Question about kawasaki ZRX 400 Motorcycles

1 Answer

Were do my vacuum lines go - ZRX 400 kawasaki Motorcycles

Posted by on

1 Answer

  • Level 3:

    An expert who has achieved level 3 by getting 1000 points

    All-Star:

    An expert that got 10 achievements.

    MVP:

    An expert that got 5 achievements.

    Vice President:

    An expert whose answer got voted for 100 times.

  • Master
  • 738 Answers

Hi, you dont say what bike this is? Normaly you will find vachume pipes come from the inlet manifold, or carbs, and will fit to the fuel tap or other vacume opperated devices on the bike

Posted on May 29, 2011

1 Suggested Answer

6ya6ya
  • 2 Answers

SOURCE: I have freestanding Series 8 dishwasher. Lately during the filling cycle water hammer is occurring. How can this be resolved

Hi,
a 6ya expert can help you resolve that issue over the phone in a minute or two.
best thing about this new service is that you are never placed on hold and get to talk to real repairmen in the US.
the service is completely free and covers almost anything you can think of (from cars to computers, handyman, and even drones).
click here to download the app (for users in the US for now) and get all the help you need.
goodluck!

Posted on Jan 02, 2017

Add Your Answer

Uploading: 0%

my-video-file.mp4

Complete. Click "Add" to insert your video. Add

×

Loading...
Loading...

Related Questions:

1 Answer

How many vacuum lines run from engine to heater/air con.block


  1. Vacuum Hose Diagrams‎

    smarter.com/Vacuum+Hose+Diagrams‎Engine Vacuum Line‎ www.about.com/Engine+Vacuum+Linerating for about.com
    Engine Vacuum Line. Search Now!
    Over 85 Million Visitors.
  2. Vacuum Hose Diagrams‎

    www.fixya.com/Vacuum+Hose+Diagrams‎
    We Are Here To Help You For Free!
    Solving Problems Is Easy As 123.

Jan 21, 2016 | 1998 Oldsmobile Bravada

1 Answer

Ford explorer will blow air out defrost only


More than likely vacuum problem--Supply line runs from vacuum reservoir to dash control panel--no vacuum on that line will cause control doors to stay in defrost mode--lines are plastic, and were bad to break from age. If lines look OK be sure vacuum is being supplied to line--from reservoir and to reservoir. Lastly line could be off dash controller or a bad dash controller or lines and or vacuum pods downstream--usually you can hear inside leaks. NOTE: defrost is default mode.

Jul 13, 2014 | 1998 Ford Explorer

1 Answer

Location of vacuum lines


That is the main source of vacuum...all other vacuum lines start near there...the main vacuum line will go to the brake booster, smaller lines will go to EGR, and all other points of the vacuum system. There is usually a small diagram on the cross beam attaching the radiator to the frame.

Feb 24, 2014 | 1987 Ford Crown Victoria

1 Answer

Vacuum line issue


In most GM vehicles only two vacuum lines pass through the firewall. One as you mentioned is the vacuum source (your black line) the other usually controls a valve that turns off coolant flow through the heater core while the A/C mode is turned on.

May 02, 2017 | Oldsmobile Cutlass Cars & Trucks

1 Answer

My 1997 ford ranger a/c dash vents won't blow


Vacuum supply starts on the drivers side of the engine. There is a vacuum line going into the brake vacuum assist from the manifold. branching off of that line is a double line that snakes under the intake manifold, behind the valve cover, along side the valve cover on the passenger side headed to the front of the engine. Then it curves to the right side of the engine. One set of hoses from this line goes to a valve control (red and green i think). The other line goes to the vacuum storage ball, it should be black. The vacuum circuit continues out of the ball in another black line that snakes into the firewall. It goes under the heater core black box and disappears under it. Now go into the passenger compartment and drop the glovebox. look to the back right you will see a black and a white vacuum line coming out of the firewall. The black line is your vacuum supply from the engine. It goes up to a little rubber manifold. disconnect the lines coming from the dash switch and check for vacuum on the manifold where the black line is going in. The white line controls the cabin air intake under the glovebox and the thermostat shutoff under the hood. It should only have vacuum when the switch is in a certian position, AC probly. The other three lines coming off the rubber manifold snake behind the dash vent door assemble and come out near the gas peddle. The red one controls the dash vent. apply vacuum to the red hose and see if the vents go to the center dash position/AC. The yellow and blue? ones control the floor vent control near the gas peddle. yellow gives you half floor and half defrost. blue gives you all floor. you can use a small vacuum line to connect the black vacuum supply to each individual line on the manifold and check the function of each vacuum control assembly individually. I hope this helps. On my truck each control unit works fine when i apply vacuum to them individually but when I hook the dash switch up to the rubber manifold it goes to defrost. I tried changing the dash switch and the lines running from the switch to the rubber manifold and the vacuum ball under the hood, nothing works. I suspect I may have leak i just haven't found yet. next step is to get a vacuum gage and start checking the amount of vacuum i am getting at each vacuum line. I'm sure it is supposed to be getting a specific amount of vacuum and will not work if the vacuum drops below a certian level due to a leak in a line somewhere? God bless.

