Information injection-pump assembly
BOSCH
9 460 614 788
9460614788
ZEXEL
104780-9580
1047809580
NISSAN-DIESEL
167006T077
167006t077
Rating:
Cross reference number
BOSCH
9 460 614 788
9460614788
ZEXEL
104780-9580
1047809580
NISSAN-DIESEL
167006T077
167006t077
Zexel num
Bosch num
Firm num
Name
104780-9580
9 460 614 788
167006T077 NISSAN-DIESEL
INJECTION-PUMP ASSEMBLY
TD27 K
TD27 K
Calibration Data:
Adjustment conditions
Test oil
1404 Test oil ISO4113orSAEJ967d
1404 Test oil ISO4113orSAEJ967d
Test oil temperature
degC
45
45
50
Nozzle
105780-0060
Bosch type code
NP-DN0SD1510
Nozzle holder
105780-2150
Opening pressure
MPa
13
13
13.3
Opening pressure
kgf/cm2
133
133
136
Injection pipe
157805-7320
Injection pipe
Inside diameter - outside diameter - length (mm) mm 2-6-450
Inside diameter - outside diameter - length (mm) mm 2-6-450
Joint assembly
157641-4720
Tube assembly
157641-4020
Transfer pump pressure
kPa
20
20
20
Transfer pump pressure
kgf/cm2
0.2
0.2
0.2
Direction of rotation (viewed from drive side)
Right R
Right R
Injection timing adjustment
Pump speed
r/min
1100
1100
1100
Average injection quantity
mm3/st.
44.8
44.3
45.3
Difference in delivery
mm3/st.
4
Basic
*
Oil temperature
degC
50
48
52
Injection timing adjustment_02
Pump speed
r/min
500
500
500
Average injection quantity
mm3/st.
41.8
39.3
44.3
Oil temperature
degC
48
46
50
Injection timing adjustment_03
Pump speed
r/min
1100
1100
1100
Average injection quantity
mm3/st.
44.8
43.8
45.8
Difference in delivery
mm3/st.
4.5
Basic
*
Oil temperature
degC
50
48
52
Injection timing adjustment_04
Pump speed
r/min
2000
2000
2000
Average injection quantity
mm3/st.
44.5
41.5
47.5
Oil temperature
degC
50
48
52
Injection quantity adjustment
Pump speed
r/min
2550
2550
2550
Average injection quantity
mm3/st.
10.9
8.9
12.9
Basic
*
Oil temperature
degC
55
52
58
Injection quantity adjustment_02
Pump speed
r/min
2700
2700
2700
Average injection quantity
mm3/st.
5
Oil temperature
degC
55
52
58
Injection quantity adjustment_03
Pump speed
r/min
2350
2350
2350
Average injection quantity
mm3/st.
39.7
39.7
39.7
Oil temperature
degC
52
50
54
Injection quantity adjustment_04
Pump speed
r/min
2550
2550
2550
Average injection quantity
mm3/st.
10.9
8.4
13.4
Basic
*
Oil temperature
degC
55
52
58
Governor adjustment
Pump speed
r/min
350
350
350
Average injection quantity
mm3/st.
7.7
5.7
9.7
Difference in delivery
mm3/st.
2
Basic
*
Oil temperature
degC
48
46
50
Governor adjustment_02
Pump speed
r/min
350
350
350
Average injection quantity
mm3/st.
7.7
5.2
10.2
Difference in delivery
mm3/st.
2.5
Basic
*
Oil temperature
degC
48
46
50
Timer adjustment
Pump speed
r/min
100
100
100
Average injection quantity
mm3/st.
60
45
80
Basic
*
Oil temperature
degC
48
46
50
Remarks
Full
Full
Timer adjustment_02
Pump speed
r/min
100
100
100
Average injection quantity
mm3/st.
60
45
80
Oil temperature
degC
48
46
50
Remarks
Full
Full
Speed control lever angle
Pump speed
r/min
350
350
350
Average injection quantity
mm3/st.
