heads require 2-1/4" length bolts, and engines with a [gas tank] mounting bracket or other brackets/plates require 2-1/2" length bolts. The head with the recessed bosses require 3/4" tall spacers on the head bolts (and longer bolts) when using a gas tank bracket or other kind of mounting bracket. The reason Kohler redesigned the head with low bosses is so more air can flow over the head bolts instead of around the bosses for better cooling of the head.
The Third Generation Cylinder Head -
The third head manufactured by Kohler has a low compression (depressed) D-shape combustion chamber. And unlike the sought-after, but misidentified LP head, the depression area places the majority of the expanding gases or combustion pressure over the piston instead over of the valves, which produces more engine power and torque. The spark plug is centered in the combustion chamber. It'll work on the K241, M10, K301, M12, K321 and M14 engines because the exhaust valve area was made bigger. (It was manufactured when the K321 engine went into production.) The compression ratio is 5:1 when used on a K241 or M10, 6.1:1 when used on a K301 or M12, and 6.6:1 when used on a K321 or M14. This head requires 1-1/2" length bolts. The reason Kohler lowered the bolt hole bosses is to allow more air to flow over the fins for better cooling of the engine. By the way - Kohler no longer makes this type of head either. If you want to use one of these, look for a good used one. They came on the later model K241, K301 and K321 engines. OEM Kohler part # 237827-S.
NOTE: The older head like this has the tall bolt hole bosses. And the newer head with the same combustion chamber and spark plug location has the bolt hole bosses recessed in the head for better cooling. The early heads with the tall bolt holes with no mounting brackets or plates under the bolt heads require 2-1/4" length bolts, and engines with a [gas tank] mounting bracket or other brackets/plates require 2-1/2" length bolts. The head with the recessed bosses require 3/4" tall spacers on the head bolts (and longer bolts) when using a gas tank bracket or other kind of mounting bracket. The reason Kohler redesigned the head with low bosses is so more air can flow over the head bolts instead of around the bosses for better cooling of the head.
The Fourth Generation and Newest Style Cylinder Head -
The newest style head manufactured by Kohler is much like the previous one, but has the spark plug located directly over the exhaust valve. There are two reasons why Kohler did this:
Again, unlike the sought-after, but misidentified LP head, the depression area places the majority of the expanding gases or combustion pressure over the piston instead over of the valves, which produces more engine power and torque. The compression ratios and mounting bolt lengths are the same as the previous head. By the way - these type of heads are available from Kohler and are the newest ones made. They come on Magnum engines, too.
By the way - the Chevrolet V8 performance racing cylinder heads have the spark plug tip moved toward the exhaust valve for improved performance. It works. The plugs are angled so the tip is closer to the exhaust valve, and so the porcelain part will clear the exhaust header pipes. There's no reason to angle the spark plug in a Kohler head.
NOTE: The fourth generation head will interchange on the K241, M10, K301, M12, K321 and M14 engines. It doesn't matter about the spark plug location, except for pulling purposes. For pulling, it's best to have the spark plug directly over the exhaust valve. The only exception is the very early K241 "LP" head. It has a smaller combustion chamber which will allow the engine to have a higher compression ratio, and shouldn't be used on the K301, M12, K321 and M14 engines for general yard work. It should be used for pulling purposes only using high octane gas, E-85 or methanol fuel. The reason for this is because the compression will be so high, the engine will run too hot for low octane gas, and severe damage to the engine may result.
The Kohler Engine Models
K341 and M16 Cylinder Head -
The K341 cylinder head is separate from the heads above. This head has the depression and D-shape combustion chamber. It has the spark plug located directly over the exhaust valve. The compression ratio is 7.4:1. It requires 1-1/2" length bolts. And there are no "LP" type K341 cylinder heads. And ALL K341 and M16 cylinder heads have the spark plug located over the exhaust valve. No exceptions. OEM Kohler part # 45 015 03-S, 45 015 04-S, 45 015 06-S or 45 015 09-S. This head too, has the spark plug located directly over the exhaust valve. There are two reasons why Kohler did this - 1: It prevents cold-starting incoming raw fuel from fouling the spark plug; and 2: It helps to produce more engine power and torque when under a heavy load by retaining the majority of the combustion heat in one area.
