Chapter 35 Restoration Assembly, Week Two 12/24/2006

Because of family schedules we celebrated Christmas (gift giving) on Christmas Eve this year, so Monday, Christmas afternoon was devoted to garage work on the Healey. I continued with the installation of the Dynamat Extreme and finished the right side pedal assembly box. I will wait until a little later to finish the dynamat in the interior. The blanking plates were next: one plate with screw clip nuts for the right side master cylinders, 2 plates to cover the steering shaft holes for RHD (one in engine compartment and one in the interior), and finally two plates with the hole for the steering shaft grommet on the left side of the car for LHD cars (again one in the engine compartment and one in the interior). I painted all the flat washers and screw heads for the plate installations.

Blanking Plate 1

I then fastened each of the hot air outlet interior door assemblies and thebulkhead flange bezel. Followed by the fuse block, the double clip for the clutch and brake lines from the masters to the fluid reservoir, the flasher canister and the new flasher relay.

Bulkhead Flange Bezel

 

Vent Doors

Fuse Block and Oil Gauge Line

Well, it is a new day and I am ready for some new challenges. I will get started on the battery cable from British Car Specialists and the wiring harness from British Wiring, Inc. I pushed the harness through the firewall grommet from the interior and separated the strands. I decided to focus on the under car runs first, so after jacking up the car on stands I installed the harness wire that goes to the boot for the fuel pump, fuel sender and rear lights. I skipped the clip attachment to the bump box until I have the rear axle in place.

Wiring Harness 4

Wiring Harness 5

Next I shifted my attention to the battery cable. I got it in place and quit for the day. Tomorrow will be dedicated to connecting the harness under the bonnet and in the boot.

Battery Cable 1

Battery Cable to Starter Solenoid

Harness left side

Wednesday was a good day. I started with the harness on the left side of the car. I secured the harness in the engine compartment with the appropriate zinc fastening clips and connected the wires to the fuse block, the flasher canister, connected and then threaded the dip switch mini-harness through the firewall, connected and threaded the mini-harness for the wiper motor through the firewall, connected the eight wires to the flasher relay box, and connected the front lamp pigtails and routed the harness through the front of the car.

Fuse Block & flasher

Flasher relay

Then I shifted to the right side of the wiring harness. I modified the voltage regulator box to accommodate wiring for an alternator. This is done by cutting out the connectors in the back of the box and then connecting the three brown wires to the same post, and the two yellow wires together to another post.

Harness front view

I then connected the harness to the starter solenoid, and routed the wire down the right side support. Feeders to the ignition, alternator, brake switch, and heater blower route off of the primary harness.

Voltage Box

Harness Right Side

Solenoid Wiring_2

I finished the afternoon installing the battery master switch in the boot. I heard complaints from too many about the original switch so I changed to a modern variant and modified it to fit in the original housing.

Battery Master Switch

Boot Battery Cables

Boot Wiring

I then connected the ground strap, added a few rubber grommets, and routed the wiring to the back of the carwhere a rear lighting harness was connected and fastened with two zinc clips. All-in-all it was a productive day!

Back to the garage the next day, I installed my modified horn brackets and the horns. These are not the proper horns, but at least I got them painted the right color. I used Duplicolor E8800957 “Seattle Silver,” a Honda color, I believe.

horn brackets red LH

horn brackets red RH

Horn painted

They used metric 7mm bolts. Then I installed the little bracket for the bonnet release, the remote control rod support bracket as well as the hydraulic fluid reservoir bracket.

bonnet release rod bracket

fluid reservoir bracket

The bonnet hinges were the next items to install. I greased the clevis pins and used stainless split pins.

Bonnet Hinge

Two big items in my storage bins were the Smiths heater blower and the Cape International interior heater I will be using to upgrade the heating system in the car. The Cape unit, in addition to improved heating efficiency also has a two speed fan. More details are available in the Heating/Cooling section of the website. I went ahead and installed these two items just to make a dent in my storage container!

heater blower 1

Cape heater 2

One thing I wanted to get done early in assembly before tiny spaces got crowded was the installation of the wiper motor assembly rubber grommets. These are a pain to get in, but a little liquid dish soap and muscle did the trick.