0
0
0
Oil temperature
degC
48
46
50
Remarks
Magnet OFF at idling position
Magnet OFF at idling position
0000000901
Pump speed
r/min
1100
1100
1100
Overflow quantity
cm3/min
390
260
520
Oil temperature
degC
50
48
52
Stop lever angle
Pump speed
r/min
1300
1300
1300
Pressure
kPa
471
442
500
Pressure
kgf/cm2
4.8
4.5
5.1
Basic
*
Oil temperature
degC
50
48
52
Stop lever angle_02
Pump speed
r/min
1300
1300
1300
Pressure
kPa
471
432
510
Pressure
kgf/cm2
4.8
4.4
5.2
Basic
*
Oil temperature
degC
50
48
52
Stop lever angle_03
Pump speed
r/min
1700
1700
1700
Pressure
kPa
559
520
598
Pressure
kgf/cm2
5.7
5.3
6.1
Oil temperature
degC
50
48
52
0000001101
Pump speed
r/min
1300
1300
1300
Timer stroke
mm
2.3
2.1
2.5
Basic
*
Oil temperature
degC
50
48
52
_02
Pump speed
r/min
1100
1100
1100
Timer stroke
mm
1.4
0.9
1.9
Oil temperature
degC
50
48
52
_03
Pump speed
r/min
1300
1300
1300
Timer stroke
mm
2.3
2
2.6
Basic
*
Oil temperature
degC
50
48
52
_04
Pump speed
r/min
1700
1700
1700
Timer stroke
mm
4.1
3.6
4.6
Oil temperature
degC
50
48
52
_05
Pump speed
r/min
2300
2300
2300
Timer stroke
mm
6.2
5.7
6.6
Oil temperature
degC
52
50
54
0000001201
Max. applied voltage
V
16
16
16
Test voltage
V
25
24
26
0000001401
Pump speed
r/min
1300
1300
1300
Average injection quantity
mm3/st.
27.8
27.3
28.3
Timer stroke TA
mm
1.7
1.5
1.9
Timer stroke variation dT
mm
0.6
0.6
0.6
Basic
*
Oil temperature
degC
50
48
52
_02
Pump speed
r/min
1300
1300
1300
Average injection quantity
mm3/st.
27.8
26.8
28.8
Timer stroke TA
mm
1.7
1.4
2
Timer stroke variation dT
mm
0.6
0.6
0.6
Basic
*
Oil temperature
degC
50
48
52
_03
Pump speed
r/min
1300
1300
1300
Average injection quantity
mm3/st.
16.8
14.3
19.3
Timer stroke TA
mm
1.1
0.6
1.6
Timer stroke variation dT
mm
1.2
1.2
1.2
Oil temperature
degC
50
48
52
Timing setting
K dimension
mm
3.3
3.2
3.4
KF dimension
mm
5.8
5.7
5.9
MS dimension
mm
0.9
0.8
1
Pre-stroke
mm
0.1
0.08
0.12
Control lever angle alpha
deg.
54
50
58
Control lever angle beta
deg.
36
31
41
Test data Ex:
0000001801 POTENTIOMETER ADJUSTMENT
Boost pressure P1kPa {P2 mmHg}
Switch voltage is the value when the idle lever position is 0 V.
* Adjusting method of the 1 potentiometer (P/M)
Substitute the actual measurement of the angle a of each I/P in the following formula and determine the P/M output adjustment y (V).
When the angle a <= c: y = 7.23
When c < angle a < d: y = 7.23+( angle a -33) x 0.133
When d <alpha <e: y=7.97
Reference: Idle position and full speed position output voltages are V6 (idle) and V7 (full speed).
