The document provides information on an engine including:
- The engine is a 6-cylinder, 4-stroke diesel engine with cast iron block and head.
- Gears in the engine case are hardened helical type for strength and reduced noise.
- The document includes diagrams of the engine starter side, alternator side, top view and flywheel end.
In this presentation, we have discussed a very important feature of BMW X5 cars… the Comfort Access. Things that can significantly limit its functionality. And things that you can try to restore the functionality of such a convenient feature of your vehicle.
Core technology of Hyundai Motor Group's EV platform 'E-GMP'Hyundai Motor Group
What’s the force behind Hyundai Motor Group's EV performance and quality?
Maximized driving performance and quick charging time through high-density battery pack and fast charging technology and applicable to various vehicle types!
Discover more about Hyundai Motor Group’s EV platform ‘E-GMP’!
What Does the PARKTRONIC Inoperative, See Owner's Manual Message Mean for You...Autohaus Service and Sales
Learn what "PARKTRONIC Inoperative, See Owner's Manual" means for your Mercedes-Benz. This message indicates a malfunction in the parking assistance system, potentially due to sensor issues or electrical faults. Prompt attention is crucial to ensure safety and functionality. Follow steps outlined for diagnosis and repair in the owner's manual.
𝘼𝙣𝙩𝙞𝙦𝙪𝙚 𝙋𝙡𝙖𝙨𝙩𝙞𝙘 𝙏𝙧𝙖𝙙𝙚𝙧𝙨 𝙞𝙨 𝙫𝙚𝙧𝙮 𝙛𝙖𝙢𝙤𝙪𝙨 𝙛𝙤𝙧 𝙢𝙖𝙣𝙪𝙛𝙖𝙘𝙩𝙪𝙧𝙞𝙣𝙜 𝙩𝙝𝙚𝙞𝙧 𝙥𝙧𝙤𝙙𝙪𝙘𝙩𝙨. 𝙒𝙚 𝙝𝙖𝙫𝙚 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙥𝙡𝙖𝙨𝙩𝙞𝙘 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙪𝙨𝙚𝙙 𝙞𝙣 𝙖𝙪𝙩𝙤𝙢𝙤𝙩𝙞𝙫𝙚 𝙖𝙣𝙙 𝙖𝙪𝙩𝙤 𝙥𝙖𝙧𝙩𝙨 𝙖𝙣𝙙 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙛𝙖𝙢𝙤𝙪𝙨 𝙘𝙤𝙢𝙥𝙖𝙣𝙞𝙚𝙨 𝙗𝙪𝙮 𝙩𝙝𝙚 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙛𝙧𝙤𝙢 𝙪𝙨.
Over the 10 years, we have gained a strong foothold in the market due to our range's high quality, competitive prices, and time-lined delivery schedules.
The Future of Autonomous Vehicles | civilthings.com | Detailed informationgettygaming1
civilthings.com Present Autonomous vehicles, also known as self-driving cars, represent a groundbreaking advancement in transportation technology. These vehicles utilize sophisticated sensors, advanced software, and machine learning algorithms to navigate roads and transport passengers without human intervention. Major companies in the autonomous vehicle industry are investing heavily in the development and testing of these innovative machines, aiming to enhance safety, efficiency, and convenience on the roads.
The autonomous vehicle market is rapidly expanding, driven by technological progress and increasing consumer interest. With the advent of autonomous vehicle technology, the future of transportation promises significant changes, including reduced traffic accidents and lower emissions. However, the widespread adoption of autonomous vehicles faces challenges, such as regulatory hurdles, safety concerns, and public acceptance.
Autonomous vehicle regulations and legislation are evolving to address these issues, ensuring that the integration of self-driving cars into everyday life is smooth and secure. As the industry grows, news and trends related to autonomous vehicles continue to capture global attention. From the development of cutting-edge sensors to advancements in autonomous vehicle software, this sector is poised to revolutionize how we think about mobility.
Stay informed about the latest in autonomous vehicle technology, industry developments, and market trends to understand the profound impact these vehicles will have on our future.
Symptoms like intermittent starting and key recognition errors signal potential problems with your Mercedes’ EIS. Use diagnostic steps like error code checks and spare key tests. Professional diagnosis and solutions like EIS replacement ensure safe driving. Consult a qualified technician for accurate diagnosis and repair.
