Archive for the ‘Tech’ Category

Homemade HD Tube Bender

Sunday, May 23rd, 2010

Back in March of 06 I built this tube bender. I bought a set of plans off EBay from this guy. I bought all the metal for about $100 and then picked up Pro Tools 1.75″ x 6″ x 240 Degree Die. Below are a few pics of the build.

I have since added some caster wheels to it to make it nice and mobile and have started a conversion to Air over Hydro but have not completed that yet.

Tags: Tech, Tube Bender
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C4 Tech Article

Sunday, May 23rd, 2010

As they await assembly, cleaned, renewed, rebuilt, and new components and subassemblies of the Ford C4 Cruise-O-Matic almost look like the mechanisms comprising a fine Swiss watch.

Though the C4′s cast aluminum case and torque-converter housing haven’t been prettied up with paint or polish, remember this purpose-built trans will be going back in a ’70 Ford Bronco that sees much street and mud fun. Find out how Westminster Transmission Service introduced additional reliability and performance to the proven trans by reading on.

One of the ways Westminster Transmission Service beefed up the C4 was to replace the flexible bands with stouter, non-flexible bands. For improved clamping force, the Second-gear band on the right also has a higher coefficient of friction, as indicated by the red lining. The high-performance relined bands were procured from The Converter Shop in Chino, California.

Swiss-Watch-Precision C4

Westminister Transmission Service Rebuilds Ford’s Venerable Auto Box

By D. Brian Smith

Automatic transmissions are mysterious marvels of the Industrial Revolution. Every mechanical, hydraulic, electrical, vacuum-operated, and electronic component of a modern-day automatic transmission must function in perfect harmony to do its job properly. Like a Swiss watch that keeps perfect time, automatic transmissions are the precision instruments that effortlessly propel many of our custom vintage pickups.

Recently, we heard of a friend’s off-road misadventure. While playing in the mud with his son in their ’70 Ford Bronco, Steve Shattuck lost the reverse gear in his Ford C4 Cruise-O-Matic automatic trans. We saw Steve’s misfortune as a great opportunity to watch how the pros rebuild a C4. By doing so, we could convey the rebuild process and demystify these complex creations of the Industrial Age to CCT’s readers via words and photos.

Manufactured 1964 through 1987, Ford’s C4 has powered everything from the puny Pinto up to the burly Broncos. Because C4s are compact, well-engineered, and reliable, they back many Ford-powered Ford custom vintage pickups today. Steve selected Westminster Transmission Service (WTS) in Westminster, California, to renew and improve the C4. Owned by Joe Piraino since 1987, Joe and his talented crew have rebuilt GM, Ford, and Chrysler automatic transmissions for street, dragstrip, race, and off-road applications. Indeed, Joe has been working on transmissions at this same shop since 1977. Follow along with us, as Joe and his son Michael, a Mechanical Engineering student at Cal Poly Pomona, rebuild a C4 for off-road fun in a 351W EFI-powered ’70 Ford Bronco.

From the Ford factory, Second-gear servo pistons are 2.822 inches in diameter. In addition, they’re cast aluminum. WTS replaced the Second-gear servo piston with…	…a billet aluminum Second-gear servo piston from Sonnax Industries that is 3.052 inches in diameter. Since the servo piston is displacing hydraulic fluid, the more fluid pushed, the more hydraulic pressure. More hydraulic pressure means that more clamping force will be applied to the Second-gear band.	Joe points out where the Sonnax Second-gear piston goes in the transmission case.

With repeated use, the original cast aluminum Second-gear servo piston will wear, creating a gap or air/fluid leak between the transmission- case opening and the servo piston. Leaks breed inefficiency and eventual problems.	To prevent wear and leaks, the Sonnax Industries billet-aluminum servo piston has a Teflon sleeve around the piston.	To improve clamping power by 25 percent in high gear (drive or Third gear), WTS machined the pressure plate to make room for an additional high-gear clutch plate, bringing the clutch pack total from four to five.

With good reason, TransGo Performance patented the term Shift Kit. WTS utilized TransGo Performance’s Shift Kit to renew the C4′s valve body (shown to the right of the Shift Kit installation manual).	By installing the heavy-duty pressure-regulator spring, included in the TransGo Shift Kit for rebuilding the valve body, mainline hydraulic pressure was increased by 15 pounds.	Since the stock three-pinion cast iron with steel pinions planetary gear was in great shape, WTS cleaned, inspected, and reemployed it.