A:Potentiometer standards
B:ON, OFF switch standard
G:ON-->OFF
D:OFF-->ON
E:Adjusting point
F:Checking point
P:Boost pressure
Vi:Applied voltage
C1:Full-speed
C2:Idle
Q:Injection quantity
N:Pump speed
V:Output voltage
C:Control lever angle
----------
a=MEASURE c=33deg d=39deg e=-deg P1=-kPa P2=-mmHg V6=1.6+-0.6V V7=7.6+-0.4V
----------
V1=y+-0.03V V2=1.6+-0.6V V3=-V V4=0.82+-0.8V V5=3.2+-0.8V C3=4.9+5.3-4.8deg C4=19.4+-5.0deg Vi=10V P1=-kPa P2=-mmHg
----------
a=MEASURE c=33deg d=39deg e=-deg P1=-kPa P2=-mmHg V6=1.6+-0.6V V7=7.6+-0.4V
----------
V1=y+-0.03V V2=1.6+-0.6V V3=-V V4=0.82+-0.8V V5=3.2+-0.8V C3=4.9+5.3-4.8deg C4=19.4+-5.0deg Vi=10V P1=-kPa P2=-mmHg
Information:
API Degrees - Temperature Correction Chart for Diesel Fuel
Record the corrected API gravity from this chart.Table of Horsepower Correction Factors
Table 2
Corrected API
Gravity at 60° F Precombustion
Chamber Engines Direct Injection Engines (Use the correct full load RPM)
1800 2000 2200 2400 2600 2800 3000 3200
32.0
32.5
33.0
33.5
34.0 .984
.987
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995
34.5
35.0
35.5
36.0
36.5 .997
1.000
1.003
1.005
1.008 .998
1.000
1.003
1.007
1.013 .998
1.000
1.003
1.007
1.010 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.008
1.012 .998
1.000
1.004
1.008
1.012 .998
1.000
1.004
1.008
1.012
37.0
37.5
38.0
38.5
39.0 1.011
1.014
1.017
1.020
1.023 1.014
1.018
1.022
1.025
1.029 1.014
1.018
1.022
1.026
1.030 1.014
1.018
1.022
1.026
1.030 1.015
1.019
1.022
1.026
1.030 1.015
1.019
1.023
1.027
1.031 1.016
1.020
1.024
1.028
1.032 1.016
1.020
1.024
1.028
1.033 1.016
1.021
1.025
1.029
1.034
39.5
40.0
40.5
41.0
41.5 1.027
1.030
1.034
1.038
1.043 1.034
1.038
1.043
1.048
1.053 1.034
1.038
1.043
1.048
1.054 1.034
1.039
1.044
1.049
1.055 1.035
1.040
1.045
1.050
1.056 1.036
1.040
1.045
1.051
1.056 1.036
1.041
1.046
1.051
1.057 1.037
1.042
1.047
1.053
1.059 1.039
1.045
1.047
1.057
1.064
42.0
42.5
43.0
43.5
44.0 1.047
1.053
1.060
1.067
1.076 1.059
1.066
1.073
1.082
1.095 1.060
1.067
1.074
1.084
1.096 1.061
1.068
1.076
1.085
1.098 1.062
1.069
1.077
1.086
1.099 1.063
1.070
1.078
1.087
1.100 1.064
1.071
1.079
1.088
1.102 1.066
1.072
1.081
1.091
1.105 1.072
1.080
1.089
1.099
1.115 Use the above chart to find the horsepower correction factor.Calculating the Corrected Horsepower
Determine the rated full load horsepower from the Rack Setting Information Book.
Divide the rated horsepower by the horsepower correction factor for fuel density; the result is the corrected horsepower.Example:1674 - Truck Engine Serial No. 94B2551Rated Horsepower: 270 HorsepowerCalculations:
Table 3
1. Measured API gravity: 40.4' API at 50' (round to 40' API)
2. Corrected API gravity (see chart): 41' API at 60'F
3. Hpr correction factor (see chart): 1.038
4. Corrected Hp = Rated Hpr = 270 = 260 Hp
Correction Factor 1.038 (or 3.75% hp loss) Correcting for Fuel Density When Testing Engines on a Dynamometer
When engines are tested on a dynamometer which measures actual flywheel or drive train output, the observed horsepower is dependent on the fuel used. If the fuel being used is not 35° API at 60°F, then any dynamometer readings must be corrected to determine the output if 35° API fuel had been used. The same horsepower correction factor is used, but the formula is different:Corrected Horsepower = Observed Horsepower x Horsepower Correction FactorExample:1674 Truck Engine, Serial No. 9482551Rated (full load Horsepower: 270 Horsepower)Observed (dynamometer) Horsepower: 260 HorsepowerCalculations:
Measured API gravity: 39.6° API at 50°F (round to 40° API)
Corrected API Gravity (see chart): 41° API at 60°F
Horsepower Correction Factor (see chart): 1.038
Corrected Horsepower = Observed Horsepower x Horsepower Correction Factor 260 horsepower x 1.038 = 270 horsepower(Although the dynamometer indicated low horsepower, if the proper fuel had been used, the engine would be operating at rated output. The factory tolerance on rated engine output is 3%.)REFERENCE: For more information on dynamometer testing diesel engines, see Special Instruction Form GEG01024 .Diesel Fuel API Gravity to IbsJU.S. gallon or kg/liter Conversion Chart
