- Nissan Ka24de Ecu
- Ka24de Distributor Timing
- Nissan Hardbody Ka24 Timing Marks
- Nissan Ka24de Timing Procedure Replacement
- Ka24de Timing Cover
- Nissan Ka24de Timing Procedure Diagram
- Nissan Ka24de Timing Procedures
Cost of Parts
Changing the timing chain on your 1989-1990 240sx:
PARTS
– Chain [13028-8B000]
– Tensioner [13070-40F06]
– Tensioner Guide [13091-40F03]
– Straight Guide [13085-40F10]
– The Two O-Ring Seals [15066-5E500] & [15066-40F11]
– Front Seal [13510-53J10]
– Permatex Blue #6B
– Oil (4-Quarts)
– Antifreeze/Water Mix
– Oil Filter
– Tensioner [13070-40F06]
– Tensioner Guide [13091-40F03]
– Straight Guide [13085-40F10]
– The Two O-Ring Seals [15066-5E500] & [15066-40F11]
– Front Seal [13510-53J10]
– Permatex Blue #6B
– Oil (4-Quarts)
– Antifreeze/Water Mix
– Oil Filter
Optional and Recommended:
– Cam Gear [13024-40F00]
– Crank Gear [13021-53J00]
– Crank Gear [13021-53J00]
TOOLS
– Assortment of Metric Sockets including 27mm For Crank Pulley
– Assortment of Metric Wrenches
– Assortment of Metric Allen Wrenches
– Channel Locks (Adjustable Groove Pliers)
– Philips #1 & #2 Screwdrivers ¼” Bladed (Flat-Tip) Screwdriver
– Long Breaker Bar
– Torque Wrench
– Claw Hammer
– Oil Filter Wrench
– Catch Pan
– 18″ Motorcycle Bungee with hooks
– 6″ 3-Arm Puller Long Bar (Floor Jack Handle/Hoist Handle)
– Flexplate tool (Automatic Transmission Only)
– Assortment of Metric Wrenches
– Assortment of Metric Allen Wrenches
– Channel Locks (Adjustable Groove Pliers)
– Philips #1 & #2 Screwdrivers ¼” Bladed (Flat-Tip) Screwdriver
– Long Breaker Bar
– Torque Wrench
– Claw Hammer
– Oil Filter Wrench
– Catch Pan
– 18″ Motorcycle Bungee with hooks
– 6″ 3-Arm Puller Long Bar (Floor Jack Handle/Hoist Handle)
– Flexplate tool (Automatic Transmission Only)
1989 1994 Nissan 240sx S13 Ka24de Silvia Hood Release Latch With Cable Complete For Sale Online. Product information support forums documentation and downloads for Megasquirt and Microsquirt ECU. Recheck the cam timing the crank should be on the TDC mark the cam sprockets and chain should look like the diagram. KA24DE Distributor timing issues. Instagram- @southernhooning In this episode of Southern Hooning we learn how to install the timing chains on the KA24DE / KA24DET if you liked this video or if it helped please like and subscribe! 48) Apply Permatex to gasket surfaces of timing cover, following directions on the tube. 49) Apply Permatex to inner corners of head-to-block and block-to-pan. 50) Install timing cover to block. Insert the top of cover part of the way, then the bottom. This will press the.
PROCEDURE
1) Disconnect and remove battery.
2) Remove intake pipe at/between MAF sensor and Throttle body. Remove valve cover hose and hoses about 8″ in front of throttle body.
3) Disconnect connectors at MAF and air temp. sensors, and the at/near the coil.
4) Using pliers, squeeze retainers for harness from under top half of fan shroud.
Lay harness over passenger fender.
Lay harness over passenger fender.
5) Remove top half of airbox. G-clips and hose clamp.
6) Disconnect hoses below and slightly behind coil.
*Remember* the white stripe goes in front of the purple when connected.
Undo associated clips, and across shroud. Lay both hoses over passenger fender.
*Remember* the white stripe goes in front of the purple when connected.
Undo associated clips, and across shroud. Lay both hoses over passenger fender.
7) Disconnect hoses from top/rear of charcoal canister (behind driver’s headlight).
