Das Treffen der Generationen

    Die Toyota Supra Community für alle Supra Generationen

    Toyota Supra A90

    Besitzer der fünften Generation des Toyota Supra sind begeistert, denn was Leistung und Fahrdynamik hat der neue Supra A90 alle Erwartungen übertroffen.

    Toyota Supra MKIV

    Bekannt aus dem Fast & Furious Film, kam im Juli 1993 die vierte und bisher letzte Generation des Toyota Supra auf den Markt. International wird dieser Typ "Supra MKIV" genannt.

    Toyota Supra MKIII

    Anfang 1986 wurde die dritte Generation des Supra vorgestellt. Sie ist zugleich die erste, die nicht mehr mit dem Namenszusatz Celica vermarktet wurde.

    Celica Supra (MK2)

    Die zweite Generation wurde im Herbst 1981 präsentiert und hatte mit dem neuen (170 PS) starken 6-Zylinder-Motoren einen komplett eigenständigen Antrieb.

    2000GT & Supra MK1

    Der von Frühjahr 1978 bis Sommer 1981 gebaute erste Supra wurde noch als Spitzenversion der Celica zuerst in Japan und später in den USA angeboten.

    Toyota Classics

    Fotos, Videos, Infos und mehr zum Toyota 2000GT & Celica XX Supra

    Toyota 2000GT & Celica Supra

    Der von Frühjahr 1978 bis Sommer 1981 gebaute erste Supra wurde noch als Spitzenversion der Celica zuerst in Japan und später in den USA angeboten.

    MK 2

    Fotos, Videos, Infos und mehr zum Toyota Supra MK2

    Celica Supra MKII (MA 60/61)

    Die zweite Generation wurde im Herbst 1981 präsentiert und hatte mit dem neuen (170 PS) starken 6-Zylinder-Motoren einen komplett eigenständigen Antrieb.

    MK 3

    Fotos, Videos, Infos und mehr zum Toyota 2000GT & Celica XX Supra

    Toyota Supra MKIII (MA70/MA71)

    Die zweite Generation wurde im Herbst 1981 präsentiert und hatte mit dem neuen (170 PS) starken 6-Zylinder-Motoren einen komplett eigenständigen Antrieb.

    MK 4

    Fotos, Videos, Infos und mehr zum Toyota Supra MKIV

    Toyota Supra MKIV (A80)

    Bekannt aus dem Fast & Furious Film, kam im Juli 1993 die vierte und bisher letzte Generation des Toyota Supra auf den Markt. International wird dieser Typ "Supra MKIV" genannt.

    MK 5

    Fotos, Videos, Infos und mehr zum neuen Toyota Supra A90

    Toyota Supra MKV (A90)

    Besitzer der fünften Generation des Toyota Supra sind begeistert, denn was Leistung und Fahrdynamik hat der neue Supra A90 alle Erwartungen übertroffen.
    Modelle: ClassicsMK2MK3MK4MK5
    Repair Manual

    Cylinder block inspection - 2JZ-GE Engine - Toyota Supra A80

    
    1. Remove gasket material
      Using a gasket scraper, remove all the gasket material from the cylinder block surface.
    2. Clean cylinder block
      Using a soft brush and solvent, thoroughly clean the cylinder block.
    3. Inspect cylinder block surface for flatness Using precision straight edge and feeler gauge, measure the surfaces of the cylinder block for warpage.
      Maximum warpage: 0.07 mm (0.0028 in.)
      If warpage is greater than maximum, replace the cylinder block.
    4. Inspect cylinder for vertical scratches Visually check the cylinder for vertical scratches.
      If deep scratches are present, replace the cylinder block.
    5. Inspect cylinder bore diameter Using a cylinder gauge, measure the cylinder bore diameter at positions A, B and C in the thrust and axial directions.
      Standard diameter:
      86.000 - 86.013 mm (3.3858 - 3.3863 in.)
      Maximum diameter: 86.02 mm (3.3866 in.)

      If the diameter is greater than maximum, replace the cylinder block.
    6. Remove cylinder ridge If the wear is less than 0.2 mm (0.008 in.), using a ridge reamer, grind the top of the cylinder.
    7. Inspect main bearing cap bolts Using vernier calipers, measure the minimum diameter of the compressed thread at the measuring point.
      Standard diameter:
      9.96 - 9.97 mm (0.3921 - 0.3925 in.)
      Minimum diameter: 9.7 mm (0.382 in.)

      If the diameter is less than minimum, replace the bolt.
    8. Clean piston
      1. Using a gasket scraper, remove the carbon from the piston top.
      2. Using a groove cleaning tool or broken ring, clean the piston ring grooves.
      3. Using solvent and a brush, thoroughly clean the piston.
        Do not use a wire brush.
    9. Inspect piston oil clearance
      1. Using a micrometer, measure the piston diameter at right angles to the piston pin center line, 34 mm (1.34 in.) from the piston head.
        Piston diameter:
        85.917 - 85.927 mm (3.3826 - 3.3830 in.)
      2. Measure the cylinder bore diameter in the thrust directions. (See step 5)
      3. Subtract the piston diameter measurement from the cylinder bore diameter measurement.
        Standard oil clearance:
        0.073 - 0.096 mm (0.0029 - 0.0038 in.)
        Maximum oil clearance:
        0.12 mm (0.0047 in.)