May 28, 2012 | 1997 Ford Ranger SuperCab

1 Answer

What is 1833


Hi:

DTC P1833 - Transfer Case Differential Lock-Up Solenoid Open Circuit


The Pulse Vacuum Hublocks Do Not Operate Properly (Transfer Case Motor Movement and Front Driveshaft Operate Properly)


Double check the vacuum lines for any breaks, kinks or even disconnected. Also double check the hub lock sea


PINPOINTTEST E: THE PULSE VACUUM HUBLOCKS DO NOT OPERATE PROPERLY (TRANSFER CASE MOTORMOVEMENT AND FRONT DRIVE SHAFT OPERATE PROPERLY CONDITIONS DETAILS/RESULTS/ACTIONS E1 LEAK TEST THE WHEEL ENDS AND LOWER VACUUM SYSTEM - SOLENOID OUTPUT Raise and support the vehicle;
Disconnect PVH Solenoid Vacuum Connector
clip_image001.jpg NOTE: This step may require rapid pumping for up to 10 seconds. Connect a hand vacuum pump to the PVH solenoid upper port hose connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes GO to E22.
No GO to E2.
E2 LEAK TEST THE UPPER VACUUM SYSTEM - SOLENOID INPUT clip_image002.jpg Connect a hand vacuum pump to the PVH solenoid lower port hose connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes GO to E3.
No GO to E5.
E3 LEAK TEST THE A/C SYSTEM Disconnect A/C Vacuum Input Line
clip_image003.jpg Connect a hand vacuum pump to the A/C vacuum input line connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes DIAGNOSE the A/C system; TEST the system for normal operation.
No GO to E4.
E4 CHECK THE VACUUM SYSTEM RESERVOIR AND VACUUM LINES Connect A/C Vacuum Input Line
Disconnect Vacuum Reservoir Output Tee Connector
clip_image004.jpg Connect a hand vacuum pump to the vacuum reservoir output line connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes DIAGNOSE the engine vacuum system; No REPAIR and/or REPLACE the vacuum reservoir output tee fitting or vacuum line between vacuum reservoir tee fitting and PVH vacuum solenoid. TEST the system for normal operation.
E5 CHECK THE PVH VACUUM SYSTEM FOR ENGINE VACUUM clip_image005.jpg Connect a vacuum gauge to the PVH solenoid lower port hose connector and measure the vacuum level.
  • Is the vacuum level greater than 11 in/Hg?
Yes GO to E7.
No GO to E6.
E6 CHECK THE ENGINE AND PRIMARY VACUUM LINE FOR VACUUM Engine Vacuum Output Connector
clip_image006.jpg Connect a vacuum gauge to the engine vacuum output connector and measure the vacuum level.
  • Is the vacuum level greater than 11 in/Hg?
Yes REPAIR or REPLACE the vacuum reservoir or vacuum lines between the PVH solenoid vacuum input line and vacuum reservoir input line. TEST the system for normal operation.
No DIAGNOSE the engine vacuum system;
E7 CHECK THE SOLENOID VALVE FOR LEAKAGE Connect PVH Solenoid Vacuum Connector
clip_image007.jpg Disconnect the LH wheel end vacuum line connector.
Connect a tee fitting and vacuum gauge between the LH wheel end vacuum line connector and PVH solenoid vacuum line output connector. Wait a minimum of 60 seconds and measure the vacuum.
  • Is the vacuum level greater than 1 in/Hg?
Yes REPLACE the PVH vacuum solenoid. TEST the system for normal operation.
No GO to E8.
E8 CHECK THE PVH SOLENOID FOR PROPER VACUUM OUTPUT LEVEL - 4X4 ENGAGED clip_image008.jpg Measure the vacuum while switching the 4X4 mode switch to 4X4 HIGH.
  • Does the vacuum gauge indicate at least 11 in/Hg after six seconds but not longer than 60 seconds after switching the 4X4 mode switch to 4X4 HIGH?
Yes GO to E9.
No GO to E10.
E9 CHECK THE PVH SOLENOID FOR PROPER VACUUM OUTPUT LEVELS - 4X4 DISENGAGED NOTE: This step requires the use of a calibrated vacuum gauge that is accurate to within a minimum of 0.1 in/Hg. It is recommended that Pressure/Vacuum Module or equivalent 105-R0099 be used for this check. Observe the vacuum gauge while switching the 4X4 mode switch to 2WD.
  • Does the vacuum gauge indicate between 5.85 and 7.1 in/Hg after six seconds but not longer than 30 seconds after switching the 4X4 mode switch to 2WD?
Yes REMOVE the vacuum gauge. RECONNECT all vacuum lines. TEST the system for normal operation. If the 4X4 system still does not operate properly, CLARIFY the customer concern and RETURN to Symptom Chart.
No GO to E10.
E10 RETRIEVE THE DIAGNOSTIC TROUBLE CODES (DTCS) NGS
Retrieve and document continuous DTCs.
Clear Continuous DTCs
GEM On-Demand Self-Test
  • Are any DTCs retrieved?
Yes If DTC P1832, GO to E17 .

