Mazda 6. Manual — part 239
P–14
CONVENTIONAL BRAKE SYSTEM
POWER BRAKE UNIT REMOVAL/INSTALLATION
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1. Remove the master cylinder. (See
P–10 MASTER CYLINDER REMOVAL/INSTALLATION
2. Remove the wiper arm. (See
T–57 WINDSHIELD WIPER ARM AND BLADE REMOVAL/INSTALLATION
3. Remove the cowl grille. (See
S–50 COWL GRILLE REMOVAL/INSTALLATION
4. Remove the wiper motor. (See
T–56 WINDSHIELD WIPER MOTOR REMOVAL/INSTALLATION
.)
5. Remove the cowl panel. (See
S–119 COWL PANEL REMOVAL/INSTALLATION
6. For L.H.D., remove the A/C bracket.
7. For L.H.D., remove the ABS/TCS HU/CM or DSC HU/CM . (See
P–28 ABS (ABS/TCS) HU/CM REMOVAL/
.) (See
P–38 DSC HU/CM REMOVAL/INSTALLATION
8. For R.H.D., remove the alternator cover.
9. For R.H.D., remove the insulator.
10. For R.H.D., remove the vacuum pipe bracket.
11. Remove in the order indicated in the table.
12. Install in the reverse order of removal.
End Of Sie
POWER BRAKE UNIT INSPECTION
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Warning
• The following inspection methods are the simple inspection methods to judge the function of
power brake.
• If there is malfunction in power brake unit, replace the power brake unit as a component.
Power Brake Unit Function Check (Simple Method)
Step 1
1. With the engine stopped, depress the pedal a few times.
2. With the pedal depressed, start the engine.
3. If the pedal moves down slightly immediately after the engine starts, the unit is operating.
Step 2
1. Start the engine.
2. Stop the engine after it has run for 1 or 2 minutes.
3. Depress the pedal with the usual force.
4. If the first pedal stroke is long and becomes shorter with subsequent strokes, the unit is operating.
• If a problem is found, inspect for damage of the vacuum hose, and vacuum tank. Repair if necessary, and
inspect it again.
Step 3
1. Start the engine.
2. Depress the pedal with usual force.
3. If the pedal height does not change, the unit is operating.
4. Hold the pedal down for about 30 seconds.
5. If the pedal height does not change, the unit is operating.
1
Vacuum hose
2
Snap pin
3
Clevis pin
4
Nut
5
Fork
6
Power brake unit
7
Gasket
8
Nut
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CONVENTIONAL BRAKE SYSTEM
P–15
P
Power Brake Unit Function Check (Inspection Using The Testers)
1. Connect the SSTs, vacuum gauge, and pedal
depression force gauge as shown in the figure to
bleed the air from SSTs and brake line. (Bleed the
air from SSTs using a air bleed valve A.)
Checking for vacuum loss (unloaded condition)
1. Stop the engine when the vacuum gauge reading reaches 66.7 kPa {500 mmHg, 19.7 inHg}.
2. Observe the vacuum gauge for 15 seconds.
• If the gauge shows 63.3—66.7 kPa {475—500 mmHg, 18.7—19.6 inHg}, the unit is operating.
• If not, inspect for damage on the check valve or vacuum hose, and examine the installation. Repair as
necessary, and inspect it again.
Checking for vacuum loss (loaded condition)
1. Start the engine.
2. Depress the brake pedal with a force of 196 N {20 kgf, 44 lbf}.
3. Stop the engine when the vacuum gauge reading reaches 66.7 kPa {500 mmHg, 19.7 inHg}.
4. Observe the vacuum gauge for 15 seconds.
5. If the gauge shows 63.3—66.7 kPa {475—500 mmHg, 18.7—19.6 inHg}, the unit is operating.
Checking for hydraulic pressure
1. When the engine is stopped (vacuum 0 kPa {0 mmHg, 0 inHg}) and the fluid pressure is within the
specification, the unit is operating.
2. Start the engine. Depress the brake pedal when the vacuum reaches 66.7 kPa {500 mmHg, 19.7 inHg}.
• If the fluid pressure is within the specification, the unit is operating.
• If the fluid pressure is not as specified, inspect for damage to the check valve or vacuum hose, and fluid
leakage of the hydraulic line. Repair as necessary, and inspect again.
End Of Sie
A6E6912W005
Pedal force
Fluid pressure
200 N {20 kgf, 44 lbf}
588 kPa {5.95 kgf/cm
2
, 84.7 psi}
min.
Pedal force
Fluid pressure
200 N {20 kgf, 44 lbf}
8,787 kPa {89.60 kgf/cm
2
,
1,274 psi} min.
P–16
CONVENTIONAL BRAKE SYSTEM
DUAL PROPORTIONING VALVE INSPECTION (WITHOUT ABS)
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1. Connect the SSTs to the brake pipes as shown in
the figure.
2. Bleed the air from the brake system.
3. Measure the fluid pressure of the master cylinder
and the rear brake.
• If not within the specification, replace the dual
proportioning valve.
Fluid pressure
kPa {kgf/cm
2
, psi}
End Of Sie
DUAL PROPORTIONING VALVE REPLACEMENT (WITHOUT ABS)
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1. Remove in the order indicated in the table.
2. Install in the reverse order of removal.
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A
A'
B
B'
2,450 {25, 355}
2,450 {25, 355}
± 200 {2, 29}
5,880 {60, 853}
3,480 {35.5, 505}
± 300 {3, 44}
1
Brake pipe
2
Bolt
3
Dual proportioning valve
(See
P–17 Dual Proportioning Valve Installation
)
A6E6912W035
CONVENTIONAL BRAKE SYSTEM
P–17
P
Dual Proportioning Valve Installation Note
1. Install the dual proportioning valve so that the R
mark faces the left side of the vehicle.
End Of Sie
FRONT BRAKE (DISC) INSPECTION
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Brake Judder Repair Hint
Description
1. Brake judder concern has the following 3 characteristics:
Steering wheel vibration
1. Steering wheel vibrates in the direction of its rotation. This characteristic is most noticeable when applying
brakes at a vehicle speed of 100—140 km/h {62.1—86.8 mph}.
Floor vibration
1. When applying brakes, the vehicle body shakes back and forth. The seriousness of shake is not influenced by
vehicle speed.
Brake pedal vibration
1. When applying brakes, a pulsating force tries to push the brake pad back occurs. The pulsation is transmitted
to the brake pedal.
2. The following are the main possible causes of brake judder:
Due to an excessive runout (side-to-side wobble) of disc plate, the thickness of disc plate is uneven.
1. If the runout is more than 0.05 mm {0.002 in} to 10 mm {0.39 in} from the disc plate edge, an uneven wear
occurs on the disc plate because the pad contacts the plate unevenly.
2. If the runout is less than 0.05 mm {0.002 in}, uneven wear does not occur.
The disc plate is deformed by heat.
1. Repeated panic braking may raise the temperature in some portions of disc plate by approximately 1,000
°C
{1,832
°F}. This results in deformed disc plate.
Due to corrosion, the thickness and friction coefficient of disc plate change.
1. If a vehicle is parked under damp conditions for a long time, corrosion occurs on the friction surface of disc
plate.
2. The thickness of corrosion is uneven and sometimes appears like a wave pattern, which changes the friction
coefficient and causes a reaction force.
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