7

insight compact guide hawaii maui insight compact guides

LINK 1 ENTER SITE >>> Download PDF
LINK 2 ENTER SITE >>> Download PDF

File Name:insight compact guide hawaii maui insight compact guides.pdf
Size: 4776 KB
Type: PDF, ePub, eBook

Category: Book
Uploaded: 9 May 2019, 21:36 PM
Rating: 4.6/5 from 593 votes.

Status: AVAILABLE

Last checked: 4 Minutes ago!

In order to read or download insight compact guide hawaii maui insight compact guides ebook, you need to create a FREE account.

Download Now!

eBook includes PDF, ePub and Kindle version

✔ Register a free 1 month Trial Account.

✔ Download as many books as you like (Personal use)

✔ Cancel the membership at any time if not satisfied.

✔ Join Over 80000 Happy Readers

insight compact guide hawaii maui insight compact guidesThe new MACK PowerLeash engine brake is a compression release-type system that features a hydraulic actuator incorporated into the exhaust rocker arms, and is less sensitive to low or inadequate oil pressure than other engine brakes used on MACK engines. During engine brake operation, the hydraulic actuators fill with oil so that the inboard exhaust valves open as the piston approaches top-dead-center of the compression stroke. This essentially converts the engine into a large air compressor that produces retarding horsepower to aid in slowing the vehicle. 1 Figure 1 MACK Engine Brake Cut-Away View During engine operation, intake air (compressed by the turbocharger) enters the cylinder through the open intake valves. The upward movement of the piston during the compression stroke further compresses the charge of air. The charge of air expands during the power stroke and forces the piston downward. When the engine brake is activated, however, the inboard exhaust valve is opened just as the piston approaches top-dead-center of the compression stroke, allowing the charge of compressed air to be released and vented into the vehicle exhaust system. The energy of compression is then lost. This loss of energy is what increases the braking effect of the SB Page 1 of 40 SERVICE PUBLICATIONS, ALLENTOWN, PA MACK TRUCKS, INC. 2003 2 engine and allows the vehicle to slow down while minimizing the need to use the service brakes to slow the vehicle. The service brakes must always be used to control the vehicle and bring it to a complete stop. ELECTRICAL CONTROL SYSTEM Vehicles equipped with a MACK PowerLeash engine brake have a switch mounted on the dashboard that allows the operator to turn the system ON and to select the desired amount of retarding power. The dashboard-mounted switch has three positions: OFF (bottom position), LOW (center position) and HIGH (upper position).http://anthonygillant.com/userfiles/casio-baby-g-shock-manual.xml

Tags:
• insight compact guide hawaii maui insight compact guides, insight compact guide hawaii maui insight compact guides guide, insight compact guide hawaii maui insight compact guides reviews, insight compact guide hawaii maui insight compact guides manual, insight compact guide hawaii maui insight compact guides 2019.