Lay both hoses over passenger fender.
Lay both hoses over passenger fender.
8 ) Remove passenger side radiator mount. Keep bolts with mount.
9) Remove lower fan shroud. There are clips ( each side). Squeeze to release.
10) Remove upper fan shroud screws . The upper are right on top, and the lower are very low on the sides. Adobe cc master collection mac os x crack included mega.
11) Disconnect overflow tube from below/near radiator cap. Lay over passenger fender.
12) Disconnect upper radiator hose from radiator, keeping loose end up.
13) Push back, and pull up while maneuvering shroud up and out of engine compartment, being very careful to not damage any of the radiator fins. Keep screws with shroud.
14) Re-attach the upper hose to radiator to keep mess to a minimum.
15) Loosen 10mm nuts from cooling fan.
16) Remove belts.
– P.S. – Loosen 14mm bolts on top idler.
– Alt./W.P. – Loosen 12mm bolts on upper alternator, removing the front bolt.
– Label it in a bag.
– A/C – Loosen 14mm bolts on bottom idler.
– P.S. – Loosen 14mm bolts on top idler.
– Alt./W.P. – Loosen 12mm bolts on upper alternator, removing the front bolt.
– Label it in a bag.
– A/C – Loosen 14mm bolts on bottom idler.
17) Remove top idler/bracket. Keep bolts with bracket
18) Remove 10mm nuts from fan. Keep fan, nuts/washers, and water pump pulley together.
19) Remove power steering pump bolts 14mm. top/rear, front. Use bungee to pull P/S pump out of way by hooking one end to pump, and the other end to the passenger front wheel opening.
20) Remove P/S pump bracket. 12mm bolts. Keep these bolts and the 14mm bolts with the bracket.
21) Remove distributor cap screws. It’s not necessary to remove the wires, just pull the cap, and push it back out of the way.
22) Remove valve cover bolts. Keep bolts with cover. Remove front STB if so equipped.
23)With the car in Neutral, use 27mm to rotate (clockwise only) crank pulley to TDC 0deg. Look at the distributor rotor. If pointing at you, then turn crank more full revolution. If pointing at drivers side lower suspension, then you are in the right spot.
24 ) Manual – Put car in 5th gear, with E-brake pulled tightly. This will give you the greatest mechanical advantage.
Automatic – I’m sure there is some sort of ‘inspection’ cover for the flexplate. Remove it, and using a tool designed for turning the flexplate, have a friend hold the flywheel right here.
Automatic – I’m sure there is some sort of ‘inspection’ cover for the flexplate. Remove it, and using a tool designed for turning the flexplate, have a friend hold the flywheel right here.
25) Using 27mm with long breaker bar, loosen front crank bolt till it can be turned by hand. Loosen bolt till it starts to ‘wiggle’ freely. Then break loose cam gear bolt using correct size wrench/socket.
26) Put car back into Neutral.
27) The pulley probably moved a little, so move it back to 0deg. by hand.
28) Being careful of the radiator fins, using a 3-arm 6″ puller, remove crank pulley, and bolt. Keep bolt with pulley.
29) Mark lines for distributor base-to-timing cover relationship. This will allow you to easily put the ignition timing back where it started later.
Nissan Ka24de Ecu
30) Remove distributor. bolts, and connector (top/front of head). Keep bolts with distributor.
31) Remove oil pump bolts. ( long, longer), and spindle. Spindle probably needs wiggled out. Keep bolts and spindle with pump.
32) Remove 10mm from head down to timing cover. Set at top of a designated area.
33) Remove front-most oil pan bolts, and loosen halfway the next back on each side. ( removed, loosened). Set the at the bottom of the designated area.
34) Remove alternator adjusting bracket. Set bracket with bolts at the mid left side of the designated area.
35) Remove the remaining timing cover bolts, setting them in their respective locations in the designated area. It should look like Figure 1.
36) There is a small ‘square-ish’ thing bolted behind where the alternator bracket was. There are 10mm bolts holding it on, coming in from the passenger side. visible from the front, under/behind. Remove bolts, and label them in a bag. Use pressure to remove ‘thing’ from side of timing cover.