If DTC P1833, GO to E18 .

If DTC P1834, GO to E19 .

If DTC P1835, GO to E17 .

If DTC P1878, GO to E17 .

If DTC P1879, GO to E18 .

If DTC P1880, GO to E19 .

If DTC P1885, GO to E17 .
No GO to E11.
E11 CHECK FOR VOLTAGE TO THE PVH SOLENOID - CIRCUIT 298 (P/O) Disconnect PVH Solenoid C185
clip_image009.jpg Measure the voltage between PVH solenoid C185-2, circuit 298 (P/O), and ground.
  • Is the voltage greater than 10 volts?
Yes GO to E12.
No REPAIR circuit 298 (P/O). TEST the system for normal operation.
E12 CHECK THE GEM 4X4 ENGAGE SEQUENCE AND CIRCUIT 599 (PK/LG) - 2WD TO 4X4 HIGH clip_image010.jpg Measure the voltage between PVH solenoid C185-2, circuit 298 (P/O), and PVH solenoid C185-1, circuit 599 (PK/LG) while switching the 4X4 mode switch to 4X4 HIGH.
  • Is the voltage greater than 9 volts after three seconds but not more than 60 seconds after switching the 4X4 mode switch to 4X4 HIGH?
Yes GO to E13.
No GO to E17.
E13 CHECK THE GEM 4X4 DISENGAGE SEQUENCE AND CIRCUIT 599 (PK/LG) - 4X4 HIGH TO 2WD clip_image011.jpg Measure the voltage between PVH solenoid C185-2, circuit 298 (P/O), and PVH solenoid C185-1, circuit 599 (PK/LG) while switching the 4X4 mode switch to 2WD.
  • Is the voltage greater than 9 volts after three seconds but not more than 60 seconds after switching the 4X4 mode switch to 2WD?
Yes GO to E14.
No GO to E17.
E14 CHECK THE GEM 4X4 ENGAGE SEQUENCE AND CIRCUIT 77 (DB/Y) - 2WD TO 4X4 HIGH clip_image012.jpg Measure the voltage between PVH solenoid C185-2, circuit 298 (P/O), and PVH solenoid C185-3, circuit 77 (DB/Y) while switching the 4X4 mode switch to 4X4 HIGH.
  • Is the voltage greater than 9 volts after three seconds but not more than 60 seconds after switching the 4X4 mode switch to 4X4 HIGH?
Yes GO to E15.
No GO to E17.
E15 CHECK THE GEM 4X4 DISENGAGE SEQUENCE AND CIRCUIT 77 (DB/Y) - 4X4 HIGH TO 2WD clip_image013.jpg Measure the voltage between PVH solenoid C185-2, circuit 298 (P/O), and PVH solenoid C185-3, circuit 77 (DB/Y) while switching the 4X4 mode switch to 2WD.
  • Is any voltage indicated after three seconds after switching the 4X4 mode switch to 2WD?
Yes GO to E16.
No GO to E17.
E16 CHECK THE PVH SOLENOID COILS clip_image014.jpg Measure the resistance between the PVH solenoid terminal 1 and terminal 3.
  • Is the resistance between 90 and 115 ohms?
Yes GO to E20.
No REPLACE the PVH solenoid;TEST the system for normal operation.
E17 CHECK CIRCUITS 599 (PK/LG) AND 77 (DB/Y) FOR SHORTS TO GROUND PVH Solenoid C185
GEM C223
clip_image015.jpg Measure the resistance between PVH solenoid C185-1, circuit 599 (PK/LG), and ground; and between PVH solenoid C185-3, circuit 77 (DB/Y), and ground.
  • Are the resistances greater than 10, 000 ohms?
Yes GO to E18.
No REPAIR circuit 599 (PK/LG) and/or 77 (DB/Y). CLEAR the DTCs. TEST the system for normal operation.
E18 CHECK CIRCUITS 599 (PK/LG) AND 77 (DB/Y) FOR OPEN GEM C223
clip_image016.jpg Measure the resistance between GEM C223-3, circuit 599 (PK/LG), and PVH solenoid C185, circuit 599 (PK/LG). clip_image017.jpg Measure the resistance between GEM C223-7, circuit 77 (DB/Y), and PVH solenoid C185, circuit 77 (DB/Y).
  • Are the resistances less than 5 ohms?
Yes GO to E19.
No REPAIR circuit 599 (PK/LG) and/or 77 (DB/Y). CLEAR the DTCs. TEST the system for normal operation.
E19 CHECK CIRCUITS 599 (PK/LG) AND 77 (DB/Y) FOR SHORTS TO POWER clip_image018.jpg Measure the voltage between PVH solenoid C185-1, circuit 599 (PK/LG), and ground; and between PVH solenoid C185-3, circuit 77 (DB/Y), and ground.
  • Is any voltage indicated?
Yes REPAIR circuit 599 (PK/LG) and/or 77 (DB/Y). CLEAR the DTCs. TEST the system for normal operation.
No REPLACE the GEM; the DTCs. TEST the system for normal operation.
E20 CHECK THE PVH SOLENOID FOR PROPER VACUUM OUTPUT LEVEL - 4X4 ENGAGED PVH Solenoid C185