The Kohler Engine Model K361 Cylinder Head - (Updated 10/5/22) The K361 cylinder head is in a class all by itself. This particular valves-in-head is installed on the K361 Over Head Valve (OHV) engine, which was manufactured from 1969 to 1978. There are 12 different variations (specification numbers) of the K361, but are all basically the same. All K361 engines are of the AQS "Quiet Line" models, and have the wide base/flange block with a wide/rectangular-shape 2 quart capacity oil pan. This engine can be converted to a narrow base block for use with the narrow base oil pan (to use in an IH-built Cub Cadet garden tractor). This particular engine was ahead of its time. It's a well-built and very durable engine. The K361 was installed mainly in Power King garden tractors. (More information coming later.)
Kohler Cylinder Head Identification and Cub Cadet Applications: Kohler K-series engine model K241. OEM Kohler part # 235461, Cub Cadet part # IH-385303-R1. LP head; Discontinued Originally came on the 1965 and earlier Cub Cadet model 100, and other makes and models of garden tractors and small engine equipment. Requires 2-1/4" length bolts (Kohler part # 271077 - Discontinued from Kohler) with no mounting bracket(s) under the bolt head, and 2-1/2" length bolts (Kohler part # 235175-S) with [gas tank] mounting bracket or other mounting brackets/plates under the bolt head. Kohler K-series engine model K241. OEM Kohler part #'s 236546-S. Either head originally came on various Cub Cadet models 100, 102, 104, 105, 106, 107, 108, 109 or 1000, and other makes and models of garden tractors and small engine equipment. This head is no longer available from Kohler. Requires 2-1/4" length bolts (Kohler part # 271077 - Discontinued from Kohler) with no mounting bracket(s) under the bolt head, and 2-1/2" length bolts (Kohler part # 235175-S) with [gas tank] mounting bracket or other mounting brackets/plates under the bolt head. Kohler K-series engine models K301 and K321. OEM Kohler part #'s 237670-S (Discontinued from Kohler; or 237827-S. Either head originally came on various Cub Cadet models 122, 123, 124, 125, 126, 127, 128, 129, 147, 149, 680, 1200, 1250, 1282 or 1450, and other makes and models of garden tractors and small engine equipment. Both heads require 1-1/2" length bolts, w/centered spark plug). Kohler K-series engine model K341 (including M16 Magnum engine). OEM Kohler part # 45 015 09-S. Originally came on Cub Cadet models 169 and 1650, and other makes and models of garden tractors and small engine equipment. Requires 1-1/2" length bolts (OEM Kohler part # 25 086 115-S), w/offset spark plug hole. Kohler Magnum engine model M10. OEM Kohler part #'s 237670, 47 015 05-S. Originally came on Cub Cadet model 1050. Requires 1-1/2" length bolts (OEM Kohler part # 25 086 115-S), w/offset spark plug hole. Kohler Magnum engine models M12 and M14. OEM Kohler part # 47 015 06-S. (Discontinued from Kohler; Requires 1-1/2" length bolts (OEM Kohler part # 25 086 115-S), w/offset spark plug hole.)