Wiper Motor grommets

Chapter 15 – Cleaning and Trial Fitting

September 27, 2003

Front Suspension 

It is so nice to begin assembling clean and freshly painted components. I decided to assemble the front suspension just to make sure I had all pieces, proper bolts and etc. Rebuilt brake calipers and swivel pins from Bruce at Healey Surgeons. Primed or painted bits courtesy of Jeremy at Maple Hill Restorations.

Left front suspension

Left front brake fittings

October 12, 2003

Fuel Pump and Other Bits

Fuel Pump – Installed new solid state SU fuel pump. Added ground wire was mounted to rear bulkhead. 

Fuel pump wiring

Fuel Pump – New

Rear bump box wiring & Clip

Starter Solenoid – Installed new starter solenoid. Affixed new light relay box.

Starter Solenoid – New

Flasher Relay – New

Bonnet Rod – Installed bonnet rod, spring and attachments.

Bonnet Rod New

Bonnet Rod Attached to Lever

Ground Strap – Fastened electric ground strap in boot.

Boot Ground Strap

Voltage Box

A1 – Brown/Blue Wire to Light Switch on Dash

A – Two Brown Wires. One to the A1 terminal on the fuse box; One to the starter solenoid to the terminal with the battery connection.

F – Yellow/green Wire to the F terminal on the generator (alternator)

D – Two Yellow Wires. One to the no charge warning light: One to the D terminal on the generator (alternator)

E – Black Wire to Ground

Rear Axle Assembly – Brake lines, fittings and differential added to the axle.

Rear Axle Brake line 1

 

Rear Axle Brake line 2

Rear Axle Brake line and differential

Rear Leaf Springs – Installed left and right rear springs. Used rotiserrie brace and scissor jack to lift spring. Lined up and inserted front pin which was not easy to accomplish.

Rear Spring Install 1

Rear Spring Install 2

Rear Spring Install 3

Rear Spring Install 4

Rear Axle Rebound Pad

Rear Axle Install 2

Rear axle U Bolts 1

Rear Axle Installed 2

Blanking Plates – Installed all blanking plates and felts.

Master Cylinders – Installed brake and clutch master cylinders. Getting the pins into the pedal brackets is not easy! 

Master Cylinders

Engine Post-Installation Check List

Having just installed my engine and gearbox into the car chassis, I thought it might be useful to keep track of the various related installations and connections that need to be made before one turns the ignition key and hits the starter button to fire-up the refreshed engine. I will try to journal this check list of items in the sequence that they are addressed, though I may find that I need to modify the chronology as things unfold.

1. Water temperature sensor wire:

Water Temp Sensor Wire at Intake Manifold

Water Temp Sensor Wire at Intake Manifold

2. Oil Pressure Sensor Wire:

Oil Pressure Sensor Wire

Oil Pressure Sensor Wire

3. Dip Stick – I discovered that the placement of the electric steering pump interfered with the free travel of the dip stick. I found it to be easier to shorten the dipstick than to move the pump!

4. Heater Feed Pipe Hose Connection to Intake Manifold:

Intake Manifold Feed Hose to Heater

Intake Manifold Feed Hose to Heater

5. Heater Return Pipe Hose Connection to the Front Return Pipe at the Side of the Cylinder Head – the XK’s Unlimited stainless pipe does not fit well so I have ordered and offset hose to hopefully compensate for the poor fit.