Until mid-1972, vacuum modulators were screw-in type, as shown on the left. The vacuum modulator on the right was used in C4s from mid-1972 through 1987. The push-in type is preferable, since the component has two diaphragms available for obtaining vacuum. Obviously, engines with radical cams work better with the push-in-style vacuum modulator. Quicker shifts result. The C4 in Steve’s ’70 Bronco is a late-’72 unit (thankfully).	With the worn oil-pump gears in the background, Joe pointed out the worn surface on the C4′s original oil pump that the gears rotated within.	From the factory, C4 oil pumps have Babbit bushings, as shown on the left. WTS utilized a new Ford oil-pump housing and Clevite 77 Bronze bushings, as shown on the right. These Clevites are harder in composition, and therefore more durable.

As built from WTS, the oil pump is brand new, with gears from Transtar Industries, Clevite 77 Bronze bushings, and a new Ford oil pump body.	All the cleaning, refurbishing, and replacing complete, WTS was ready to assemble the much-improved C4.	For assembly, Mike nested the forward clutch drum into the direct drum.

He next installed the front ring gear in the forward clutch drum.	So long as you don’t start singing “The hip bone’s connected to the leg bone,” we’ll indicate that he installed the front planetary gear into the front ring gear.	Mike liberally applied Lucas Oil Transmission Fix (LOTF) to all metal surfaces. WTS uses LOTF as an assembly lube–it works really well.

To complete the first subassembly, Mike installed the sun gear, thrust washer No. 5, and the input shell (a.k.a. sun-gear shell).	Mike placed the input shaft in the just-completed subas-sembly.	Focusing on the output shaft, Mike installed the governor and applied assembly oil. The output shaft is comprised of governor valves and a distributor.

Mike applied LOTF to the governor distributor sleeve, since the opening would be receiving the governor-equipped output shaft, imminently.	With the trans case standing on end, Mike carefully installed the one-way clutch-equipped output shaft in the governor distributor sleeve.	As seen from the top of the trans case, he inserted the low and reverse drum into the output shaft, within the trans case.

A Tru-Arc snap ring was installed–this holds the output shaft and the low/reverse ring gears in place.	After soaking the low/reverse band in Mercon Transmission Fluid for at least 10 minutes, it was nested over the low/reverse drum.	Mike installed the band struts, which will clamp the low/reverse band tight to the low/ reverse drum when under hydraulic pressure. After installing the bands, he checked that they were working properly with compressed air (not shown).

To prevent any hydraulic transmission-fluid leakage, Gasgacinch gasket sealant was applied to the purple anodized billet- aluminum housing that houses the Sonnax Industries Second-gear servo piston, prior to fitment of the gasket.	Mike liberally applied grease to the Second-gear servo-piston sleeve, to diminish wear to the Teflon sleeve and prevent fluid leaks. He also lubed the black ring seals (not shown).	Since the Second-gear servo piston is under spring tension, both father and son Piraino installed the billet servo piston.

Before torquing the Second-gear servo-piston housing, Mike referred to the C4 assembly manual for the proper torque specs.	Mike torqued the Second gear servo piston housing to 16-22 lb-ft, as the manual specified.	After nesting the planet carrier within the reverse ring gear and hub (circular object in background), Mike installed the throttle-valve lever onto the side of the trans case.

Compressed air was used to test that the Second-gear-servo piston functioned properly. You can see the piston poking out where the notch is at the bottom of the trans case.	Mike installed subassembly one next. To refresh your memory, subassembly one consists of: the reverse and high clutch drum, the forward clutch and cylinder, thrust washer No. 3, the front ring gear, thrust washer No. 4, the front planet carrier, the input shell, the sun gear, and thrust washer No. 5.	After installing the intermediate band, Mike equipped the intermediate servo piston (Second-gear servo piston) and the adjusting nut with struts. He used compressed air to ensure that the intermediate band clamped properly.

In anticipation of installing the oil pump, Mike liberally applied assembly lube (LOTF).	Using a Philips screwdriver as a guide, Mike installed the oil pump. He torqued the pump’s fasteners to the specified 28-40 lb-ft.	The low/reverse-band-adjustment nut can only be used once, since it has a silicone seal that gets compressed to seal upon tightening (prevents ATF from leaking past threads). Mike adjusted the low/reverse-band nut the specified three turns. The intermediate adjustment nut is shown in the foreground. It was next installed on the other side of the trans case. Its proper adjustment is 1.5 turns. Every time an auto trans is serviced, these adjustment nuts should be replaced and readjusted.