37) Using hammer, claws behind the distributor provisions, and the top against the A/C mounting bracket, gently pry timing cover loose from front of motor. At this time, the motor will dump lots of water into the oil pan, and onto the ground/floor. Now you can see all of the timing components.
If you’re lucky, the straight plastic guide on the drivers side is still there. If not, then it becomes a really messy affair involving lifting the motor and dropping the oil pan.
If you’re lucky, the straight plastic guide on the drivers side is still there. If not, then it becomes a really messy affair involving lifting the motor and dropping the oil pan.
38) Place a shop rag below the crankshaft, ‘sealing’ the open oil pan, to prevent any items from falling into the pan.
39) Remove the tensioner, and both guides. Remove chain, and seals.
40) Clean/scrape gasket surfaces. If not changing gears, skip to steps 42 and 43, then to 45.
41) Note relations between spiral gear, and crank gear, and remove both. Note and remove cam gear.
42) Using hammer and flat screwdriver, remove front seal, tapping it out from the backside.
45) Using hammer only, install new front seal, tapping it in from the front.
44) Install new gears, and spiral gear, without full tightening the cam gear.
45) Install new chain, matching the silver links with the marks on the gears, then install the guides.
46) Install tensioner. Remove pin to engage tension. Install seals. Remove rag.
47) Using hammer and long rod (engine hoist handle/ jack handle) firmly tap down a few places at the front of the oil pan lip.
48) Apply Permatex to gasket surfaces of timing cover, following directions on the tube.
U he keygen. 49) Apply Permatex to inner corners of head-to-block and block-to-pan.
50) Install timing cover to block. Insert the top of cover part of the way, then the bottom. This will press the head gasket up, and prevent it from binding/folding. Gently push the cover into place as far as you can. Install the front timing cover bolts in their respective holes, and press the cover all the way on. Install and tighten the head-to-cover and the pan-to-cover bolts. Tighten the loosened bolts for the oil pan.
51) After giving the Permatex some time to set, remove the alternator bracket and its bolts again.
52) Apply Permatex to the ‘square-ish’ things surface, then install its bolts.
53) Re-install alternator bracket, but before tightening, install alternator tightness locking bolt, then fully tighten the bracket-to-cover bolts.
54) Install crank pulley, without fully tightening bolt.
55) Insert spindle into oil pump, and align the dot on the spindle gear with the dot/seep hole on the oil pump shaft/body.
56) Install the oil pump/spindle into the timing cover in the proper orientation, without turning either at all. Install the bolts, and fully tighten.
57) Install the distributor, making sure that the rotor is still pointing to the same spot, and the marks on the distributor and cover are aligned. Fully tighten the bolts. Re-attach connector.
58) Again, put car into 5th gear. Then fully tighten (torque) the crank bolt, and the cam gear bolt.
59) Install valve cover. Install distributor cap.
60) Install water pump pulley and fan. Hand tighten nuts as much as you can.
61) Install power steering pump bracket. Install power steering pump.
62) Install top idler bracket.
63) Install and tighten belts. Tighten nuts that retain fan/water pump pulley.
64) Disconnect top radiator hose from radiator.
65) Install fan shroud being careful not to damage the radiator fins. Install screws. Re-attach hose to radiator, and tighten clamp. Re-attach overflow hose to radiator near cap.
66) Route and attach hoses to charcoal canister. They’ll only go one way.
67) Route and attach long hoses back to the fittings below/behind coil.
*Remembering* that the white stripe goes in front of the purple stripe.
*Remembering* that the white stripe goes in front of the purple stripe.
68) Install upper half of airbox. Install lower half of shroud.
69) Route and attach harness to MAF sensor, and coil locations.
70) Install passenger side radiator mounting bracket.
71) Install intake pipe to MAF and throttle body and valve cover. Attach hoses to fittings 8″ in front of throttle body.
72) Install battery. Reset clock/radio stations as needed.
73) Drain oil pan. Accumet ab15 plus meter manual.
74) Change filter.
75) Pour in new oil. Add your water/antifreeze mix. Top off radiator.
76) Remove burp valve from intake, or start motor and keep topping off radiator.