6. Checked the firewall wiring Ground Strap to Chassis path to make sure all of the wiring is routed under the heater pipes, clutch hydraulic pipe and hose and the alternator cable, note the position of the clips. On final assembly the loose wiring will be in a wire look cover:

Firewall Wiring

Firewall Wiring

7. Wiring Clips below the heater. Two yellow zinc clips, one for the alternator cable, and the other for the collection of smaller gauge wires:

Yellow Zinc Wiring Clips Installed

Yellow Zinc Wiring Clips Installed

8. Flexible Hydraulic Stainless Steel Hose at rear of the cylinder head:

Goodridge Flexible Clutch Hose

Goodridge Flexible Clutch Hose

9. Starter Cable – The cable was previously connected to the starter. The other end was routed to the rear lug of the starter solenoid and secured with a rubber boot over the connection:

Cable from Starter to Solenoid on Firewall

Cable from Starter to Solenoid on Firewall

10. Ground (Earth) Strap – Connected to the firewall with a 5/16″ shake proof washer and a 5/16″ – 24 x 1/2″ hex head bolt:

Ground Strap to Chassis

Ground Strap to Chassis

11. Plenum drain hose – The drain hose was secured to the plenum pipe at the firewall with a hose clamp and routed between the chassis and the transmission, behind the throttle linkage. I zip-tied it to the ground cable at the firewall to make sure that it did not rub against the throttle linkage:

Plenum Hose clamp at Firewall and wiring below pipes

Plenum Hose clamp at Firewall and wiring below pipes

Plenum Drain Hose zip-tied to Ground Cable

Plenum Drain Hose zip-tied to Ground Cable

12. Installed the alternator and its primary cable from the ANL Fuse on the LH engine bay valance. I took advantage of a captive nut already located on the valance as a place to install a yellow-zinc clip to secure the alternator cable.

Alternator to ANL Fuse Cable Installed

Alternator to ANL Fuse Cable Installed

Alternator Cable Valance Clip

Alternator Cable Valance Clip

13. Alternator Pig Tail wiring leads:

Alternator Cable and Pigtail Installed

Alternator Cable and Pigtail Installed

14. Compressor – connected the black wire from the compressor with the black wire from the air conditioner drier.

Compressor Wiring to Valance

Compressor Wiring to Valance

15. Coil wiring – white wire from ignition, fuse position #6 to positive terminal at coil; and white/yellow wire from tachometer to negative terminal at coil:

Coil wiring Installed Tach to - terminal FP6 to + terminal

Coil wiring Installed Tach to – terminal FP6 to + terminal

16. Reservac Tank Vacuum Hose – from brake servo reservac tank check valve to the vacuum line at the RH side of the cylinder block:

Vacuum Hose from Reservac Tank Installed

Vacuum Hose from Reservac Tank Installed

17. Reverse and Top Gear Switch Wiring at Gearbox – Rather than routing these wires as Jaguar did (through the gearbox tunnel) I decided to install a rubber grommet in the tunnel and run the wiring to the interior of the car. Each wire was then connected with two-way snap connectors and will be hidden by the central console:

Grommet for Reverse and Top Gear Wiring

Grommet for Reverse and Top Gear Wiring

Reverse and Top Gear Wiring at Gearbox Cover

Reverse and Top Gear Wiring at Gearbox Cover

18. Change Speed Lever, Rubber Grommet and Retaining Ring – I removed the lever knob and slid the grommet over the lever shaft ( a little petroleum jelly doesn’t hurt), punched holes in the grommet with an awl and installed the ring and grommet with four #4 x 1″ chrome slotted finishing self-tapping screws.

Gear Selector Installed

Gear Selector Installed

Rubber Grommet on Gearbox Cover for Change Speed Lever

Rubber Grommet on Gearbox Cover for Change Speed Lever

19. Breather Assembly – The breather hose/pipe for the engine originally routed to the air cleaner where the mist would be recirculated into the carburetors. In my case, I am not using the original air cleaner and I did not want to recirculate the emissions from the breather pipe to the fuel system anyway.

I chose to use a catch can manufactured by Mishimoto. The can is a very clever design.