After removing the rebuilt valve body from the Ziploc bag, Joe pointed out the floating manual valve of the renewed valve body. The top notch in the floating manual valve indexes with a nub inside the transmission. In addition, the kickdown lever (throttle-valve assembly) pushes on the valve to the right of the floating manual valve. For proper installation of the valve body, both of these valves must be correctly indexed.	Before torquing the valve body to the top of the trans case, Joe tightened the bolts with a speed wrench. He used vice-grip pliers to hold the kickdown lever (throttle valve assembly) in the correct position, to correctly mate with the valve adjacent to the floating manual valve. The roller of the detent spring also must be centered on the rooster cone. As to spec, the valve body was torqued to 80-120 In. Lbs. (10 Ft. Lbs.).	For safety sake, WTS puts a magnet inside the trans oil pan. Mike tightened and torqued the oil pan over the valve body (not shown).

Joe showed how the input shaft is supposed to go into the front of the trans, just before his son installed it.	Minutes before Mike torqued the extension shaft housing to the back of the trans case, he installed the extension-shaft-housing gasket with Gasgacinch gasket sealant.	With the help of his dad, Mike torqued the bellhousing (torque-converter housing) to the front of the trans case next.

An Art Carr heavy-duty shifter reposes in front of the just finished Ford C4 Cruise-O-Matic. Before WTS mates the renewed trans with the engine, they’ll install a new torque converter, which they procured from Orange Coast Torque Converters in Costa Mesa, California. Thanks to Westminster Trans-mission Service and the various component manufacturers, we don’t think our Bronco friend will be busting the reverse band on his newly bulletproof C4 anytime soon.

SOURCES

The Converter Shop
5071 Lindsay Ct. Dept. CCT
Chino, CA 91710
(909) 627-8595

Orange Coast Torque Converters
443 E. Bay St.Dept. CCT
Costa Mesa, CA 92627
(949) 642-1458

Sonnax Industries
www.sonnax.com

TransGo Performance
2621 Merced Ave.Dept. CCT
El Monte, CA 91733
(626) 443-4953
www.transgo.com

Transtar Industries
7350 Young Dr. Dept. CCT
Bedford, OH 44146
(440) 232-5100
www.transtarindustries.com

Westminster Transmission Service
7032 Westminster Blvd. Dept. CCT
Westminster, CA 92683
(714) 898-0089
www.westminstertransmission.com

Tags: C4 Tech, Tech
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Dana 20 Manual

Sunday, May 23rd, 2010

PART 6-3 – 4-Wheel Drive Transfer Case

Manual created by Douglas Bohn

1 – DESCRIPTION AND OPERATION

A manually shifted 2-speed transfer case in the 4-wheel drive Bronco controls the power from the engine and transmission to the front and rear driving axles (Fig. 1). The transfer case shift lever positions, from front to rear, are 4L (low gear, all wheels), N (Neutral), 2H (high gear, rear wheels), and 4H (high gear, all wheels).

POWER FLOW – NEUTRAL POSITION

When the transfer case gears are in neutral (Fig. 1), power from the front main transmission drives the transfer case input shaft and drive gear. The drive gear drives the idler shaft and the high-speed gear that free-runs on the front output shaft. Therefore, no power can be delivered to either the front, or rear axle, even when the front main transmission is in gear.

Figure 01

POWER FLOW—4L POSITION (LOW GEAR, ALL WHEELS)

When the transfer case shift lever is shifted into the 4-wheel low position, it pushes the two sliding gears back into engagement with the idler shaft low-speed gear teeth.

The power flows from the main drive gear to the idler drive gear and shaft, and to the idler low-speed gear. From the low-speed, the power flows through the two sliding gears to their respective output
shafts to give speed reduction.

POWER FLOW—2H POSITION (HIGH GEAR, REAR-WHEELS)

When the transfer case shift lever is shifted into the 2-wheel high position, the two sliding gears are pulled forward out of engagement from the idler shaft low-speed gear, leaving the front output sliding gear in neutral and pulling the rear output sliding gear farther forward into engagement with the clutch teeth of the main drive gear. This locks the main input shaft directly to the rear wheel output shaft.