Compression Ratios for Factory Stock Kohler K-series and Magnum Engines with an OEM Kohler Cylinder Head are as follows:
Kohler K-Series and Magnum Engine Spark Plug and Head Bolt Torque Values and Sequences [Return To Previous Section or Website]
ALWAYS lubricate threads with motor oil, and gently torque head bolts/nuts in a cross-pattern sequence so the head will not become warped or to prevent from cracking the head! If the torque value(s) are shown only in inch pounds (in. lb.), and the only tool you have is a torque wrench that shows in foot pounds (ft. lb.), you can convert inch pounds into foot pounds by dividing the torque value by 12. Example: if the value is shown in 420 in. lb., then divide 420 by 12 = 35 ft. lb. When replacing the head bolts, always use grade 8 bolts or heat-treated steel studs with grade 8 nuts and hardened flat washers to equally distribute the load. Because stainless steel bolts have the same strength as grade 5 bolts. Which means if stainless steel or grade 5 bolts are used, the threads may stretch over time, causing a compression leak and/or a warped head, which can cause a burned-out gasket and/or burned-out or warped head. [Return To Previous Section or Website]
A good head for a Stock pulling tractor with the engine running around 4,000 RPM would be the one with the spark plug located in the center of the combustion chamber. And the best head to use for a high RPM pulling tractor would be the one with the spark plug located over the exhaust valve. Did you know that installing two spark plugs per cylinder doesn't help to increase the power output of an engine whatsoever? Simply because one plug will be running hot (exhaust side) and the other will be cool (intake side). Engine power is generated from the heat source, because heat is how an engine produces power. When the spark plug in the cylinder head is located over (flathead) or close to (OHV) the exhaust valve, this maintains the majority of the heat in the combustion chamber in one area. When heat is maintained in one particular area in any given combustion chamber, the increase in power will be much greater, especially at high RPM. Burning fuel within a combustion chamber will "find" or locate the main heat source. The fuel will burn more thoroughly, allowing the engine to produce more power at any RPM. If the plug is located in the center of the combustion chamber, the incoming fuel could splash against the plug's tip and cause the engine to misfire or run erratic at high speed, especially when burning methanol fuel. And the plug could easily become fouled when burning gas, especially when the engine is cold. So it's best to install just one spark plug positioned over the exhaust valve with the plug gap set at .060". Because a .060" gap will simulate having two spark plugs. Use of a high-performance coil will help produce a stronger spark, too. Indexing the spark plug will also help to increase power and torque. This is when the open gap faces the center of the piston. It helps in a more thorough combustion of the fuel so the engine will produce more power at high RPM. Indexing washers is used to index a spark plug. They're a copper washer of certain thicknesses that's placed on the threads of the plug. Indexing of the spark plug helps to increase the power on a high-performance engine that operates at high RPM. It doesn't help much on a stock engine or at low RPM. Grind away any sharp edges (after milling head, milling out combustion chamber and/or factory casting flash) within the combustion chamber, and polish the entire combustion chamber, including around the valves and top of the piston, to a high luster (smooth as glass, if possible) to help increase power and torque, especially at higher RPM or at wide open throttle. Removing sharp edges prevents hot spots, which can cause detonation and/or pre-ignite the incoming fuel, and polishing reflects heat and prevents the majority of it from being absorbed into the metals. Go here for more information on this subject. If you're pulling in class where the rules state that the engine must have a stock OEM cylinder head, stock valve lift and stock diameter valves, and you want to get a little more power out of your engine, what can be done is "shave" or mill the head. This is when approximately .050" of metal is removed from the raised gasket mating surface. The milling process of the head must be performed with a fly cutter with the head securely clamped in a milling machine vise fastened on the table of a vertical milling machine. To guarantee that the gasket mating surface is absolutely parallel to the height of the fins, before actually milling the head, the fins must first be milled [in the vise on the table of the milling machine] until they are all the same height. Then flip the head over and the milling process can be performed. Failure to do this could cause the gasket area be milled crooked and not parallel to the fins, resulting in a lop-sided head. Then if necessary, use a wide, flat belt- or disc-sander/grinder to smooth the gasket surface. And do not use a sander/grinder to mill a head. Use it only to resurface a cylinder head to remove any warpage and restore flatness. If the material on the sander/grinder is worn uneven (from multiple sandings), the head will not resurface perfectly flat and/or may have skip marks. If you don't have your sander/grinder, most automotive machine shops and woodworkers have one. Remember - always wear a face mask or air respirator mask to prevent from inhaling the sanding and aluminum material, and do the repair job right the first time and it won't have to be done again later. Click or tap here to learn how to resurface a warped cylinder head at home with sandpaper. Be sure to check the valve clearance before milling a head! If a lot of metal is removed from the head, then milling of the valve cavity to clear the head may also need to be done. In most cases with a stock-lift cam, there should be adequate clearance once a stock OEM head is milled. Always check the clearance with the valves at full lift before milling a head! To learn how to do this, scroll down or Click or tap here. Milling of the head will increase the compression ratio about 3/4 of a point. And depending on engine size, this will definitely, without a doubt, add about 1-3 more horsepower and more torque. The engine will have a "snappier" response when the throttle is opened suddenly, and if the engine is in good running condition, it will literally "pull you back in the seat" of a garden tractor when the engine is quickly accelerated. To learn what else can be done to a stock engine to increase it's power output, Click or tap here.