clip_image019.jpg Connect a vacuum gauge to the PVH vacuum line tee fitting and measure the vacuum while switching the 4X4 mode switch to 4X4 HIGH.
  • Does the vacuum gauge indicate at least 11 in/Hg after six seconds but not longer than 60 seconds after switching the 4X4 mode switch to 4X4 HIGH?
Yes GO to E21.
No REPLACE the PVH solenoid; TEST the system for normal operation.
E21 CHECK THE PVH SOLENOID FOR PROPER VACUUM OUTPUT LEVELS - 4X4 DISENGAGED NOTE: This step requires the use of a calibrated vacuum gauge that is accurate to within a minimum of 0.1 in/Hg. It is recommended that Pressure/Vacuum Module or equivalent 105-R0099 be used for this check. Observe the vacuum gauge while switching the 4X4 mode switch to 2WD.
  • Does the vacuum gauge indicate between 5.85 and 7.1 in/Hg after six seconds but not longer than 60 seconds after switching the 4X4 mode switch to 2WD?
Yes REMOVE the vacuum gauge. RECONNECT all vacuum lines. TEST the system for normal operation. If the 4X4 system still does not operate properly, CLARIFY the customer concern and RETURN to Symptom Chart.
No REPLACE the PVH solenoid; TEST the system for normal operation.
E22 CHECK THE RH SIDE WHEEL END FOR LEAKS clip_image020.jpg Disconnect the RH wheel end vacuum line connector. clip_image021.jpg NOTE: This step may require rapid pumping for up to 10 seconds. Connect a hand vacuum pump to the RH wheel end vacuum line connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes GO to E24.
No GO to E23.
E23 CHECK THE LH SIDE WHEEL END FOR LEAKS clip_image022.jpg Reconnect the RH wheel end vacuum line connector. clip_image023.jpg Disconnect the LH wheel end vacuum line connector. clip_image024.jpg NOTE: This step may require rapid pumping for up to 10 seconds. Connect a hand vacuum pump to the LH wheel end vacuum line connector and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes GO to E24.
No VERIFY all vacuum line connections are OK. TEST the system for normal operation. If a vacuum leak is still present, REPLACE the PVH solenoid vacuum line. TEST the system for normal operation.
E24 CHECK THE CHASSIS VACUUM LINE FOR LEAKS clip_image025.jpg Carefully disconnect the chassis vacuum line from the steel vacuum line. NOTE: This step may require rapid pumping for up to 10 seconds. Connect a hand vacuum pump to the steel vacuum line and try to pull a vacuum to 15 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes RECONNECT the chassis vacuum line to the steel vacuum line. GO to E25 .
No REPLACE the chassis vacuum line. TEST the system for normal operation.
E25 BUBBLE TEST THE RUBBER/STEEL VACUUM LINE INTERFACE WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi continuous pressure to the vacuum wheel end output line.
clip_image026.jpg Apply soapy water to the rubber/steel vacuum line fitting.
  • Are air bubbles visible at the rubber/steel vacuum line interface?
Yes REPAIR the rubber/steel vacuum line interface. TEST the system for normal operation.
No GO to E26.
E26 BUBBLE TEST THE WHEEL END KNUCKLE VACUUM LINE FITTING WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi continuous pressure to the vacuum wheel end input line.
clip_image027.jpg Apply soapy water to the wheel end knuckle vacuum line fitting.
  • Are bubbles visible at the wheel end knuckle vacuum line fitting?
Yes REPAIR the wheel end knuckle vacuum line fitting; TEST the system for normal operation.
No GO to E27.
E27 BUBBLE TEST THE HUBLOCK END AND HUBLOCK/WHEEL HUB INTERFACE WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi pressure to the vacuum wheel end input line.
clip_image028.jpg Apply soapy water to the hublock and hublock/wheel hub interface.
  • Are bubbles visible at the hublock/wheel hub interface or at the hublock end?
Yes If bubbles are visible at the hublock/wheel hub interface, REPLACE the hublock/wheel hub O-ring; TEST the system for normal operation.