The power flows directly from the transmission to the rear axle without any reduction of speed.

The front output sliding gear remains in a neutral position, the idler shaft drive gear turns the high-speed gear free on the front output shaft, and there is no power to the front axle.

POWER FLOW—4H POSITION (HIGH GEAR, ALL WHEELS)

When the transfer case shift lever is shifted into the 4-wheel high position, it pulls the rear output and front output sliding gears forward into engagement with the clutch teeth of the main drive gears. This locks the rear output shaft directly to the main input shaft, and the front output shaft to the high-speed idler shaft gear.

The power from the transmission flows from the drive gear in two directions. Direct drive to the rear axle flows through the rear output shaft. Direct drive to the front axle flows through the idler shaft drive gear, high-speed gear, and front output shaft.

2 – REMOVAL AND INSTALLATION

REMOVAL

1. Raise the vehicle on a hoist.

2. Support the transfer case shield with a jack and remove the bolts that attach the shield to the frame side rails. Remove the shield.

3. Drain the transmission and transfer case lubricant.

4. Disconnect the front and rear drive shafts at the transfer case (Fig. 2).

5. Disconnect the speedometer cable at the transfer case.

6. Disconnect the shift rods from the transmission shift levers. Then, place the first-reverse gearshift lever into the first gear position, and insert the fabricated tool (Fig. 2). This tool will prevent the input shaft roller bearings from dropping into the transmission case when separating the transfer case from the transmission and output shaft.

7. Cut the lock wire and remove the two bolts, washers, plates, and insulators that secure the cross member to the transfer case adapter.

8. Remove the cross member-to-frame side support attaching bolts.

9. Raise the transmission and remove the upper insulators from the cross member. Remove the cross member.

10. Disconnect the shift rod from the transfer case shift lever bracket.

11. Remove the bolt that attaches the shift lever bracket to the transfer case adapter, and allow the assembly to hang by the shift lever.

12. Secure the transfer case to a transmission jack, and remove the transfer case-to-transmission attaching bolts.

13. Move the transfer case and jack rearward until it clears the transmission output shaft (Fig. 2). Lower the transfer case.

INSTALLATION

1. Position the transfer case to the transmission (Fig. 2) and install the attaching bolts. Torque the bolts to specifications.

2. Position the shift lever to the transfer case adapter, and install the attaching bolt.

3. Connect the shift rod to the shift lever bracket and secure with the spring washer, flat washer, and cotter pin.

4. Raise the transmission and transfer case high enough to provide clearance for installing the cross member. Position the upper insulators to the cross member and install the cross-member-to-frame side support attaching bolts.

5. Align the bolt holes in the transfer case adapter with those in the cross member, then lower the transmission and remove the jack.

6. Install the cross member-to-transfer case adapter bolts, insulators, plates, and washers. Secure the bolts with lock wire.

7. Remove the fabricated tool, and connect each shift rod to its respective lever on the transmission with a spring washer, flat washer, and cotter pin.