Reusing Metal-Shielded Head Gaskets - [Top of Page] A used metal-shielded head gasket can be reused if it is in good condition and not bent, distorted or burned-out. To reuse it, clean it thoroughly with a spinning wire wheel, then coat it evenly with ordinary aluminum or silver color spray paint (available at Walmart or virtually any hardware store), reinstall the gasket, and tighten the head bolts or nuts (with studs) to the correct torque specs. Normal operating engine combustion heat will melt the aluminum/silver paint, creating an absolutely perfect seal. And if a new, metal-shielded head gasket has light surface rust from sitting in storage, the rust can be removed with a spinning wire wheel, and then the gasket can be coated with the same aluminum or silver color spray paint. It'll still be a usable gasket, only with a much better appearance (and sealing quality). This will not work with heavily-rusted head gaskets. And did you know that aluminum paint was first applied on used head gaskets to reassemble engines that was in the American World War 2 fighter planes? Aluminum paint was used because at the time there was a shortage of new head gaskets. This is part of the reason why most Americans don't speak German or Japanese today. (Hitler said he was going to dance on the White House steps.) If an engine has a leaking head gasket, then this means either the head bolts are loose or the cylinder head is warped and needs to be resurfaced on a wide, flat belt- or disc-sander/grinder to remove any warpage and restore flatness. If you don't have your own sander/grinder, most automotive machine shops and woodworkers have one. Remember - always wear a face mask or air respirator mask to prevent from inhaling the sanding and aluminum material, and do the repair job right the first time and it won't have to be done again later. And if the head is perfectly flat and if the head bolts or studs w/nuts are torqued to specs, most head gaskets alone will seal with no problems. But if you want a guarantee that the gasket will seal well to prevent a blown or leaking head gasket, clean out the head bolt hole threads with a tap, and apply a thin layer of Copper RTV Silicone Sealant (VersaChem - Mega Copper Silicone, Permatex® Ultra Copper® Maximum Temperature RTV Silicone Gasket Maker or Copper SPRAY-A-GASKET Hi Temp Adhesive Sealant) on each side of the head gasket or cylinder head and engine block, then torque the bolts or studs w/nuts to factory specs. Because engine heat has very little effect on silicone rubber. It's made of fine-ground up heat-transferring compressible copper mixed with silicone. Walmart and most auto parts stores sell copper RTV silicone sealant. It doesn't matter which brand to use, they work the same. When to Use a Copper Head Gasket - [Top of Page] Regardless of the thickness of a copper head gasket, these should only be used with a machined billet cylinder head and for competition pulling. If a copper head gasket is used with an OEM Kohler cylinder head, it would most likely leak compression between the head bolts, even when copper silicone is used. This is because all OEM heads are much thinner than the thicker billet heads, and when the head bolts (or nuts w/studs) are torqued to specs, the OEM head will flex and press down a few thousandths of an inch where the head bolts are, and with a copper head gasket, it will not "clamp down" entirely against the gasket between the head bolts. The head doesn't necessarily become warped, it just flexes or bends. Therefore, it's best to use the "cushiony" OEM Kohler type of head gasket with an OEM head to compensate for the flexing or bending to help it seal better, even for competition pulling. If the deck (top) of the engine block and cylinder head gasket surface are perfectly flat, and if the valves have adequate head clearance at full lift, and if the piston doesn't come flush with the top of the block, or if the head is milled for a pop-out piston, then a head gasket isn't really necessary. Just use the copper silicone as described above È. When using copper/silicone only as a head to block sealant, it'll be like using a dried "liquid" copper head gasket. The absence of a head gasket will prevent the head from warping when the head bolts or nuts with studs are torqued to specs. The head and block will have positive metal to metal contact with the silicone filling in any imperfections between the two metals. The copper particles will transfer the heat. But if the piston pops out of the cylinder, the clearance between the piston and head will need to have a safety margin of minimum .030" due to rod stretch and crankshaft flex at very high RPM. And yes, when precision-balanced, even a cast iron crankshaft will flex a few thousands of an inch at high RPM without breaking. The clearances over each valve when at full lift will need to be checked, too. For dirty or rusted engine blocks, to prevent a blown or leaking head gasket, besides resurfacing the head(s) and cleaning the deck of the block, due to