Mishimoto Compact Catch Can

Mishimoto Compact 2 Port Catch Can

Of course, a Jaguar owner cannot have a product with a Japanese name on it visibly mounted in the engine bay, (never mind that many of the newer parts used in the restoration probably were produced in China!) so I chose to mount the can on the front suspension crossmember. At this location it is very easy to access to check accumulation. I also used a K&N Filter for the outlet port.

The elbow hose from the breather port on the engine is a 5/8″ I.D. but the fitting on the catch can is a 3/8″” barb so I used a barbed brass step down fitting between the 5/8″ hose and a 3/8″” hose. The straight emissions hose runs from the elbow almost straight downward, and parallel to the servo breather hose, to the catch can.

Breather Elbow Hose

5/8″ to 3/8″ Brass Step Down Fitting for Breather

These photos are dark and it is a challenge to see the mounting of the can. I was able to use a hole that was already in the front crossmember so it was not necessary to drill any holes to mount the catch can. Always a pleasing outcome!

Mishmoto Catch Can Mounted on Front Suspension Crossmember

Mishmoto Catch Can Mounted on Front Suspension Crossmember

K&N Filter on Catch Can Outlet Port

 

 

Gearbox, Clutch and Propshaft

Clutch and Gearbox

Clutch Master Cylinder

I will replace the master and reservoir seen here with a new unit.

Clutch Master/Reservoir

Clutch Master/Reservoir

Clutch Master/Reservoir

Clutch Master/Reservoir

Since the clutch master and the brake master share the same housing and pedal box, information about those components is addressed under the brake servo and hydraulics post at this link: https://valvechatter.com/?cat=615

Clutch Master Cylinder, Reservoir Mounted to Housing with new Pedal Rubber

Clutch Master Cylinder, Reservoir Mounted to Housing with new Pedal Rubber

Bracket for Flexible Clutch Hose at Rear of Cylinder Head

This little bracket is in a conspicuous location and called for re-chroming.

Clutch Flexible Hose Bracket at Rear of Cylinder Head

Clutch Flexible Hose Bracket at Rear of Cylinder Head

Slave Cylinder Hydraulic Pipe

A hard line attaches to the flexible stainless steel hose at the cylinder head bracket (shown above) and connects to the slave cylinder. It is held securely by one clip attached to the bell housing. The new line was sourced from Classic Tube along with the pre-bent brake lines.

Slave Cylinder Hydraulic Line

Slave Cylinder Hydraulic Line

Clutch

The 1964 MK2 used a spring-loaded, hydraulically-operated, driven plate assembly with cover and a graphite release bearing. Later models switched to a diaphragm clutch. While the diaphragm cultch is probably easier to operate, I decided to stick with the original type in my restoration. The entire clutch assembly was purchased from SNG Barratt and installed by my engine builder, Mike Gassman, from Gassman Automotive. The unit was balanced with the engine for smoother running.

MK2 Clutch Diagram

MK2 Clutch Diagram

MK2 Clutch Assembly

MK2 Clutch Assembly

Release Bearing and Clips

Release Bearing and Clips

Release Bearing Mounting Clips

Release Bearing Mounting Clips

Clutch Slave Cylinder

Fortunately, the replacement slave cylinder sourced from SNG Barratt is exactly the same as the original. the rubber boot is somewhat different, but otherwise identical. The new return spring is; however, shorter than the spring currently on the car. Not sure if it is a different spring or if the original is stretched. In any case, I shall try the new one (which did have the proper Jaguar part number) and see how everything functions.

Slave Cylinder Assembly

Slave Cylinder
Assembly

The Jaguar Service Manual states that “there should be 3/4″ free travel or unloaded movement at the pedal pad before feeling the resistance of the clutch thrust springs. The free travel is most easily felt by depressing the pedal pad by hand until a marked resistance is felt. Adjustment is effected by slackening the lock nut and turning the operating rod between the slave cylinder and the clutch withdrawal lever. Screwing the rod into the knuckle joint will increase the pedal travel; screwing the rod out will decrease the free travel.”