8. Connect the speedometer cable.

9. Install the rear axle drive shaft to the transfer case, and torque the attaching bolts to specifications.

10. Install the front wheel drive shaft to the transfer case, and torque the attaching bolts to specifications.

11. Fill the transmission and transfer case to the proper levels with the recommended lubricant.

12. Position the transfer case shield to the frame side rails, and install the attaching bolts.

Figure 02

3 – MAJOR REPAIR OPERATIONS

DISASSEMBLY

1. Clean the dirt from the transfer case, and remove the bottom cover plate. 2. Remove the retaining plug, flat washer, detent spring, and ball that engage the front drive shift rail detent rod. Then, remove the plug from the front drive detent rod access hole (Fig. 3) 3. Remove the retaining plug, detent spring, and ball that engage the rear drive shift rail detent rod (Fig.3). Figure 03 4. Remove the idler shaft Lock plate from the rear of the case. 5. Using a hammer and soft drift, drive the idler shaft rearward and out of the case. Then, lift the thrust washers and idler gear from the case (Fig. 4). When removing the idler gear, do not lose any of the rollers. Figure 04 6. Remove the flange retaining nuts from the front and rear output shafts (Fig. 5). Figure 05 7. Remove the flange from the front and rear output shafts (Fig. 6). Discard the front flange 0-ring. Figure 06 8. Remove the bolts securing the adapter housing to the case and remove the adapter as an assembly (Fig.7). 8A. [Editor’s note: With my J-Shift case, I found that I could remove the adapter housing, but that the input shaft cluster was press-fit into the main case. If this is the situation with your J-Shift case, do not worry. Don’t Attempt to pry the cluster out, because you could damage the machined surfaces. Simply remove the adapter housing and proceed to step 9. You will remove the input shaft assembly in step 9A] 9. Remove the bolts that attach the rear output shaft bearing retainer to the case, and remove the retainer and output shaft as an assembly. Be careful not to lose any of the rollers. 9A. If, in step 8 or 8A you were only able to remove the adapter housing, due to the press fit of the input shaft assembly, note that now that the rear output shaft assembly is removed, you have access through the main case to LIGHTLY tap the input shaft assembly out of its press fit with soft (wood, plastic, brass) drift. Set the input shaft assembly to the side with its adapter housing. 10. Disconnect the shift rail link from the two shift rails. (J-Shift Case owners do not need to do this since their rails are not actually connected together) 11. Lift the rear output shaft sliding gear from the case (Fig. 7). 12. Remove the setscrew securing the rear shift fork to the shift fork to the shift rail. Then, remove the rear drive shift rail and fork from the case (Fig. 7). Figure 07 [Editor’s note: In order for the sliding gear to be removed from the shift fork, the fork must be able to rotate all the way over to the inspection port. In my case this was not an option, since the shift fork stopped short of the inspection port. I solved the problem as described in step 12A below] 12A. Note that the rear drive shift fork is secured to its shift rail by means of a sunken, Allen head set screw. This setscrew could be removed with a 3/16” Allen key, but this could prove tedious since there is limited clearance, and the Allen key only affords 6 positions of grab. This inconvenience can be worked around using a 1/4”-hex-drive Allen-type bit – the type of bit that might be found in a universal screwdriver type tool set. Inset the (3/16”size) bit into the setscrew. A 12-pointed 1/4″ box end wrench may now be used to turn the Allen bit, removing the setscrew. The 12-point wrench affords more versatility than a 6-point wrench because of its in-between increments. Do not back the setscrew out entirely – just enough to free the shift fork from the shift rail. Once the shift fork is unsecured from the shift rail, the fork can swing freely on the rail and the sliding gear can be removed through the inspection port. Once the gear is removed, slide the shift rail out from the shift fork and out of the case. Remove the shift fork from the case. 13. Remove the front output shaft rear cover and shims. Tie the shims together. 14. Remove the front output shaft bearing retainer and gasket. Remove the retainer seal if it is worn or damaged. 15. Tap the threaded end of the front output shaft to remove the rear bearing cup from the case bore. 16. Wedge the front output shaft front bearing away from the main drive gear to allow removal of the snap ring from its groove in the shaft. Then, tap the shaft and rear bearing out of the case (Fig. 8). Figure 08 [Editor’s note: Your J-shift case MAY NOT have the aforementioned c-clip on the front drive output shaft in between the bearing cone and the high speed drive gear. If not, note that the front bearing cone is mildly pressed onto the shaft at the splined area. You are able to CAREFULLY (with a light hammer and a soft drift) tap the shaft assembly toward the rear of the case, driving the front bearing cone off the shaft. You can now remove the shaft assembly. 17. Lift the sliding gear, main drive gear, front bearing, spacer, and snap ring from the case. 18. Remove the front cup from the case bore. 19. Remove the setscrew securing the front shift fork to the shift rail. Then, remove the shift rail and fork from the case. 20. Remove the detent rods (Fig. 9). Figure 09 20A. With the later J-Shift case, you may notice that there is only ONE detent rod (Figures 9 and 18). While there may be debate over the existence of one or two rods, several J-Shift case owners have reported that they have only one rod. This single rod will be removed from the plughole at the rear of the left side, passing through to the single right-hand plughole.

PARTS REPAIR OR REPLACEMENT

INPUT SHAFT

1. Remove the snap ring from the front of the shaft (Fig. 10).

Figure 10

2. Place the adapter housing and input shaft on a press, and press the shaft out of the main drive gear and housing.

3. Remove the bearing retaining snap ring from the housing bore, and remove the bearing.

4. Remove the seal in the adapter housing if it is worn or damaged.

5. If the adapter housing seal was removed, install a new seal with the tool shown in Fig. 11.

Figure 11

6. Place the bearing in the housing and secure with the snap ring.

7. Using the main drive gear as a base, press the input shaft through the housing, seal, bearings, and main drive gear. Install the snap ring on the front of the shaft.