77) Allow motor to fully warm up, watching gauges, then allow to cool. Top fluids.
Comments and further discussion of this article can be found here: KA24E timing chain replacement Lil wayne carter 5 mp3.
Nissan KA engine | |
---|---|
Overview | |
Manufacturer | Nissan (Nissan Machinery) |
Production | 1988-present |
Layout | |
Configuration | |
Displacement | |
Cylinder bore |
|
Piston stroke | |
Block material | Cast iron |
Head material | Aluminum |
Valvetrain | SOHC 2- or 3 valves x cyl. (1988-1997) DOHC4 valves x cyl. (1991-2016) |
Compression ratio | 8.6:1, 9.1:1, 9.2:1, 9.5:1 |
Combustion | |
Fuel system | Sequential electronic FI |
Management | Hitachi |
Fuel type | Gasoline |
Cooling system | Water-cooled |
Output | |
Power output | 134 hp (100 kW) (1988-1996) 155 hp (116 kW) (1996-2004) 143 hp (107 kW) (1998-2004 Frontier & Xterra) |
Torque output | 152 lb⋅ft (206 N⋅m) at 4400 rpm (1988-1996) 160 lb⋅ft (217 N⋅m) at 4400 rpm (1996-2004) |
Chronology | |
Predecessor | Nissan Z engine |
Successor | Nissan QR engine |
The KA engines were a series of four-strokeinline-fourgasolinepiston engines manufactured by Nissan, which were offered in 2.0 and 2.4 L. The engines blocks were made of cast-iron, while the cylinder heads were made of aluminum.
Despite their large capacity, this motor was not equipped with balance shafts.
When used in the passenger cars both versions of the KA24 used a crankshaft girdle, as opposed to individual main bearing caps. In the Nissan Hardbody and Frontier applications a crank girdle was not used.
KA20[edit]
KA20DE[edit]
The KA20DE was a DOHC 16-valve engine produced from June 1999 through August 2007. It was mainly used in Japanese Domestic Market commercial vehicles.
- Specifications
- Bore × Stroke: 86 mm × 86 mm (3.39 in × 3.39 in)
- Max power: 120 PS (88 kW) at 5200 rpm (Caravan E24/E25, Atlas F23); 125 PS (92 kW) at 5600 rpm (Datsun Truck D22)
- Max torque: 169 N⋅m (125 lb⋅ft) at 2800 rpm (Caravan E24/Atlas F23); 171 N⋅m (126 lb⋅ft) at 2800 rpm (Caravan E25); 175 N⋅m (129 lb⋅ft) at 3200 rpm (Datsun Truck D22)
- Valve Configuration: DOHC, 16 valves
- Compression ratio: 9.5:1
- Applications
- 1999.06-2007.06 Nissan Atlas (F23)
- 1999.06-2001.04 Nissan Caravan (E24)
- 2001.04-2007.08 Nissan Caravan (E25)
- 1999.06-2002.08 Nissan Datsun Truck (D22)
KA24[edit]
KA24E[edit]
The KA24E was a SOHC 12-valve engine produced from July 1988 through January 1997. It uses Hitachisequential electronic fuel injection, and features cast steel connecting rods, a half-counterweighted cast steel crankshaft, and a cast aluminum cylinder head.