MK2 Clutch Slave Cylinder Adjustment

MK2 Clutch Slave Cylinder Adjustment

Gearbox and Overdrive The gearbox is a four-speed type with synchromesh on the second, third, and top gears. The overdrive is a Laycock de Normanville. First and reverse gears are 12.731:1, Second is 7.012:1, Third is 4.836:1, and fourth is 3.77:1; with the overdrive engaged the top gear ratio is 2.933:1. A synchronized fiord gear was added later in production.

According to Nigel Thorleys excellent book – Original MK1/MK 2 the all synchro box was fitted in Sept 1965 from chassis no 119200 – 2.4 RHD 127822 – 2.4 LHD 169341 – 3.4 RHD 180188 – 3.8 LHD

MK2 Gearbox

MK2 Gearbox

 

MK2 Overdrive

MK2 Overdrive

Mike Gassman, http://www.gassmanautomotive.com refreshed the overdrive and the gearbox was sent to Quantum Mechanics in Connecticut. Both units were in good repair with the exception that the 3rd to fourth shift fork was bent and was replaced. The gearbox also had all bearings, synchronizers, seals and gaskets replaced. The gears were in good shape. The overdrive was cleaned, an overdrive rebuild kit installed and reassembled in good working order. A new solenoid was affixed and the system was tested.

Change-Speed Lever Assembly (Gear Shift) The  change-speed lever has single flat washer above the selector lever.

There is a two part rubber bush inside the selector lever through which the selector shaft passes. There is a flat washer at each end of the bush. The washers have different diameter holes appropriate to the shaft size at each end of the lever. I cleaned the selector lever and painted it with POR-15. New rubber bushes were also installed.

Change-Speed Lever

Change-Speed Lever

Selector Lever

Selector Lever

Painted Selector Lever

Painted Selector Lever

Assembly Components

Assembly Components

There is a bronze bushing in the selector lever through which the pivot pin passes. This bush was also replaced with a new component. A new fiber washer is located on each end of the pivot pin. A double spring washer  is located on the pivot pin and the assembly is held together with a slotted nut and a split (cotter) pin.

Change Speed Lever Knob

Change Speed Lever Knob

The correct lever knob for the early Moss gearbox (without first speed synchro) is a tear drop shape. The later box used a round shifter ball. A locking nut secures the shift knob to the shaft.

I ordered a new lever shaft and discovered that what is being supplied now is 3 inches shorter than the original. I will probably have my original lever shaft rechromed and use it.

Original Shifter on Left and New Part on Right

Original Shifter on Left and New Part on Right

 

Pivot Jaw Holding Selector Lever

This device connects the Change-speed Lever (gear shift) to the Gearbox Top Cover. In the image below it is the black yoke which was cleaned and painted with POR-15.

Pivot Jaw Housing Selector Lever

Pivot Jaw Housing Selector Lever

The following image shows the components of the Pivot Jaw assembly: The Pivot jaw, two fibre washers, a bushing, a flat “D” washer, a spring washer and a slotted nut with split pin.

Pivot Jaw Assembly Components

Pivot Jaw Assembly Components

This image shows the Pivot Jaw Housing, the Change-speed Lever, and the Selector Lever all assembled and in place on the gearbox:

Assembled Gear Selector Assembly

Assembled Gear Selector Assembly

Fasteners for Gearbox to Engine The original fasteners were in good shape, no doubt due to the thick coat of oil and grease that encapsulated them! I media-blasted the bolts and nuts and had them zinc plated for use upon reassembly. There are eleven hex head bolts 3/8″ – 24 x 2 7/8″ with two 3/8″ – 24 nuts and shakeproof washers, and four 3/8″ – 24 x 1 3/8″ hex head bolts with four 3/8″ – 24 nuts and shakeproof washers.

Bellhousing fasteners

Bellhousing fasteners

Cover Plate at Front of Clutch Housing  The cover plate is fastened to the engine backplate with four #10-24 x 1/2″ hex head bolts and shakeproof washers. It is installed when the gearbox is mated to the engine when the two components are separated by approximately 2″. At that time the cover plate is slid into position and tightened against the lip of the gearbox bell housing with the four bolts.