dirt/debris that gets accumulated in the threads for the head bolts, the threads may need to be cleaned out with the appropriate size tap (5/16-18 UNC (coarse thread) for Kohler engine models K141, K161/K160, K181, L160/L161, L181 and M8 engines; and 3/8-16 UNC (coarse thread) for Kohler engine models K241, M10, K301, M12, K321, M14, K341, M16 and K361 engines) to get the head to fully compress the gasket when the bolts are torqued to specs. It's best to use a TAPER hand tap. A TAPER tap cleans threads more thoroughly [than a PLUG tap] and is less likely to break off in the block when in use. Then a PLUG tap can be used to clean the bolt holes deeper. Be sure the threads on the bolts are clean, too. And to obtain the proper torque, apply clean motor oil on the threads before installing and torquing the bolts to specs. This should be done with any engine, lawn & garden, farm, heavy equipment or automotive. Removing a Broken-Off Tap - A threading tap that has broken off in an engine block or metal casting can be very difficult to remove. About all I can tell you is to either take your block to a reputable machine shop to have the tap removed, or go here and try to do it yourself: https://www.google.com/?gws_rd=ssl#q=removing+broken+tap+from+hole. Actually, it's best to use a TAPER hand tap to cut new threads and clean out existing threads. If used correctly, a TAPER tap is less likely to break off. Click or tap here to learn how to cut new threads, the professional way. And OEM Kohler head bolts don't need to be retorqued again after the engine gets hot. Also, as long as there's plenty of metal on the hex head (due to being rusted away), they can be reused many times. The OEM Kohler head bolts are actually harder than hardware store grade 8 bolts and the threads don't stretch on them whatsoever. Personally, I always try to reuse Kohler head bolts on my engine builds whenever possible. To repair broken-off head bolt(s)...
If a small engine cylinder head is burned out (usually close to the exhaust valve), if it's burned out where the gasket seals, as long as there's no cracks in the head, it can be successfully welded up, machined flat, the bolt hole redrilled and be put back into service. The following items are what causes cylinder head burn-out...
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How to Remove Carbon Deposits from the Combustion Chamber in a Cylinder Head - Use a narrow, steel blade putty knife (with a stiff blade) or paint scraper to remove the carbon deposits from the combustion chamber (and from around the valves and from the top of the piston). Be sure the putty knife or scraper has a sharp edge, too. Don't worry about scratching the surface of the combustion chamber either. The tiny scratches will cause no problems. If the putty knife or scraper can't easily remove the carbon, soak the head in plain water at room temperature for a few days. This will soften the carbon and then it should be a lot easier to remove.
How to Make a New Spark Plug Hole - [Top of Page] When making a new hole and cutting threads for the spark plug, use a 1/2" drill bit (for 14mm threads) to bore the hole, then use a 14mm x 1.25 pitch spark plug tap to cut the threads. Be sure to drill the hole and cut the threads perpendicular to the head! If the hole is drilled crooked or the threads are cut crooked, the spark plug won't seat (seal) a full 360º and loss of compression will result. A spark plug tap can be acquired on eBay, at a local hardware store or machine shop/steel supply company. Don't use a spark plug thread hole chaser to cut new threads. They're made to remove carbon deposits and/or renew damaged threads. How to Repair a Stripped 14mm Spark Plug Hole - [Top of Page] If 14mm spark plug threads are stripped-out in a cylinder head, a stainless steel Heli-Coil thread repair insert or a special-made mild steel solid thread repair insert can be installed. For cleanliness and to prevent metal cuttings from entering the combustion chamber, which will cause severe engine damage and wear, the cylinder head must be removed before installing the insert! By the way - a mild steel or stainless steel thread insert is absolutely, without a doubt, much stronger than any aluminum threads. To install the solid thread insert...
The Heli-Coil insert doesn't require threadlocker because its "spring-like" expands outward against the threads in the hole, keeping it intact in the head. Or contact a-1 Miller's Performance Enterprises if you are not able to repair stripped spark plug threads. As the last resort, if the stripped spark plug threads hole in an aluminum head are too large for a Heli-Coil thread insert, the hole can be successfully welded-up with aluminum welding, machined (milled) flush with the surface of the head, then drilled perpendicular with the head, and new spark plug threads tapped for installation of the spark plug.
How to locate where to machine the cylinder head for the valves...
How to check for proper valve clearance between the valves and cylinder head...