2 Figure 2 Dash-Mounted Engine Brake Switch When the switch is in the LOW position, one-half (three cylinders) of the engine brake retarding capability is applied. In the HIGH position, full retarding power (all six cylinders) is applied. Engine brake operation is controlled by the V-MAC system. A constant 12 volts at a low current is supplied to the engine brake solenoids at all times. When the dashboard switch is turned ON and no fuel is requested (0 throttle), the engine electronic control unit (EECU) increases the current to the engine brake solenoids, causing the solenoid coils to energize. A clutch switch provides a signal to the V-MAC system to de-energize the engine brake solenoid when the clutch pedal is depressed. Engine stalling and potential engine damage can occur if the engine brake is operated at cold engine oil temperatures. The V-MAC III engine control system on vehicles equipped with either the PowerLeash or J-Tech engine brake, includes a feature that prevents the engine brake from being activated until the engine coolant temperature reaches at least 125 F (52 C). The engine brake will not function until sufficient engine warmup time has elapsed, regardless of the dashboard engine brake switch setting. SB Page 2 of 40 3 MECHANICAL SYSTEM The MACK PowerLeash engine brake is integrated into the valve train. During normal operation, the exhaust valves open during the exhaust stroke only. During an engine braking event, however, the inboard exhaust valve opens at the top of the compression stroke to provide engine braking. To accomplish this, hydraulic actuators are incorporated into the exhaust rocker arms, and a special engine brake profile is incorporated into the exhaust lobes of the camshaft. The engine brake hydraulic actuator is controlled by engine oil pressure.http://crimeindiaonline.com/userfiles/casio-baby-g-manual-bga-110.xml Oil under pressure is supplied to the actuator through the control gallery in the rocker shaft, and the flow of oil is controlled by the engine brake solenoid located on top of the shaft. A second gallery in the rocker shaft, the constant oil supply gallery, supplies a constant flow of oil to the inlet and exhaust rocker arms for lubrication. When oil enters the actuator upper cavity, the actuator hydraulically locks with the plunger extended to take up the lash from the valve train. As cam rotation continues and the lifter roller reaches the transition point from sub-base to base circle, the upward movement of the pushrod opens the inboard exhaust valve because the lash has been removed from the valve train due to the hydraulically locked actuator plunger, thus producing the braking event. MACK PowerLeash Engine Brake Components The MACK PowerLeash engine brake consists of the following components: 3 Camshaft The engine brake camshaft (part No. 454GC5234A for E-Tech CCRS, 454GC5244 for ASET AC engines, and 454GC5238 for ASET AI and AMI engines) has a engine brake lift profile (dimension from sub-base to base circle) on the exhaust lobes, whereas J-Tech engine brake camshafts have a brake lift. With clearance between the actuator and the actuating pin removed, the slight movement of the pushrod created when the camshaft rotates to the area of transition from sub-base to base circle, pushes the rocker arm and opens the inboard exhaust valve before piston reaches top-dead-center of the compression stroke. Figure 4 MACK Engine Brake Exhaust Rocker Arm with Hydraulic Actuator The exhaust rocker arm has two adjusting screws. The adjusting screw located at the pushrod end of the rocker arm adjusts engine brake plunger lash. The adjusting screw located at the valve end of the rocker arm adjusts exhaust valve lash.https://www.becompta.be/emploi/bosch-shu-6800-service-manual SB Page 4 of 40 5 5 The hydraulic actuator consists of the following: a plunger and spring located in the lower chamber a ball check valve located on top of the plunger and spring assembly a control piston and spring located in the upper chamber A constant supply of oil is fed to the actuator to fully lubricate all components. Spring tension holds the control piston down to unseat the check valve ball. With the check valve ball unseated, oil flows freely into and out of the plunger chamber. When the engine brake solenoid is not energized, the plunger assembly can move up and down freely inside the actuator bore, but spring tension keeps the plunger seated against the lower snap ring. This free movement of the plunger provides the necessary clearance between the bottom face of the plunger and the exhaust valve