Clutch Cover Plate

Clutch Cover Plate

Clutch Cover Plate at Bell Housing

Clutch Cover Plate at Bell Housing

Gearbox/Engine Mating

On June 18, 2016 in preparation for the preliminary installation of the engine and gearbox into the car for testing, I mated the two components together using the bolts referenced above. In the cases where nuts are used, all nuts are found on the bell housing side. I had to wrestle with the gearbox a bit to get it to seat properly, but I eventually got there. One must be careful to keep the gearbox mainshaft level with the crankshaft to avoid bending the shaft.

Gearbox Mainshaft

Gearbox Mainshaft

I used my engine hoist to hold the gearbox at proper height during the exercise. Several long 3/8″ bolts were used to align the bell housing and the backplate of the engine, prior to inserting the proper bolts and pushing the gearbox home. As mentioned above, then the two components are approximately two inches apart, the clutch cover needs to be inserted and bolted in place.

RH Side of Bell Housing Mounted to Engine

RH Side of Bell Housing Mounted to Engine

LH Side Of Bell Housing Mounted to Engine

LH Side Of Bell Housing Mounted to Engine

Ground Strap

The ground strap was connected to the engine/bell housing prior to installation in the car. A new ground strap was sourced from SNG Barratt. Note the proper location of the strap:

Ground Strap Mounted

Ground Strap Mounted

Propshaft

The propshaft with the two flange yokes attached is just under 48″ long. The shaft seems to be in good shape, but I went ahead and replaced the two universal joint journals and bearings. Following installation of the universal joints I greased the two units and then cleaned the shaft well to send to Driveshaft Specialists in San Antonio, TX  http://www.driveshaftspecialist.com  (Jeff, 866-455-6622) for balancing.

Universal Joint Replacement

Universal Joint Replacement

Duralast Universal Joints

Duralast Universal Joints

Universal Joints Installed

Universal Joints Installed

Upon return from Driveshaft Specialists, I painted the propshaft with POR-15.

Propshaft with new Universal Joints

Propshaft with new Universal Joint

Balanced & Painted Propshaft

Balanced & Painted Propshaft

Gearbox/Overdrive Lubrication

After installing the engine and gearbox in the car I filled the gearbox and overdrive with oil. Mike Gassman, at Gassman Automotive, recommended using Amalie Elixir Full Synthetic GL-5 Gear Lubricant. The Jaguar MK2 Service Manual indicated that 4-3/4 pints of lubricant should be used.

Amalie Elixer Full Synthetic GL-5 Gear Lube 75W-90

This image, although a little out of focus, shows the fill plug near the top and the drain plug at the bottom of the gearbox. The overdrive fills though an internal hole from the gearbox to the overdrive.

Drain and Fill Plugs for the Jaguar MK2 Gearbox

While I could have used my hand pump to pump the gear lube from below into the fill hole, since my interior is not installed I removed the fiberglass gearbox cover and filled from above. I inserted a clear tube into the fill hole and routed it to the interior. I found that it actually took a little closer to 4- 1/2 pints to fill the units, even after waiting some time to allow the fluid to flow to the overdrive. I filled the gearbox until the gear lube began to leak out of the fill hole.

Fill Tube for Gearbox

 

New Wiring Harness Circuits

Power Inputs to the Classic Technologies’ Relay/Fuse Panel

The Classic Technologies Panel has four primary connections.

Classic Technology's Relay Fuse Panel

Classic Technologies’ Relay Fuse Panel

A – 12V power input from the small fuse box (battery B+) to power the accessories circuits. A brown 12 AWG wire is used to the Yellow screw terminal spade lug connection.

B – 12V power input from the small fuse box (battery B+) to power the high and low beam headlight relays. A brown/blue 14 AWG wire is used to the Blue screw terminal spade lug connection.