Wondering if Your Mercedes EIS is at Fault Here’s How to Tell
Volvo EC180B LC EC180BLC Excavator Service Repair Manual Instant Download.pdf
1. Service Information
Document Title: Function Group: Information Type: Date:
Engine, description (Deutz
D6D EBE2)
200 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Engine, description (Deutz D6D EBE2)
The engine is a 6–cylinder, 4–stroke, direct injected, turbocharged, aftercooled with a cast iron block and cylinder head.
Gears in the engine gear case are hardened helical type for strength and reduced noise, arranged to provide quiet, smooth
transmission of power.
The cylinder block and head are designed with internal passages forming galleries for both lubricating oil and coolant.
The fan belt is a poly type V-belt for improved performance and an auto tension adjuster maintains belt tension.
Starter side view
Figure 1
Engine, starter side view
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Coolant inlet (from radiator)
Coolant outlet (to radiator)
Coolant make up port
Air inlet (from air cleaner)
Turbocharger
Intake manifold
Exhaust manifold
Starter
Poly-V belt
Lube oil pipe (supply)
Lube oil pipe (return)
2. 12. Engine oil pan
Alternator side view
Figure 2
Engine, alternator side view
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Air inlet (from charge air cooler)
Lifting eye (front)
Alternator
Fuel feed pump
Coolant pump
Belt tensioner
Air outlet (to charge air cooler)
Fan drive pulley
Air conditioner compressor pulley
Pulley with vibration damper
Top view
3. Figure 3
Engine, top view
1 Fuel suction port 9 Coolant make up port
2 Engine oil filter 10 Coolant outlet (to radiator)
3 Fuel filter 11 Blowby gas pipe
4 Unit injection pump 12 Air inlet (from air cleaner)
5 Emission label 13 Turbocharger
6 Engine name plate 14 Exhaust gas outlet
7 Power take off device (option) 15 Exhaust manifold
8 Fan drive 16 Intake manifold
Flywheel end view
Figure 4
Engine, flywheel end view
1.
2.
3.
4.
Flywheel
Lifting eye (rear)
Crankcase breather
Coolant temperature sensor port
4. Service Information
Document Title: Function Group: Information Type: Date:
Engine characteristic curve 210 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Engine characteristic curve
Engine characteristics
Item Specification
Maximum power (Net) 109 HP (81 kW, 110 PS) / 1900 rpm
Maximum torque (Net) 50.9 kgf·m (367.5 lbf·ft, 498.8 N·m) / 1450 rpm
Minimum fuel consumption 160 g / PS·h
Rated fuel consumption 165 g / PS·h
6. Service Information
Document Title: Function Group: Information Type: Date:
Basic check, Engine 210 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Basic check, Engine
WARNING
Certain tests and checks are performed with unlocked control lockout lever. Make sure that the machine cannot
operate unexpectedly when the control lockout lever is unlocked.
Purpose of the basic check
The purpose of the basic check is to provide fast and accurate information about the general condition of the engine.
The basic check should be performed and evaluated according to instructions in the PC-tool VCADS Pro.
Tests included in the basic check
The basic check which is divided into the following tests should be performed after reading out error codes and checking
parameters.
Tests:
1.
2.
3.
4.
Cylinder compression, test
The purpose of the test is to show if any cylinder has a deviating compression pressure. The test replaces the old
pressure check method but does not give any absolute values.
Cylinder balancing, test
The purpose of the test is to show if there is any deviation in the fuel injection to a cylinder.
Feed pressure, test
The purpose of the test is to check that the feed pressure is as per specification.
Sensor, test
The purpose of the test is to check the function of all sensors.
7. Service Information
Document Title: Function Group: Information Type: Date:
Troubleshooting 210 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Troubleshooting
When a malfunction is suspected or has been confirmed, it is important to identify the cause as soon as possible.
The starting point for all troubleshooting is that there is some type of trouble symptom or malfunction.
Malfunctions can be indicated by:
generation of error codes
detection of a malfunction symptom.
Troubleshooting work
The first step in troubleshooting is to gather information from the operator concerning the malfunction symptoms, refer to
the Section 3:3, Collection of basic data. Then, attempt to pin-point the cause by checking in a certain order, for more
information, refer to the Section 3:3, troubleshooting strategy.
The different checking steps are:
Check error codes
Check parameters
Perform basic check
Troubleshooting information
The following is included in Section 3:3 and is used when troubleshooting:
1.