actuating pin during normal engine operation. Figure 5 Hydraulic Actuator Cut-Away View (Viewed from the Rear of the Rocker Arm) When the engine brake solenoid energizes, oil flows into the rocker shaft control gallery, then from there into the actuator control piston cavity inside the rocker arm. The flow of oil moves the control piston upward off its seat and simultaneously fills the lower plunger cavity with oil. With the control piston off its seat, the check valve ball also moves upward. As the rocker arm begins to rotate and force the inboard exhaust valve open, oil pressure in the plunger cavity increases, forcing the check valve ball to seat and hydraulically lock the plunger in the extended position. With the plunger extended, lash between the plunger and the inboard exhaust valve is reduced. Continued rotation of the exhaust rocker arm opens the inboard exhaust valve, thus producing the braking event. SB Page 5 of 40 6 6 Figure 6 Hydraulic Actuator Operation (Viewed from the Rear of the Rocker Arm) When the engine brake solenoid is de-energized, the flow of oil to the actuator upper cavity is removed.https://elsenorcafe.com/images/cadillac-cts-repair-manual.pdf Spring tension then pushes the control piston back down and unseats the check valve ball. With the check valve ball unseated, oil can again flow freely in and out of the plunger chamber. 7 Rocker Shaft The rocker shaft (part No. 466GC495 or 466GC4106M) includes two oil galleries and a port for the solenoid. The upper gallery supplies control oil to the exhaust rocker arms, and the lower gallery provides a constant supply of oil to all the rocker arms. When the engine brake solenoid energizes, oil flows from the constant supply gallery to the control gallery, and in turn, control oil is then supplied to the hydraulic actuator upper (control piston) cavity Figure 7 Rocker Shaft SB Page 6 of 40 7 8 Oil is supplied to the rocker shaft through an oil supply passage in the front rocker shaft mounting bracket (part No. 146GB340). This mounting bracket is press-fit on the rocker shaft, whereas the middle and rear mounting brackets (146GB341) are a new slip-fit. An oil supply screen (part No. 387GC224) is located in the counterbore of the oil passage at the bottom of the rocker shaft mounting bracket. 9 Figure 8 Front Rocker Shaft Mounting Bracket with Oil Supply Screen This screen is a relatively fine (100 x 100 mesh) stainless steel screen with a nominal rating of 40 microns. The purpose of this screen is to protect the engine brake hydraulic actuator against any initial debris that may be circulating with the oil at initial start-up following an engine rebuild, etc. Servicing this screen at any regular service interval is not required. The screen should be cleaned after any type of engine failure that has contaminated the lubrication system, if the rocker shafts have been removed for any reason or after a major engine overhaul. Additionally, the screen should be inspected and cleaned if troubleshooting procedures for engine brake operation indicate a drop in oil pressure at the rocker shafts. Exhaust Valve Yoke The inboard side of the exhaust yokes (part No.https://www.saenger-ohg.de/wp-content/plugins/formcraft/file-upload/server/content/files/1629d239e1c769---Craftsman-router-operator-s-manual.pdf 891GC224M) contains a hole for the exhaust valve actuating pin. The actuating pin rests on a cap that is installed over the tip of the valve stem on the inboard exhaust valve. Figure 9 Exhaust Yoke, Actuating Pin and Valve Stem Cap Key Qty. Part No. Description GC224M Valve yoke, exhaust GB231 Actuating pin GB30 Cap, inboard exhaust valve stem tip SB Page 7 of 40 8 10 Spring-Loaded Pushrods To prevent excessive valve clatter created by the increased exhaust valve lash, and also to keep the lifter roller in contact with the cam lobe, spring-loaded pushrods (part No. 369GC339) are used. These pushrod assemblies contain a spring on the rocker arm end. The spring allows the pushrod to expand during the valve closed (or cam sub-base circle) cycle, thus eliminating excessive lash in the valve train and keeping the lifter roller in contact with the cam lobe. During the valve opening cycle, the spring compresses as the lifter roller travels up the ramp of the cam lobe. The pushrod becomes a solid assembly when the internal stops of the upper and lower pushrod seats contact each other. When the pushrod is solid, the upward force of the valve lifter is transmitted to the rocker arm. Figure 10 Spring-Loaded Pushrod Assembly Cylinder Heads, Valve Guides and Valve Yoke Guide