REAR DRIVE OUTPUT SHAFT

1. Remove the needle bearings from the bore of the shaft (Fig. 12).

2. Remove the speedometer driven gear from the bearing retainer housing.

3. Place the bearing retainer and rear output shaft assembly in a press, and press the shaft out of the retainer.

4. Lift the speedometer drive gear and shims. from the shaft (Fig. 12). Tie the shims together.

Figure 12

5. Press the outer cup, bearing and seal from the bearing retainer as shown in Fig. 13.

6. Remove the inner cup with the tool shown in Fig. 13.

Figure 13

7. Remove the inner bearing from the output shaft with the tool shown in Fig. 14.

8. Press the shaft onto the inner bearing with the tool shown in Fig. 14.

Figure 14

9. Install the outer cup in the bearing retainer with tool T55P-46l6Al.

10. Install the inner cup with tool T56T-461 6-A2.

11. Position the outer bearing into the bearing retainer. Then, place the shims and speedometer drive gear on the output shaft, and install the shaft in the bearing retainer housing.

12. Place the bearing retainer and shaft in a vise. Install the output shaft flange and torque the retaining nut to specifications. Install a dial indicator on the flange end of the output shaft, and check the end play. The end play should be 0.003-0.005 inch. If not within these limits, adjust the shim pack (Fig. 12) between the speedometer drive gear and rear output shaft outer bearing.

13. After establishing the correct end play, remove the output shaft flange and press the bearing retainer seal in the housing with tool T56T-46 16-A. Install the speedometer driven gear.

FRONT DRIVE OUTPUT SHAFT

1. To remove the front output shaft rear bearing, use the sliding gear as a base and press the bearing from the shaft.

2. Install the bearing as shown in Fig.15.

Figure 15

SHIFT RAIL OIL SEALS

1. Remove the shift rail seals as shown in Fig.16.

Figure 16

2. Install the two shift rail oil seals, using the tool shown in Fig. 17.

Figure 17

ASSEMBLY

1. Install the front detent rod in the case.

2. Slide the front drive shift rail all the way into the case, and position the shift fork on the rail as the rail goes into the case. Secure the fork to the rail with the setscrew.

3. Position the front output shaft sliding gear in the shift fork.

4. Install the rear detent rod in the case.

5. Slide the rear drive shift rail into the case, and position the shift fork on the rail as the rail goes into the case. Secure the fork to the rail with the setscrew. The shift rails should be inserted so that the detents are positioned as shown in Fig.18.

Figure 18

6. While holding the sliding gear and main drive gear in position, install the front output shaft and rear bearing assembly through the two gears from the rear of the case.

7. Install the main drive gear spacer and secure with the snap ring (Fig. 19).

8. Install the front output shaft rear bearing cup.

9. Position the front output shaft rear cover and shims to the case, and install the attaching bolts.

10. Using front flange and the tool shown in Fig. 5, install the front output shaft front bearing on the shaft. Install the front bearing cup (Fig. 19).

Figure 19

11. If the front bearing retainer oil seal was removed, install a new seal by using tool T57-L7657. Position the bearing retainer and gasket to the case, and install the attaching bolts.

12. Place the rear output shaft rear bearing retainer on a workbench, and install 13 needle bearings in the splined hub of the output shaft with Vaseline or grease.

13. Position the rear output shaft rear bearing retainer assembly to the case and install the attaching bolts.

14. Install the rear output shaft sliding gear in the shifting fork and on the splines of the output shaft.

15. Position the adapter housing assembly to the rear output shaft and case. Install the attaching bolts (Fig.7)

16. Install the roller bearings in the bore of the idler shaft gear with vase-line or grease.

17. Position the idler gear and thrust washers in the case, and drive the idler shaft into the rear of the case through the idler gear and thrust washers. After installing the idler shaft, tap the sides of the case to relieve tension from the case. Install the idler shaft lock plate.

18. Secure the shift rail link to the two shift rails.

19. Install the front and rear drive shift rail detent balls, springs, and retaining plugs. Be sure that the heavier loaded spring and flat washer are installed in the front drive shift rail. Install the rod access hole plug.

