Rating:
Information spring, idling Denso
Include in ##:
09130-00513
as SPRING, IDLING
Cross reference number
Part num
Firm num
Firm
Name
09138-90570
SPRING, IDLING
0913890570
22411-1660
HINO
SPRING, IDLING
0913890570
22411-1660A
HINO
SPRING, IDLING
0913890570
22768-78031
TOYOTA
SPRING, IDLING
0913890570
ME703120
MITSUBISHI
SPRING, IDLING
0913890570
S2241-11660-A
HINO
SPRING, IDLING
Information:
Table 2
Specifications for Valve Opening Pressure    
Nozzle Assembly    Valve Opening Pressure    
1W-5829    
10300 to 17690 kPa (1500 to 2505 psi)    
4W-1819    
4W-8483    
7E-3969    
7N-0449    
7W-3710    
7W-8043    
9N-3979    
101-0060    
115-3354    
122-9007    
9L-7883    
16560 to 17990 kPa (2400 to 2600 psi)    
9L-9263    
9N-2366    
9L-6969    
13090 to 19900 kPa (1900 2900 psi)    
9N-3299    
9N-3700    If the fuel nozzle is not within specifications, stop the test and do not use the nozzle.Check for Tip Leakage
Close the gauge protector valve (0 to 40,000 kPa (0 to 5,800 psi) gauge).
Flush the fuel nozzle that is being tested by pumping the tester for 3 full strokes.
Open the gauge protector valve (0 to 40,000 kPa (0 to 5,800 psi) gauge).
Use a clean cloth to dry the tip and the body of the fuel injector. All test fluid should be wiped from the nozzle assembly.
A clean cloth should be wrapped around the top of the fuel nozzle in order to absorb any internal return leakage.
Calculate the test pressure that will be used for the tip leakage test.Use the fuel nozzle's valve opening pressure, that has been previously recorded, in order to calculate the test pressure for the nozzle that is being tested.
Subtract a value of 1875 kPa (275 psi) from the valve opening pressure that was previously obtained.
Record the result of the calculation as the test pressure that will be used for the tip leakage test.
Slowly apply the test pressure, that has been calculated in Step 6, to the fuel nozzle.
Close the pump isolator valve.
Hold this test pressure for 10 seconds.
Count the number of drops of test fluid that drips from the nozzle during the duration of the test. Open the pump isolator valve in order to release the pressure on the fuel nozzle when the test is completed.Refer to the information that is provided in Table 3 in order to evaluate the results of the test.Note: Ensure that any test fluid that collects on the tip of the fuel nozzle is not fluid leakage from the test fixture.
Table 3
Specifications for Tip Leakage
(Leakage within 15 seconds after the test pressure is applied to the nozzle.)    
Nozzle Assembly    Maximum Leakage    
1W-5829     20 drops (1)    
4W-1819    
4W-8483    
7E-3969    
7N-0449    
7W-3710    
7W-8043    
9N-3979    
101-0060    
115-3354    
122-9007    
9L-7883     3 drops (1)    
9L-9263    
9N-2366    
9L-6969     30 drops (1)    
9N-3299    
9N-3700    
( 1 ) No minimum specificationIf the tip leakage for the fuel nozzle is not within specifications, stop the test and do not use the fuel nozzle.Test the Fuel Nozzle for Plugged Orifices
Illustration 2 g00923165
Spray patterns for pencil type fuel nozzles.
Close the gauge protector valve (0 to 40,000 kPa (0 to 5,800 psi) gauge).
Rapidly increase the pressure on the fuel nozzle until fluid sprays from the tip of the fuel nozzle.Note: For this test, each full