Pins There are different cylinder head part numbers for E-Tech CCRS, ASET AC, AI and AMI engines equipped with the MACK PowerLeash engine brake. The correct part number cylinder head must be used for the engine type. The new guide looks the same as valve guide part No. 714GB3111, but the new guide is made from an alloy which has greater high temperature wear resistance. It is mandatory that valve guide part No. 714GB3113 be used at the inboard exhaust locations on ASET engines equipped with the MACK PowerLeash engine brake.www.denizraf.com/image/files/casio-3769-user-manual.pdf Factory production cylinder heads for MACK PowerLeash engines have the 714GB3113 valve guides installed at the inboard inlet valve locations (as well as at the inboard exhaust locations) for the convenience of the factory valve guide installation operation. SB Page 8 of 40 9 In addition, all cylinder heads used with the MACK PowerLeash engine brake require the MANDATORY use of part No. 183GC2257 valve yoke guide pins. The 183GC2257 guide pins can be identified by the diameter of the pin ends as shown in the following illustration. Also, 183GC2257 guide pins have a surface heat treatment which makes the entire pin either black or gray in color. The 183GC2257 guide pin can be identified by the black color, compared to the shiny metal surface of the standard guide pin, and by the size of the chamfer at the pin ends. Use of this guide pin will be standardized on all engines during June Figure 11 Valve Yoke Guide Pins If a valve yoke guide pin must be replaced on an engine equipped with a MACK PowerLeash engine brake, it is MANDATORY that guide pin part No. 183GC2257 be used. If replacement of a cylinder head is necessary on a PowerLeash equipped engine manufactured prior to June 2003, special arrangements must be made with the facility supplying the replacement cylinder head (either the Hagerstown manufacturing facility or the Middletown Remanufacturing Center) to have the proper guide pins installed. As an alternative, the guide pins can be ordered separately and installed into the new head by the servicing facility. 11 Cylinder Head Cover Because the MACK PowerLeash engine brake is completely integrated with the valve train, cylinder head cover spacers are not necessary as they are with the J-Tech engine brake. The cylinder head cover contains an electrical pass-through connection (part No. 40QE2182) to connect the engine brake solenoid wire to the engine wiring harness.https://www.thediethub.in/wp-content/plugins/formcraft/file-upload/server/content/files/1629d239e09b3f---craftsman-router-crafter-manual.pdf Figure 12 Cylinder Head Cover with Electrical Pass-Through Connection SB Page 9 of 40 10 MACK ENGINE BRAKE ASSEMBLY The MACK Engine Brake is totally integrated into the valve train. There are no engine brake units or assemblies bolted to the top of the rocker shaft mounting brackets as there were with certain previous engine brakes used by Mack Trucks, Inc. The following information provides assembly instructions for certain components unique to the MACK Engine Brake. Exhaust Valve Yoke Installation 1. Lubricate the tip of the inboard exhaust valve stem with a small drop of clean engine oil. 2. Install the valve stem cap (part No. 232GB30) on the tip of the inboard exhaust valve stem. The valve stem cap must have a free-fit on the valve stem tip. If there is any binding or tightness, the cap must be replaced. Using a cap that is tight on the valve stem tip will result in brake lash and valve lash mis-adjustment. 12 Figure 13 Installing Valve Stem Cap 3. Lubricate the exhaust valve yoke guide pins with clean engine oil. SB Page 10 of 40 11 4. Place the exhaust yoke (part No. 891GC224M) over the guide pin. The adjusting screw end of the yoke goes over the outboard exhaust valve. 13 Figure 14 Installing Exhaust Yoke 5. After the exhaust valve yokes have been installed, yoke balance can be adjusted. Refer to the Valve Adjustment section of this bulletin. The first rocker shaft mounting bracket is a press-fit onto the shaft, while the center and rear brackets are a slip-fit. The rocker shaft and front mounting bracket are supplied as an assembly. The pushrod end of the rocker arm faces the large offset side of the rocker shaft mounting bracket. 4. Lubricate two flat washers (part No. 711GC256) with clean engine oil, then slide them on the front end of the rocker shaft. Install a retaining ring (part No. 97AX292) in the groove at the end of the shaft to secure the rocker arm in place. 