        If the oil clearance is greater than maximum, replace all the 6 pistons. If necessary, replace the cylinder block.
    10. Inspect piston ring groove clearance Using a feeler gauge, measure the clearance between new piston ring and the wall of the piston ring groove.
      Ring groove clearance:
      No.1 0.040 - 0.080 mm (0.0016 - 0.0031 in.)
      No.2 0.030 - 0.070 mm (0.0012 - 0.0028 in.)

      If the clearance is not as specified, replace the piston.
    11. Inspect piston ring end GAP
      1. Insert the piston ring into the cylinder bore.
      2. Using a piston, push the piston ring a little beyond the bottom of the ring travel, 105 mm (4.13 in.) from the top of the cylinder block.
      3. Using a feeler gauge, measure the ring end gap. Ring end gap:
        Piston ring STD mm (in.) Maximum mm (in.)
        No.1 0.300 - 0.400 (0.0118 - 0.0157) 1.000 (0.0394)
        No.2 0.350 - 0.450 (0.0138 - 0.0178) 1.050 (0.0413)
        Oil (Side rail) 0.130 - 0.380 (0.0051 - 0.0150) 0.980 (0.0386)
        If the end gap is greater than maximum, replace the piston ring.
        If the end gap is greater than maximum, even with a new piston ring, replace the cylinder block.
    12. Pinspect piston pin fit At 80°C (176°F), you should be able to push the piston pin into the piston pin hole with your thumb.
    13. Inspect connecting ROD alignment
      Using a feeler gauge and rod aligner, check the connecting rod alignment.
      • Check for out-of-alignment Maximum out-of-alignment:
        0.05 mm (0.0020 in.) per 100 mm (3.94 in.)

        If out-of-alignment is greater than maximum, replace the connecting rod assembly.
      • Check for twist Maximum twist:
        0.15 mm (0.0059 in.) per 100 mm (3.94 in.)

        If twist is greater than maximum, replace the connecting rod assembly.
    14. Inspect piston pin oil clearance
      1. Using a caliper gauge, measure the inside diameter of the connecting rod bushing.
        Bushing inside diameter:
        22.005 - 22.014 mm (0.8663 - 0.8667 in.)
      2. Using a micrometer, measure the piston pin diameter.
        Piston pin diameter:
        21.997 - 22.006 mm (0.8660 - 0.8664 in.)
      3. Subtract the piston pin diameter measurement from the bushing inside diameter measurement.
        Standard oil clearance:
        0.005 - 0.011 mm (0.0002 - 0.0004 in.)
        Maximum oil clearance:
        0.05 mm (0.0020 in.)
        If the oil clearance is greater than maximum, replace the bushing. If necessary, replace the piston and piston pin as a set.
      4. Check the piston pin fit at room temperature.
        Coat the piston pin with engine oil and push it into the connecting rod with your thumb.
    15. Inspect connecting ROD bolts Using vernier calipers, measure the minimum diameter of the compressed bolt at the measuring point.
      Standard diameter: 8.1 - 8.3 mm (0.319 - 0.327 in.)
      Minimum diameter: 8.0 mm (0.315 in.)

      If the diameter is less than minimum, replace the connecting rod bolt.
    16. Inspect crankshaft for runout
      1. Place the crankshaft on V-blocks.
      2. Using a dial indicator, measure the circle runout at the center journal.
        Maximum circle runout: 0.06 mm (0.0024 in.)
        If the circle runout is greater than maximum, replace the crankshaft.
    17. Inspect main journals and crank pins
      1. Using a micrometer, measure the diameter of each main journal and crank pin.
        Diameter:
        Item STD mm (in.) U/S 0.25 mm (in.)
        Main journal 61.984 - 62.000 (2.4403 - 2.4409) 61.745 - 61.755 (2.4309 - 2.4313)
        Crank pin 51.982 - 52.000 (2.0465 - 2.0472) 51.745 - 51.755 (0.0372 - 2.0376)
        If the diameter is not as specified, check the oil clearance. (See page EM-71 )
      2. Check each main journal and crank pin for taper and outof-round as shown.
        Maximum taper and out-of round:
        0.02 mm (0.0008 in.)

        If the taper or out-of-round is greater than maximum, grind or replace the crankshaft.
    18. If necessary, grind and hone main journals and/or crank pins
      1. Grind and hone the main journals and/or crank pins to the finished undersized diameter (See procedure step 17).
      2. Install new main journal and/or crank pin undersized bearings.
    This guide is based on the book edition Toyota (RM502U, 1997)
    Oxwall Community Software