The following chart may be used to convert the fuel API gravity to Ibs./U.S. gallon or kg/liter. These weights are for reference and are to be used when evaluating engine performance. Measurement of fuel flow rates can be converted
Record the corrected API gravity from this chart.Table of Horsepower Correction Factors
Table 2
Corrected API
Gravity at 60° F Precombustion
Chamber Engines Direct Injection Engines (Use the correct full load RPM)
1800 2000 2200 2400 2600 2800 3000 3200
32.0
32.5
33.0
33.5
34.0 .984
.987
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995 .986
.988
.990
.992
.995
34.5
35.0
35.5
36.0
36.5 .997
1.000
1.003
1.005
1.008 .998
1.000
1.003
1.007
1.013 .998
1.000
1.003
1.007
1.010 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.007
1.011 .998
1.000
1.004
1.008
1.012 .998
1.000
1.004
1.008
1.012 .998
1.000
1.004
1.008
1.012
37.0
37.5
38.0
38.5
39.0 1.011
1.014
1.017
1.020
1.023 1.014
1.018
1.022
1.025
1.029 1.014
1.018
1.022
1.026
1.030 1.014
1.018
1.022
1.026
1.030 1.015
1.019
1.022
1.026
1.030 1.015
1.019
1.023
1.027
1.031 1.016
1.020
1.024
1.028
1.032 1.016
1.020
1.024
1.028
1.033 1.016
1.021
1.025
1.029
1.034
39.5
40.0
40.5
41.0
41.5 1.027
1.030
1.034
1.038
1.043 1.034
1.038
1.043
1.048
1.053 1.034
1.038
1.043
1.048
1.054 1.034
1.039
1.044
1.049
1.055 1.035
1.040
1.045
1.050
1.056 1.036
1.040
1.045
1.051
1.056 1.036
1.041
1.046
1.051
1.057 1.037
1.042
1.047
1.053
1.059 1.039
1.045
1.047
1.057
1.064
42.0
42.5
43.0
43.5
44.0 1.047
1.053
1.060
1.067
1.076 1.059
1.066
1.073
1.082
1.095 1.060
1.067
1.074
1.084
1.096 1.061
1.068
1.076
1.085
1.098 1.062
1.069
1.077
1.086
1.099 1.063
1.070
1.078
1.087
1.100 1.064
1.071
1.079
1.088
1.102 1.066
1.072
1.081
1.091
1.105 1.072
1.080
1.089
1.099
1.115 Use the above chart to find the horsepower correction factor.Calculating the Corrected Horsepower
Determine the rated full load horsepower from the Rack Setting Information Book.
Divide the rated horsepower by the horsepower correction factor for fuel density; the result is the corrected horsepower.Example:1674 - Truck Engine Serial No. 94B2551Rated Horsepower: 270 HorsepowerCalculations:
Table 3
1. Measured API gravity: 40.4' API at 50' (round to 40' API)
2. Corrected API gravity (see chart): 41' API at 60'F
3. Hpr correction factor (see chart): 1.038
4. Corrected Hp = Rated Hpr = 270 = 260 Hp
Correction Factor 1.038 (or 3.75% hp loss) Correcting for Fuel Density When Testing Engines on a Dynamometer
When engines are tested on a dynamometer which measures actual flywheel or drive train output, the observed horsepower is dependent on the fuel used. If the fuel being used is not 35° API at 60°F, then any dynamometer readings must be corrected to determine the output if 35° API fuel had been used. The same horsepower correction factor is used, but the formula is different:Corrected Horsepower = Observed Horsepower x Horsepower Correction FactorExample:1674 Truck Engine, Serial No. 9482551Rated (full load Horsepower: 270 Horsepower)Observed (dynamometer) Horsepower: 260 HorsepowerCalculations:
Measured API gravity: 39.6° API at 50°F (round to 40° API)
Corrected API Gravity (see chart): 41° API at 60°F
Horsepower Correction Factor (see chart): 1.038
Corrected Horsepower = Observed Horsepower x Horsepower Correction Factor 260 horsepower x 1.038 = 270 horsepower(Although the dynamometer indicated low horsepower, if the proper fuel had been used, the engine would be operating at rated output. The factory tolerance on rated engine output is 3%.)REFERENCE: For more information on dynamometer testing diesel engines, see Special Instruction Form GEG01024 .Diesel Fuel API Gravity to IbsJU.S. gallon or kg/liter Conversion Chart
The following chart may be used to convert the fuel API gravity to Ibs./U.S. gallon or kg/liter. These weights are for reference and are to be used when evaluating engine performance. Measurement of fuel flow rates can be converted
Have questions with 104780-9580?
Group cross 104780-9580 ZEXEL
Dpico
Nissan-Diesel
104780-9580
9 460 614 788
167006T077
INJECTION-PUMP ASSEMBLY
TD27
TD27