If bubbles are visible at the hublock end, REPLACE the hublock; TEST the system for normal operation.
No GO to E28.
E28 BUBBLE CHECK THE KNUCKLE/WHEEL BEARING INTERFACE WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi pressure to the vacuum wheel end input line.
clip_image029.jpg Apply soapy water to the knuckle/wheel bearing interface.
  • Are bubbles visible at the knuckle/wheel bearing interface?
Yes REPLACE the wheel bearing/knuckle interface O-ring; No If equipped with 4WABS, GO to E29 .

If equipped with RABS, GO to E30 .
E29 BUBBLE CHECK THE ANTI-LOCK BRAKE SYSTEM (ABS) SENSOR WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi pressure to the vacuum wheel end input line.
clip_image030.jpg Apply soapy water to the ABS sensor.
  • Are bubbles visible at the ABS sensor?
Yes REPLACE the ABS sensor O-ring; TEST the system for normal operation.
No GO to E30.
E30 BUBBLE TEST THE WHEEL BEARING OUTER SEAL WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi pressure to the vacuum wheel end input line.
clip_image031.jpg Apply soapy water to the wheel bearing outer seal.
  • Are bubbles visible at the wheel bearing outer seal?
Yes REPLACE the wheel hub and bearing;TEST the system for normal operation.
No GO to E31.
E31 BUBBLE CHECK THE WHEEL END SHAFT SEAL clip_image032.jpg Remove the two screws and slide the wheel end shaft seal cover back. WARNING: Do not use shop pressure when performing this check. CAUTION: Do not apply more than 2 psi to the vacuum lines when performing this check. Apply 2 psi pressure to the vacuum wheel end input line.
clip_image033.jpg Apply soapy water to the wheel end shaft.
  • Are bubbles visible at the wheel end shaft?
Yes REPLACE the wheel end shaft seal;TEST the system for normal operation.
No GO to E32.
E32 CHECK THE HUBLOCK FOR VACUUM LEAKS Remove the hublock assembly;
clip_image034.jpg Connect hublock Vacuum Test Cap to the wheel end. Connect a hand vacuum pump to the wheel end vacuum supply hose and try to pull a vacuum to 10-12 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes GO to E33.
No REPLACE the hublock and O-ring;TEST the system for normal operation.
E33 CHECK THE WHEEL END KNUCKLE FOR VACUUM LEAKS Remove the 1/2 shaft retaining ring;
Remove the hub and bearing;
Remove the 1/2 shaft.