5. Lubricate a spring washer (part No.https://www.enviedecrire.com/wp-content/plugins/formcraft/file-upload/server/content/files/1629d23ae0afc3---Craftsman-router-manual.pdf 579GC148A) with clean engine oil, then slide it onto the opposite end of the rocker shaft and position it against the mounting bracket. 6. Lubricate the bore of the inlet rocker arm (part No. 44GB54M) with clean engine oil, then install the rocker arm on the rocker shaft. The pushrod end of the inlet rocker arm faces the long offset side of the rocker shaft mounting bracket. 7. Lubricate a flat washer (part No. 711GC256), then slide it on the rocker shaft. Install a circlip (part No. 97AX292) into the groove of the rocker shaft to secure the inlet rocker arm in place. Lubricate the threads of the locating bolt (part No. 1AM13). Install the locating bolt and lock washer (part No. 36AX22) to the mounting bracket. Fingertighten only at this time. 14. Continue the assembly by installing the remaining washers, rocker arms and mounting bracket. Make sure that the mounting bracket-to-rocker shaft bolt is only finger tight at this time. 15. Complete the assembly by lubricating a flat washer (part No. 711GC256) with clean engine oil and sliding it over the end of the rocker shaft against the rear mounting bracket, then lubricating the bore of the third inlet rocker arm with clean engine oil and installing it over the end of the rocker shaft. 16. Lubricate two flat washers (part No. 711GC256), then slide them on the rocker shaft. Install a circlip (part No. 97AX292) into the groove at the end of the rocker shaft to secure the assembly. SB Page 14 of 40 15 Engine Brake Solenoid Installation 16 Figure 18 Engine Brake Solenoid Installation Key Qty. Part No. Description GC313 Solenoid spring retainer set GC54 Solenoid assembly, engine brake GC2127 O-ring, lower, engine brake solenoid The solenoid spring retainers (part No. 326GC313) and upper O-ring (part No O ) are supplied with the solenoid valve assembly. The engine brake solenoid is secured to the rocker shaft with two clip-on type spring retainers.www.denizlihurda.com/image/files/casio-3769-amw-701-manual.pdf A new solenoid supplied through the MACK Parts System includes the spring retainers. The retainers are also available separately (part No. 326GC313). Installation of the solenoid is as follows: 1. Place the lower O-ring (part No. 446GC2127) into position, fully seated in the bottom of the solenoid bore in the rocker shaft. Do not place the lower O-ring on the solenoid adapter and then install the solenoid assembly to the shaft. Doing so will cut the lower O-ring. 2. Lubricate both of the engine brake solenoid O-rings with clean engine oil. SB Page 15 of 40 16 3. Position the solenoid for installation, with the wire leads on the side of the rocker shaft that faces the valves. 4. Insert the solenoid into the rocker shaft port and push downward firmly with the palm of the hand to fully seat the solenoid. The solenoid must be fully seated by significant hand pressure. The retaining clips will not seat a solenoid that has not already been fully seated. 17 Figure 19 Installing Engine Brake Solenoid 5. Snap both clips around the bottom of the rocker shaft. 18 Figure 20 Force Solenoid Retaining Clips into Position SB Page 16 of 40 17 Latching and unlatching the solenoid retaining clips requires a great deal of finger pressure to overcome the large amount of spring tension. Care must be used to avoid pinching the fingers or snapping the latches against the fingers. 6. After the retaining clips have been installed, inspect the solenoid-to-rocker shaft mating surfaces. The surfaces of both components must be fully seated against each other. Figure 21 Inspect Solenoid-to-Rocker Shaft Mounting Surfaces A solenoid that has not been completely seated on the rocker shaft can partially turn the engine brake ON while the engine is under power, resulting in an engine miss and extremely poor engine performance. SB Page 17 of 40 18 Rocker Shaft Assembly to Engine The rocker shaft assembly is installed on the cylinder head as any rocker shaft would be installed on a MACK engine. Before the shaft assembly is installed, however, make sure the oil supply screen (part No. 387GC224) is positioned in the counterbore at the bottom of the front rocker shaft mounting bracket. If the screen fits loosely in the bore, use some grease to hold the screen in place while the rocker shaft assembly is being installed on the engine. 