2.
3.
4.
5.
6.
7.
8.
9.
Troubleshooting strategy
Describes troubleshooting work, step by step.
Troubleshooting, assistive devices
Brief summary of the assistive devices that are available for troubleshooting.
Functional checks and tests, VCADS Pro
Brief description of VCADS Pro. For a detailed description, refer to the VCADS Pro User’s Manual.
Error code information
Contains information regarding error code design, lists of all error codes and error code information about each
error code.
Components, troubleshooting and specifications
Contains methods and measuring values for troubleshooting of components. Also includes wiring diagrams and
certain specifications.
Parameters
Incorrectly set parameters may cause malfunction symptoms. The parameter list includes all limit and command
values for parameters.
Control units, functional description
Describes the functions of the control units, inputs and outputs as well as communication between the various
control units.
Control units, active and passive measuring
Contains measuring values for active and passive measuring of the ACAS.
Software functions
Describes the prerequisite conditions for the control and monitoring functions that are performed by the software
in the ACAS.
8. Service Information
Document Title: Function Group: Information Type: Date:
Cylinder head, description 211 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Cylinder head, description
The cylinder head of the D6D engine is made of grey cast iron and designed as block type head. The combustion air enters
vertically and the exhaust air is discharged laterally. Inlet and outlet are located on one side of the cylinder head.
9. Service Information
Document Title: Function Group: Information Type: Date:
Determining cylinder head
gasket
211 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Determining cylinder head gasket
The thickness of the cylinder head gasket is responsible for the correct piston crown clearance of the engine. The
piston crown clearance (0.65 mm) essentially influences the combustion and thus:
Power
Fuel consumption
Exhaust emission
The piston crown clearance is adjusted by determining the piston projection and the thickness of the cylinder head
gasket.
Measuring piston projection
A dial gauge with a fixture is needed to measure the piston projection.
The piston is in its TDC position above the cylinder block face.
Figure 1
Piston projection, measurement
10. 1.
2.
3.
Dial gauge
Bridge
Two spacer plates
A.
B.
C.
Set the dial gauge on the level of the cylinder block face to “zero”.
Position the dial gauge at measuring points (C), at the piston pin axis on the piston and determine the
maximum projection.
Measuring points on the piston.
Distance X = 90 mm
This measurement is performed on each piston. The maximum measured piston projection determines the thickness of the
cylinder head gasket (see table). There are 3 different gasket thicknesses identified by bores (4):
1 bore = 1.2 mm
2 bores = 1.3 mm
3 bores = 1.4 mm
Piston projection
Piston projection Identification of cylinder head gasket
0.33 ~ 0.55 mm 1 bore
0.56 ~ 0.65 mm 2 bores
0.66 ~ 0.76 mm 3 bores
11. Service Information
Document Title: Function Group: Information Type: Date:
Fitting cylinder head 211 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Fitting cylinder head
Prior to fitting the cylinder head onto the crankcase, the sealing surfaces for the cylinder head gasket must be clean
and free from oil. Pay attention to dowel sleeves.
Lightly oil the cylinder head bolts.
It is absolutely necessary to observe the bolt tightening order in the adjacent schematic.
Tightening order
Figure 1
Tightening order (exhaust manifold side)
Tightening specification:
1st step: 30 N·m (22.2 lbf·ft, 3.1 kgf·m)
2nd step: 80 N·m (59 lbf·ft, 8.2 kgf·m)
3rd step: 90° turn
12. Service Information
Document Title: Function Group: Information Type: Date:
Cylinder, description 213 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Cylinder, description
Figure 1
Cylinder liner
1 Cylinder liner
2 Crankcase
3 Liner projection: 0.07 - 0.12 mm
D6D engine with a bore about 98 mm (3.86 in) is provided with dry, plateau-honed slip-fit cylinder liners. In case of damage,
the cylinders of the D6D series are repaired by replacing the slip-fit liners.
13. Service Information
Document Title: Function Group: Information Type: Date:
Pistons, description 213 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Pistons, description
The pistons of the D6D engine are made of a special aluminium alloy. The piston bowl has a small amount of
eccentricity to the piston axis.
The piston must be installed so that flywheel symbol (1) on the piston top faces the flywheel.
The pistons are equipped with 3 piston rings. The 1st ring has a ring carrier (2) of cast iron.