- Specifications
- Bore × Stroke: 89 mm × 96 mm (3.50 in × 3.78 in)
- Max power: 134 hp (100 kW) at 5600 rpm (Navara/Hardbody(D21) 134 hp (100 kW) at 5200 rpm)
- Max torque: 206 N⋅m (152 lb⋅ft) at 4400 rpm (Navara/Hardbody(D21) 209 N⋅m (154 lb⋅ft) at 3600 rpm)
- Valve Configuration: SOHC, 12 valves
- Compression ratio: 8.6:1 (9.1:1 for early 1989 240SX)
- Timing Chain (not Timing Belt a.k.a. Cambelt)
- Applications
Ka24de Distributor Timing
- 1989–1990 Nissan 240SX
- 1990–1997 Nissan D21 Truck - ('Hardbody')
- 1997-1999 D22 Navara (Australia)
- 1990-1995 Nissan Pathfinder
- 1989–1995 Nissan Axxess / Nissan Prairie (not UK except parallel imports for wheelchair conversions post 1991)
- 1990–1992 Nissan Stanza (USA-spec)
- 1989–1992 Nissan Pintara / Ford Corsair
- 1993-1996 Nissan Terrano II Europe
KA24DE[edit]
KA24DE Engine in an S14 240SX
The 2.4 L (2,389 cc) KA24DE was used in many Nissan cars and trucks. Most KA24DEs bound for the US were built in the city of Aguascalientes, Mexico, with the exceptions of the 240SX, 1994-97 Altima (re-badged Bluebird SSS), and the U13 Bluebird released in Australia with FWD configuration, which were manufactured in Yokohama, Kanagawa, Japan.[1] The KA24DE is very similar to the KA24E. The KA24E is SOHC with three valves per cylinder actuated by rocker arms, and the KA24DE is DOHC with 4 valves per cylinder and shim-over-bucket valve actuation. Design improvements of the dual cam engine include the use of a knock sensor, larger diameter girdled main bearings in the Japanese block, different oil pan (not interchangeable between Japanese and Mexican blocks), different oil pickup (front pickup on Japanese block and side on Mexican block), dipstick location (toward the rear of block on Mexican and mid block on Japanese) and piston oil squirters. In addition to the increased power and torque, the KA24DE has a higher redline than the KA24E.[citation needed]
Teracopy filehippo. Cgm viewer for mac. KA24DE-A is an Altima specific model of the KA24DE. The head and block are non-interchangeable between all other models and are uniquely cast for front wheel drive operation.
Differences in the Japanese block to Mexican are also present. The Mexico blocks (all DEs except those found in the S series) implemented a distributor and oil pump drive similar to the L series; from the crank nose. They also used a single row chain for the upper timing assembly without valve cover mounted guide. In addition to this, they removed the rearmost cam journal in the Mexico head. The crank rides on individually capped bearings with a slightly smaller diameter than the Japanese block, with shorter, slightly lower compression pistons in cylinders that have thicker walls than the Japanese DE. They retained the knock sensor and piston oilers.
- Specifications
Nissan Hardbody Ka24 Timing Marks
- Bore × Stroke: 89 mm × 96 mm (3.50 in × 3.78 in)
- Displacement: 2,389 cc (2.4 L; 145.8 cu in)
- Max. power: 155 bhp (157 PS; 116 kW) at 5,600 rpm (Navara/Frontier (D22) 110 kW (148 hp) at 5600 rpm) (Xterra engine: 143 bhp (107 kW) at 4300 rpm)
- Max. torque: 160 lb⋅ft (217 N⋅m) at 4,400 rpm (Navara/Frontier (D22) 208 N⋅m (153 lb⋅ft) at 3600 rpm) 154 lb⋅ft (209 N⋅m) at 4400 RPM (2000-2004 Nissan Xterra).
- Valvetrain configuration: DOHC, 4 valves per cylinder
- Compression ratio: 9.5:1 (240SX 91-98), 9.2:1 (Navara/Frontier (D22)), 9.2:1 (Xterra Engines)
- Applications
KA24DE
- 2000-2004 Nissan Xterra
- 1998-2016 Nissan Navara/Frontier (D22)
- 1991-1998 Nissan 240SX
- 1997-2000 Nissan R'nessa (4WD model, Japan)
- 1998-2001 Nissan Presage U30 (Japan)
- 1999-2001 Nissan Bassara U30 (Japan)
- 1993-1997 Nissan Bluebird U13
- Isuzu COMO (Japanese: Isuzu COMO)
KA24DE-A
Nissan Ka24de Timing Procedure Replacement
- 1993-1999 Nissan Altima [150 hp (112 kW) - Max torque 154 lb⋅ft (209 N⋅m). Compression ratio: 9.5:1]
- 2000-2001 Nissan Altima [Change hp & Torque]
Ka24de Timing Cover
See also[edit]
Nissan Ka24de Timing Procedure Diagram
References[edit]
Nissan Ka24de Timing Procedures
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