19 Figure 22 Oil Supply Screen in Front Mounting Bracket If the screen should slip out of place during installation of the rocker shaft assembly to the engine, the screen edge may become pinched between the rocker shaft mounting bracket and the surface of the cylinder head. If this occurs, broken hold-down bolts, a broken rocker shaft or both can result with the possibility of major engine damage. Installation of the rocker shaft assembly is as follows: 1. Make sure all 12 pushrods are properly seated in the respective lifter sockets. When installing pushrods, use care to gently lower them into position in the lifter cups. DO NOT drop the pushrods onto the lifters. Make sure that all rocker adjusting screws and brake lash adjusting screws are screwed completely upward into the rocker arms before installing the rocker shaft on the engine. If this is not done, tightening the mounting bolts for the rocker shafts or rotating the engine to adjust the valves, can bend the pushrods. SB Page 18 of 40 19 2. Place the rocker shaft assemblies on the cylinder heads and align the rocker bracket mounting holes with the holes in the cylinder head. Depress the adjusting screw end of each rocker arm so that the adjusting screw ball end is fully down into each pushrod cup. With the rocker arm depressed in this fashion, rotate each pushrod to be sure it is fully seated in the lifter cup and at the rocker arm adjusting screw. If the rocker shaft assembly is lifted off, or partially lifted off the cylinder head at anytime during the installation procedures, steps 1 and 2 above must be repeated. Not having the rockers positioned as described in step 2 above, or lifting the rockers are the usual causes of dislodging a pushrod from the lifter cup. 3. Lubricate the threads of the rocker shaft mounting bracket bolts and the undersides of the bolt heads with clean engine oil. Place the bolts into the mounting brackets, then start each bolt by hand and tighten by hand as much as possible. 4. Again, depress the rocker arm screw end of each rocker arm into each pushrod and rotate each pushrod to ensure proper installation. 5. Beginning at the center mounting bracket with bolt No. 1 (as shown in figure 23), tighten each rocker shaft mounting bracket bolt evenly (in the sequence shown in figure 23), keeping the rocker shaft assembly level until the brackets are against the cylinder head. When the brackets have contacted the cylinder head, tighten the mounting bracket bolts in the sequence shown, using a two-step process; first tighten the mounting bolts to 25 lb-ft (34 N m), then, using the same sequence, tighten the mounting bolts to 40 lb-ft (54 N m). The mounting bracket-to-rocker shaft bolts at the center and rear mounting brackets must be finger-tight only when the rocker shaft assembly is being installed on the engine. This allows the slip-fit mounting brackets to align and properly seat firmly on the cylinder head surface. After the rocker shaft mounting bolts have been tightened to proper specifications, the mounting bracket-toshaft bolts must then be tightened to proper specifications. This ensures that there is no possibility of any relative motion between the mounting bracket and rocker shaft. Failure to follow this assembly procedure can result in broken hold-down bolts, broken shaft or both, with the possibility of major engine damage. SB Page 19 of 40 20 Figure 23 Tightening Sequence Rocker Shaft Mounting Bracket and Locating Bolts 6. After the rocker shaft mounting bracket bolts have been properly tightened (bolt Nos. 1 through 6 in figure 23), tighten the center and rear mounting bracket-to-rocker shaft locating bolts (bolt Nos. 7 and 8 in figure 23) to 18 lb-ft (24 N m). The front mounting bracket-to-rocker shaft bolt (bolt No. 9 in figure 23) can be tightened to 18 lb-ft (24 N m) anytime during the process. Whenever the rocker shaft assembly is removed for any type of service procedure, the mounting bracket-to-rocker shaft locating bolts must be loosened. Upon reassembly, the rocker shaft mounting bracket bolts and the mounting bracket-to-rocker shaft locating bolts must be tightened as outlined in the procedures above, or serious engine damage may result. SB Page 20 of 40 21 After the rocker shaft assembly has been installed, route the solenoid ground wire under the rocker shaft and up through the end of the solenoid retainer clip. Secure the ground wire terminal to the cylinder head mounting bolt located directly to the right of the solenoid. This mounting bolt has a threaded hole in the center of the bolt head. Use a bolt (part No. 66AM2) and a flat washer (part No. 270AM9) to secure the ground wire. 20 While tightening the wire terminal retaining bolt, do not allow the terminal to rotate and twist the