How to make modeling clay (Play-Doh):
Directions: Thoroughly mix flour, salt and cream of tartar or alum. Boil liquids together. Pour in dry ingredients and stir together. Knead and add flour as needed. [Return To Previous Paragraph] È
When machining the valve cavities in an OEM stock head or in a billet head when installing a cam with more valve lift, use the following clearances:
FYI - I've milled several stock heads as much as 1/8" and they did well at the pulls. However, using methanol on a cool day could blow the combustion chamber out on a stock head that's been excessively milled for valve clearance. I've had this happen on my 12hp Super-Stock pulling tractor once. I was going down the track, engine running excellent, then all of a sudden "PUFF!" went the head.
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About Installing Bigger Valves in the K361 Engine Cylinder Head - On the K361's cylinder head, the stock valve head diameters are: intake - 1.438"; exhaust - 1.400". The exhaust valve is already plenty big enough, even for high RPM. But there's not that much room in the combustion chamber to install a bigger intake valve because a bigger seat would need to be installed first. The outside diameter of the seat is always larger than the diameter of the valve head. The biggest intake valve that can be installed would be about 1.5", which really wouldn't give the engine that much more performance. For more noticeable performance, the intake valve needs to be about 20% bigger than the exhaust valve, which would make it 1.68". And this is way too big for the K361 head.
How to Permanently Fix an OHV Engine with a Warped Cylinder Head - [Top of Page] If an OHV aluminum block engine blows blue/gray smoke out the exhaust upon start up then quits smoking after a while, and/or if crankcase oil is forced out the oil fill tube or crankcase breather assembly, this is likely the sign of a warped cylinder head, which results in a blown or "not sealing" head gasket. This is caused by the aluminum warping a few thousands of an inch from normal operating heat when the engine is ran for the first time. In other words, the metal "takes shape." This is normal for ALL internal combustion engines, but happens most with aluminum block engines due to thin metal in certain areas. What causes the oil burning or oil loss is upon the downward stroke of the piston, vacuum within the combustion chamber draws or sucks crankcase oil in the gap between the head and gasket, and then upon the upward stroke of the piston, compression within the combustion chamber forces part of the compressed air into the crankcase, which builds up inside the crankcase, and the air pressure eventually forces oil out the oil filler tube or crankcase breather assembly. To fix permanently this, remove the head, resurface it on a wide, flat belt- or disc-sander/grinder to remove the warpage and restore flatness, install a new head gasket, torque the head bolts to specifications in the correct sequence, and readjust the valve clearances to manufacturer's specifications. Once this is fixed, the head(s) should not warp again. If you don't have your own sander/grinder, most automotive machine shops and woodworkers have one. Remember - always wear a face mask and/or air respirator mask to prevent from inhaling the sanding and aluminum material, and do the repair job right the first time and it won't have to be done again later.
How to Remove a Broken Off Head Bolt - [Top of Page] Use a "centering drill," which is a stubby drill bit that creates a hole exactly in the center of a stud. Then use a 5/16" carbide-tip drill bit to drill the broken stud out, and then use a 3/8-16 UNC (coarse thread) tap to clean the bolt holes. If you feel this is too much for you, you can take your engine to a reputable machine shop and have them do this for you.
Available Soon - Detailed Illustrated Plans on How to Construct a Professional Pull-Back Garden Tractor Pulling Sled and a Self-Propelled Garden Tractor/Small Wheel Mini Rod Pulling Sled (Weight Transfer Machines) - (Updated 7/16/24) [Top of Page] FYI - I'm getting closer to completing my sled plans. But being I have lots of work to do in my shop, I work on designing my sled plans in my spare time. As soon as my plans with an inventory list of parts to use and with illustrations are perfected, I'll post the announcement in my websites. And as for prices of the pull-back sled and self-propelled sled plans, I'm not sure yet. Make me an offer and I'll consider it. And remember - Perfection takes time. If it's worth having, it's worth waiting for. It'll be money well spent. - Brian Miller If interested, please contact me below. Quality-Built and Nice-Appearing Garden Tractor & Mini Rod Self-Propelled Tractor Pulling Sleds (Weight Transfer Machines) For Sale - (Updated 8/17/24) [Top of Page] Sleds will be built as orders are placed. A minimum 50% deposit is required for all sled purchases. Buyer/purchaser can test sled with their pulling tractors or vehicles on our 200 ft. dirt track, and then can tow it on the road (like a trailer) or haul it on a large, sturdy trailer. Sleds are designed with style and made beautiful to admire, and painted metallic or color of your choice. Also, sleds are designed to start easy, pull smoothly and sure to stop with grouser bar. They will also have a safety release lever up front so when the weight box tops out and trips it, it will automatically disengage the clutch to prevent major damage to the drive mechanism for the weight box. And it will have another safety release lever at the rear in case the clutch (for the weight box) is engaged when backing up the sled. The self-propelled sleds will have a varible speed mechanical drive system with hydraulics to lower the two front steering wheels/tires, and the bigger sled will use hydraulics to bring the weight box back to its starting position. By the way - the self-propelled garden tractor pulling sled that I built in 1995 (and sold in 2021) is such an excellent design, I realized later that I made something very special when other people copied it. It's still in use today; click or tap photo of it to the right for a larger view.