20. Install the flange, washer, and retaining nut on each of the output shafts, using the tool shown in Fig. 5. Be sure to install a new 0-ring in the front output shaft flange. Torque the attaching nuts to specifications.

21. Install a dial indicator on the front drive output shaft and check the end play as shown in Fig. 20. The end play should be 0.003-0.005 inch. If not within these limits, adjust the shim pack at the front output shaft rear cover.

Figure 20

22. Position the cover plate to the case and install the attaching bolts.

PART 6-4 – Specifications

ECONOLINE

TRANSMISSION GEAR RATIO

Engine CID	Ratios
1st	2nd	Rev.
170-IV	3.41	1.86	3.51
240-1V	2.99	1.75	3.17
302-2V	2.99	1.75	3.17

ADJUSTMENTS

TRANSMISSION
Detent Set Screw Head	Flush to 0.020 inch below case surface
End Play— Reverse Idler	0.004-0.018 inch
End Play—Countershaft Gear	0.004-0.018 inch

BRONCO

TRANSMISSION GEAR RATIO

Engine C I D	Ratios
1st	2nd	Rev.
170-1V	3.41	1.86	3.51
289-2V	2.99	1.75	3.17

ADJUSTMENTS

TRANSMISSION

Detent Screw Head	Flush to 0.020 inch Below case surface
End Play-Reverse Idler	0.004—0.018 inch
End Play-Countershaft gear	0.004—0018 inch

TRANSFER CASE

Front Drive Output Shaft-End Play	0.003—0.005 inch
Rear Drive Output Shaft-End Play	0.003—0.005 inch

TORQUE LIMITS

TRANSMISSION AND TRANSFER CASE	Ft-Lbs.
Cross member to Adapter Bolts	30-40
Transfer Case Adapter to Transmission Case Bolts	35-45
Cross member to Side Support Bracket Nuts	40-60
Drive Shaft Flange to Transfer Case Output Shafts Nuts	125-150
Adapter to Transfer Case Bolts	25-35
Rear Output Shaft Bearing Retainer Bolts	25-35
Front Output Shaft Bearing Retainer Bolts	25-35
Transmission Control Bellcrank Pivot Bolt and Nut	35-45

APPROXIMATE LUBRICANT REFILL CAPACITY

Transmission

3.5 Pints

TORQUE LIMITS

TRANSMISSION	Ft-lbs.
Input Shaft Gear Bearing Retainer to Transmission Case	30-36
Transmission to Flywheel Housing	37-42
Transmission Cover to Transmission Case	14-19
Speedometer Cable Retainer to Transmission Extension	3-4.5
Transmission Extension to Transmission Case	42-50
Flywheel Housing to Engine	40-50
Gear Shift Lever to Cam & Shaft Assembly Lock Nuts	18-23
U-Joint Flange to Output Shaft	60-80
Filler Plug	10-20
Drain Plug	20-30
Shifter Fork Set Screw	10-18

APPROXIMATE LUBRICANT REFILL CAPACITY

	US. Measure	Imperial Measure
Transmission	3.50 Pints	3.0 Pints
Transfer Case	2.75 Pints	2.25 Pints

SPECIAL TOOLS

Tool Number	Description
T50T-100-A	Impact Hammer-Long
T59L.100-B	Impact Hammer-Short
T58L-101-A	Puller Attachment
T53L-200-A	Handle Adapter-Female 1/2—13
T57L-4220-A4	Differential Bearing Assembly Remover
T53T-462-B	Drive Pinion Bearing Cone Replacer-Front and Rear
T57-L-4621-B	Pinion Bearing Cone Replacer
4201-C	Backlash and Runout Gauge
4851-K	Universal Joint Flange Holder
T56L-4851-C	Flange (Universal Joint) Axle End Remover
T52T-6500-DJD	Reverse Shift Rail Pliers
T63P-7025-A	Output Shaft Bearing Remove and Replacer
T63P-7111-B	Cluster Gear Roller Retainer Shaft
164 E-7052-B	Extension Housing Oil Seal Replacer

Tags: Dana 20, Tech
Posted in Dana 20 Manual, Tech | 1 Comment »

Dana 44 Manual

Sunday, April 25th, 2010

Here is a manual for the Dana 44.

Download (PDF, 3.27MB)

Tags: Dana 44
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