clip_image035.jpg Install Seal Depth Set/Vacuum Test Cap to the wheel end knuckle.
Install Seal Replacer/CV Tester into the inboard wheel end seal. Connect a hand vacuum pump to the wheel end vacuum supply hose and try to pull a vacuum to 10-12 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes REPLACE the wheel end knuckle seal;TEST the system for normal operation.
No GO to E34.
E34 RECHECK THE WHEEL END KNUCKLE FOR VACUUM LEAKS - WHEEL BEARING SEAL REPLACED Replace and grease the wheel hub and bearing O-ring;
clip_image035.jpg Install Seal Depth Set/Vacuum Test Cap to the wheel end knuckle. Install Seal Replacer/CV Tester into the inboard wheel end seal.
Connect a hand vacuum pump to the wheel end vacuum supply hose and try to pull a vacuum to 10-12 in/Hg.
  • Does the vacuum drop exceed 0.5 in/Hg in 30 seconds?
Yes REPLACE the wheel hub and bearing; TEST the system for normal operation.
No System is OK.

Mar 25, 2012 | 1986 Chevrolet Chevy

2 Answers

Where is the brake booster vacuum line on the 89 toyota camry?


Booster line will attach to back side (firewall side ) of booster chamber.

Should find a metal elbow coming out of the booster chamber that the vacuum line will slip over.

When you look at the booster chamber from the front, the location of the line should be at approx. 9 o'clock (as if looking at a clock dial)

Jan 24, 2011 | 1989 Toyota Camry

1 Answer

87 buick century won't shift out of first


The first thing is to check the transmission fluid level, then check the vacuum modulator located out on the side of the transmission, and be certain that the vacuum line is connected to the vacuum modulator, and that the vacuum line also has no leaks and it is connected to an intake manifold vacuum source. If you remove the vacuum line from the vacuum modulator and if there is any transmission fluid is in the vacuum line then the vacuum modulator is faulty and it will need to be replaced.


3c2c0fd.jpg

Sep 21, 2010 | 1987 Buick Century

1 Answer

Toyota Surf 1995 3ltre diesel Vacuum diagram


dont see what you mean --- vacuum line is nothing to do with the head .vacuum pump[ is on the back of your alternator the line runs to small vacuum tank and on to the brake booster .loss of power cant be related to vacuum,

Oct 16, 2009 | 1995 Toyota 4Runner

1 Answer

Corvette, 1985, lost vacuum to A/C control switch: need vacuum diagram and/or any help I can get...fan is OK, just blows out of all vents at one time.


look for a vacuum pod or tank under the hood. this is most likely where the interior vacuum controls get the vacuum. Does the pod have a line that connects to the intake manifold, or the brake booster? It should., if not find missing vacuum line and repair. Follow the other vacuum line from the pod to the interior, (it is important to find the line going to the interior, as there may be more than one at the pod) is it connected to the controls? it should be. Here is a simplified verbal schematic... vacuum from engine to pod, vacuum from pod to vacuum controlled devices. GM often color codes the interior vacuum lines and that makes them easier to follow under the dash.



Sep 21, 2008 | Chevrolet Corvette Cars & Trucks

Not finding what you are looking for?
Motorcycles Logo

Related Topics:

89 people viewed this question

Ask a Question

Usually answered in minutes!

Top kawasaki Experts

Arnie Burke
Arnie Burke

Level 3 Expert

4514 Answers

yadayada
yadayada

Level 3 Expert

75066 Answers

Gino Cussen
Gino Cussen

Level 2 Expert

216 Answers

Are you a kawasaki Expert? Answer questions, earn points and help others

Answer questions

Manuals & User Guides

Loading...