C – 12V power input from the small fuse box (battery B+) to power the constant power circuits in the vehicle. A brown 12 AWG wire is used to the Red screw terminal for a spade lug termination.

O – ground or earth to the car’s chassis.

In my case, 12V power is routed from the battery in the trunk to the starter solenoid mounted centrally on the firewall in the engine bay. The negative terminal of the battery is wired to the car’s chassis. A ground strap is used to connect the grounded chassis to the engine/gearbox.

Ground Strap Mounted

Ground Strap Mounted

The battery relocation to the boot was addressed in a previous post.From the solenoid, a brown 8 AWG wire delivers power to a small fuse box with six circuits mounted on the firewall directly below the starter solenoid. I used two nutserts for the mounting to the firewall.  Three of the six fused circuits are then used to provide power to three input terminals on the Classic Technologies’ relay/fuse panel. The additional three are spares for the moment.

OnLine-LED-Store Six-Way Fuse Box

OnLine-LED-Store Six-Way Fuse Box

This is a diagram of the wiring to the Relay/Fuse Panel:

Rose Jaguar MK2 Power to the Classic Technologies Fuse Box

Rose Jaguar MK2 Power to the Classic Technologies Fuse Box

Six Way Firewall Fuse Box Delivering Power to Classic Tech Relay:Fuse Panel

Six Way Firewall Fuse Box Delivering Power to Classic Tech Relay:Fuse Panel

The three wires from the small firewall fuse box, the white/red wire from the solenoid to the fuse panel and the heavy 4 AWG cable from the solenoid to the alternator will be “packaged” together in one TechFlex sleeve/cover.

Before getting into the allocation of the thirty-four fuse positions available to use in the Classic Technologies Relay/Fuse panel, it might be helpful to once again point point out that as indicated in the post on new wiring harness connectors I developed a spreadsheet to be used in conjunction with wiring diagrams. The spreadsheet lists all connection points of the electrical wiring system. Links are provided below:

Again, a disclaimer is appropriate: The spreadsheet is provided as guidance for those who might wish to do something similar, but it should not be duplicated or utilized without careful inspection and  approval by a certified automotive electrician.

This alphabetical listing of components is provided to help quickly identify items in the electrical system. A spreadsheet line number(s) associated with the component is indicated.

Rose Jaguar MK2 Electrical Connections Alpha listing

This is the spreadsheet showing all connections:

Rose Jaguar MK2 Electrical Connections Spreadsheet

The following four diagrams illustrate the wiring sourced from the thirty-four fused positions in the system. Please let me know if as a reader you note an error or an omission. I apologize for the somewhat primitive diagrams as I did not have proper software available to do the job. I resorted to “Keynote” a presentation software to complete the task.

Rose Jaguar MK2 Fuse Positions 1-8

Rose Jaguar MK2 Fuse Positions 1-8

Rose Jaguar MK2 Fuse Positions 9-16

Rose Jaguar MK2 Fuse Positions 9-16

Rose Jaguar MK2 Fuse Positions 17-25

Rose Jaguar MK2 Fuse Positions 17-25

Rose Jaguar MK2 Fuse Positions 26-34

Rose Jaguar MK2 Fuse Positions 26-34

 

Circuit Modifications & Additions

Several of the modifications I am making to my MK2 require either modified or new electrical circuits. I highlight below the details of some of these wiring changes.

Starter Solenoid

I replaced the original starter solenoid with a new one sourced from SNG Barratt. The large post closest to the firewall provides the mounting for the 4 AWG cable to the starter. The large post closest to the engine mounts three cables: the 2AWG cable from the battery, the 4AWG cable to the block connector on the electrical panel on the LH engine bay valance (ultimately to the alternator), and a 8AWG wire to the 6-way firewall fuse panel. On the upper small post on the solenoid a single wire from the starter button is attached.

Alternator

I have considerably more power requirements in my car than could be addressed by the original dynamo/generator.