wire. Use of the flat washer will prevent this from occurring. SB Page 21 of 40 22 Spring-loaded pushrods are used at the exhaust valve locations. In order to properly adjust the engine brake hydraulic actuator lash, the pushrod springs must be compressed. In addition to the hand tools normally used to adjust valves, a T-handle torque screwdriver (tool No. J 29919) with a 5 mm internal hex bit is required. This torque screwdriver is preset to 6 lb-in. 21 Figure 25 T-Handle Torque Screwdriver J The torque screwdriver is mandatory for performing the MACK PowerLeash brake lash and valve lash adjustments. The flywheel is marked in 120-degree increments to indicate engine position at which the valves must be adjusted. Access the valve adjustment markings on the flywheel by removing the cover from the bottom of the flywheel housing. Tool No. J 38587, which engages the flywheel through an access hole in the flywheel housing, is recommended to rotate the engine. 22 Figure 26 Valve Adjustment Markings on Flywheel SB Page 22 of 40 23 Adjustments are made in three stages. The exhaust valve yoke is adjusted first (inlet valve yokes are pinless and do not have an adjusting screw), followed by the engine brake hydraulic actuator, then the exhaust and inlet valve lash. Begin the adjustment procedures at cylinder No. 1 by rotating the engine in the direction of normal rotation until the valve adjustment mark for cylinders 1 and 6 is aligned in the center of the access window. Valve Yoke Adjustment The following valve yoke adjustment procedures are performed with the rocker shaft assembled on the head, as they would be performed during a normal valve adjustment procedure at the recommended service interval. If the cylinder head has been disassembled, however, it is easier to adjust all the valve yokes prior to installing the rocker shafts. The adjustment procedure for each individual valve yoke, however, remains the same. Once adjusted, valve yokes cannot be moved to another cylinder. 1. Loosen the engine brake hydraulic actuator adjusting screw locknut (located on the pushrod end of the exhaust rocker arm) and back the adjusting screw out several turns. 23 Figure 27 Loosening Hydraulic Actuator Locknut and Backing Out Adjusting Screw 2. Loosen the exhaust valve yoke screw locknut. 24 Figure 28 Loosening Exhaust Valve Yoke Adjusting Screw Locknut SB Page 23 of 40 24 3. Exert moderate force on the exhaust valve yoke by pressing on the end of the exhaust rocker arm above the yoke. It will be necessary to pull the valve yoke up to insert the thickness gauge between the valve stem tip and the yoke. Inserting the thickness gauges may be made easier if the gauge is inserted under the inboard portion of the valve yoke first, then under the outboard portion Figure 32 Inserting Thickness Gauge While exerting a moderate force on the rocker arm end above the yoke, check that an equal drag is felt on both thickness gauges. If drag is not equal, readjust the valve yoke. Figure 33 Checking Valve Yoke Adjustment SB Page 25 of 40 26 Engine Brake Hydraulic Actuator Adjustment It is mandatory that the T-handle torque screwdriver (tool No. J 29919) be used to adjust the MACK PowerLeash engine brake hydraulic actuator. The engine brake hydraulic actuator must be adjusted prior to adjusting the exhaust valve lash. 1. Loosen the engine brake adjusting screw (located above the pushrod) locknut and back the adjusting screw out several turns. 2. Loosen the swivel-head adjusting screw locknut (located on the valve actuating side of the exhaust rocker arm) and back the adjusting screw out a couple of turns Figure 34 Loosening Swivel-Head Adjusting Screw 3. Push down on the pushrod end of the exhaust rocker arm to fully depress the pushrod spring, then insert a (1.14 mm) thickness gauge between the hydraulic actuator plunger and the actuator pin located above the inboard exhaust valve. Figure 35 Inserting Thickness Gauge Between Brake Plunger and Actuator Pin SB Page 26 of 40 27 It is recommended that a dull knife-edge be ground onto the leading edge of the (1.14 mm) thickness gauge to facilitate inserting it between the brake plunger and the actuator pin. Doing this will eliminate the need for backing off the adjusting screw to insert the thickness gauge. A relief is cut in the lower surface of the rocker arm to provide clearance for inserting the thickness gauge. The thickness gauge must be installed from the side of the rocker arm that faces the rear of the engine, and at the angle shown in the above illustration. 4. Using the T-handle torque screwdriver (tool No.