To place an order, send your item(s) for repairing, and/or for customer service assistance, and FREE honest and accurate technical support, please contact: Brian Miller of A-1 Miller's Performance Enterprises, 12091 N Route B, Hallsville, MO (Missouri) 65255-9604 USA. Please call in your order or send an email with a list parts you need and your contact information. Phone: 1-573-881-7229 (cell; call, text or leave voicemail) or use Whatsapp. Please call Monday-Friday, 9am to 5pm, Central time zone, except holidays. If no answer, please try again later. (When speaking with Brian on the phone, please be patient and understanding because I stutter.) E-mail: pullingtractor@aol.com. Payment Options. A-1 Miller's shop is open to the public Monday-Friday, 9am to 5pm, Central time zone, with an appointment on weekends, except holidays. If you're the kind of person who don't trust delivery/shipping companies (mis)handling your high-dollar and fragile merchandise, you can make the long drive to A-1 Miller's new shop (click image to the right) to personally purchase parts, or drop off and/or pick up your carburetor, clutch assembly, engine and/or parts, etc., for repairing and/or rebuilding. Or visit the address of our (old) shop mentioned above to drop off your engine, transmission, transaxle, garden tractor, small motorized vehicle, etc. We also custom build pulling tractors and other small vehicles. Please contact me before coming so I'll be at my shop waiting for your arrival. When you visit our shop, you will be dealing directly with the owner for the best customer service. 12091 N Route B, Hallsville, MO - Google Maps "The road to a [trusted] friend's house (or shop) is never long." Don't sacrifice quality workmanship for distance. [Return To Previous Paragraph, Section or Website] By the way - As business is booming, we relocated our business at 12091 N. Route B, Hallsville, MO 65255 with a new, bigger, better, fully insulated, heated and air-conditioned building/shop (shouse) so we can provide many more professional services and high quality parts, and hire more reliable and knowledgeable help to have our customer's parts orders fulfilled sooner, parts repaired sooner and engine rebuilds performed promptly without a long delay. We will also offer custom welding fabrication jobs and other custom services. And we also provide pick up and delivery service and perform professional repairs for various small engines and lawn & garden equipment! Photos of our new building/shop are posted here! 12091 N Rte B, Hallsville, MO - Google Maps
Payment Options, and We Ship to Canada and
Worldwide My websites are not set up to process orders and accept payments. Therefore, to place an order with me, please call either number above or send an email with a list of parts you need, with your name, complete and correct postal mailing address and phone number. For payment options, I accept cash (in person), USPS Postal Money Orders, cashier's checks, business checks, MasterCard, VISA, Discover, American Express (please add 2.5% to the total amount for the credit/debit card processor's surcharge). If paying with a credit/debit card, please call me at either number above. Or to make a payment to me through PayPal, please click this link: https://www.paypal.com. Or use Cash App (username: pullingtractor) or Venmo (username: Pullingtractor) to make a payment to me. And be sure to mention a description of what the payment is for with your full name, postal address, phone number and email address. I also accept payments through Western Union Money Transfer or MoneyGram Money Transfers. If sending a money order or cashier's check, please include a note in the envelope with your name, complete mailing address, phone number, email address and a description of what the payment is for. I'll make a note of your order when I have all your information, and I may have to order some of the parts on your list, which should take a few days to come in, but I will send everything to you as soon as I have the parts in stock after I receive your payment.
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