The cross section of the 1st piston ring is asymmetrical. The cross section of the 2nd piston ring is conical
(compression ring). When installing the piston, the TOP mark at the ring gap must point upwards. The 3rd ring is
the bevelled-edge oil control ring.
14. Service Information
Document Title: Function Group: Information Type: Date:
Piston cooling 213 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Piston cooling
Figure 1
Piston cooling
The piston is cooled by spraying lube oil against the inside of the piston top.
The 2-hole piston cooling nozzles made of plastic are fitted in the main bearing pedestals.
15. Service Information
Document Title: Function Group: Information Type: Date:
Valves, description 214 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Valves, description
The engine is provided with one inlet and one exhaust valve per cylinder. The valve guides are shrunk in the
cylinder head. The valve seat inserts are made of high-quality steel and are also shrunk in the cylinder head.
The valves are turned by eccentric actuation through the rocker arms. The new compressed cone connection
permits easy turning of the valve despite stress load.
NOTE!
The valve springs of the D6D have a special installation direction. The colored mark on the spring must show to the
bottom.
Rocker arm lubrication is integrated in the lube oil circuit. The oil is supplied via tappets and push rods.
Valve seat angle
Inlet Exhaust
30° 45°
16. Service Information
Document Title: Function Group: Information Type: Date:
Valves, adjusting 214 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Valves, adjusting
The valve clearance must be checked and adjusted at specified intervals. To do this, the engine oil temperature must be
between 20 °C (68 °F) and 80 °C (176 °F).
Valve clearance adjustment
Item mm inch
Inlet valve 0.3 0.012
Exhaust valve 0.5 0.020
Adjustment
Figure 1
Valve clearance, adjustment
1.
2.
3.
4.
Remove rocker cover.
Turn crankshaft until both valves in cylinder 1 overlap (Exhaust valve about to close, inlet valve about to open).
Adjust clearance of valves marked in black in figure. Mark respective rocker arm with chalk to show that adjustment
has been done.
Figure 2
Lock nut, tightening
Tighten down the lock nut to 20 N·m (15 lbf·ft) check the adjustment again with a feeler gauge.
17. 5.
6.
Figure 3
Valve clearance, adjustment
Turn crankshaft one full revolution (360°). Now adjust clearance of valves marked black in figure.
Install the valve cover together with a new gasket and tighten down the screws.
Tightening torque: 9 N·m (6.6 lbf·ft)
18. Service Information
Document Title: Function Group: Information Type: Date:
Crankshaft, description 216 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Crankshaft, description
The forged crankshaft of the D6D engine is provided with integrated balance weights. The drive gear for the timing
gears and the flywheel flange are shrunk on.
Figure 2
Fillet radii on the bearing journal
The material microstructure of the fillet radii on the bearing journals is strengthened by rolling.
Remachining of the fillet radii is therefore not permissible.
Figure 3
Allowable repair limit
In case of repair, there is available one undersize of 0.25 mm (referred to the diameter) for the crank pins and main
bearing journals.
Figure 4
Allowable thrust bearing face repair limit
The thrust bearing face can only be remachined once (oversize: 0.4 mm, 0.2 mm each side).
Thrust bearing clearance of the crankshaft in installed condition: 0.1 to 0.28 mm (0.004 to 0.011 in).
19. Suggest:
If the above button click is invalid.
Please download this document
first, and then click the above link
to download the complete manual.
Thank you so much for reading
20. Service Information
Document Title: Function Group: Information Type: Date:
Connecting rod,
description
216 Service Information 2015/3/12
Profile:
EXC, EC180B LC [GB]
Connecting rod, description
The connecting rod of forged steel is fitted at the big end bearing bore with a balance weight (1) in order to
compensate the manufacturing tolerances with regard to weight and position of the center of gravity.
The number markings (A) on the big end eye and the bearing cap must be on one side and identical.
Locating lugs (2) are provided in the lower and upper bearing shells to prevent the bearing shells from rotating in
their seat; these lugs engage in oblong shaped grooves in the big end eye and big end bearing cap.
The piston must be so installed that the flywheel symbol (B) on the piston top faces the flywheel.
When assembling connecting rod and piston, the centering pins (3) for locating the connecting rod bearing cap
must be fitted on the upper face of the piston on the side of the flywheel symbol (B).
Figure 1
Connecting rod