The specifics of the Hitachi 120 amp alternator I am using may be found under the “electrical components” posting. However, I will detail the wiring to support the alternator here.

I decided to go with 4AWG cable and also decided to install a fuse in the line between the alternator and the wiring system to avoid any possibility of a problem with a power surge created by a bad regulator in the alternator.

I sourced the cable and fuse from CE Auto Electric Supply. The folks at CE Auto Electric Supply are very helpful and they sell high quality products. Both products are typically used in high-end sound system applications. This particular cable has 1,862 strands. The cable was terminated with 3/8″ terminals, properly crimped and covered with adhesive shrink tubing.

Alternator Cable CE Supply 4AWG 1862 Strands

Alternator Cable CE Supply 4AWG 1862 Strands

I installed a JL audio premium series master ANL fuse block with a 125 amp “Stinger” ANL style fuse, part number SPF52125 on the lower right portion of the original fuse panel.

ANL 125 Amp Fuse with J&L Holder

ANL 125 Amp Fuse with J&L Holder

Two three-quarter inch long machine screws were used to secure the fuse block to the panel. On one I was able to take advantage of the 10–32 captured nut that was already on the fuse panel, and on the other I used a nutsert with the 10-24 screw.

One of the nice features of this particular fuse block is that the ProStar hexagonal posts can be rotated so that the cable can approach from almost any angle. As you can see in the photo, I took advantage of this feature. After the engine is installed, the alternator cable will be cut to proper length.

As can be seen in the image, the cable from the ANL fuse connects to a connector block also used for the power steering.

Alternator Fuse Mounted

Alternator Fuse Mounted

The cable is then routed from the connector block along the LH valance and the firewall to the starter solenoid. It is difficult to track because of all of the in-process wiring, but the path of the alternator cable is visible in the image below:

Alternator Cable Wiring

Alternator Cable Wiring

Power Steering Pump

The installation of the power-assisted rack and pinion steering requires the conversion to negative earth and the installation of an alternator replacing the original dynamo/generator. The kit, as supplied, provided a Lucas 80 amp LMA 604 alternator. However, due to other electrical requirements I chose to upgrade to a 120 amp Hitachi alternator. Details about the alternator are found at this link: https://valvechatter.com/?p=4113.

M&C Wilkinson provided wiring instructions, but my configuration is slightly different than in the application they referenced. The wiring diagram below is my interpretation of the wiring required for the pump in my car.

Five wires emanate from the pump. The heavy brown wire connects to ground. The heavy red cable connects to the supplied 80 amp fuse. The 22 gauge black wire connects to the fuse panel at location #19 or #23. The 22 gauge blue/slate wire connects to the alternator at the indicator lamp post.

Rose Jaguar MK2 Wiring Diagram for Electric Power Steering Pump

Rose Jaguar MK2 Wiring Diagram for Electric Power Steering Pump

In this image I have installed the 80 amp fuse for the power steering pump. The Bosch relay will be used for the Fogranger fog lamps. All of this will be out of view once the black sheet metal cover his made for the panel.

Power Steering Pump, Alternator & Fogranger Wiring on Electrical Panel

Power Steering Pump, Alternator & Fogranger Wiring on Electrical Panel

Heater Fan Wiring

A full description of the restoration and modification of the heater box and fan may be found at the Heater Post on this Valvechatter website. The following information addresses the wiring of the heater fan.

The orange wire from the motor is connected to ground. The black wire to the “inside” post (closest to the heater box) of the resistor. The slate wire from terminal #6 on the switch is connected to the “outside” post (closest to the blower fan) of the resistor. The white/green wire from terminal #8 on the switch connects to the “inside” post on the resistor. The green/yellow wire from the #4 terminal of the switch is connected to the fuse position #11 for power. With this wiring in place, the lower position of the switch is “off,” the middle position is “Low Speed” and the upper position is “High Speed.”

I created a pigtail (seen below) from the resistor for the heater fan wiring. Two wires in the pigtail are connected through two-way snap connectors to wires of the same color which route through the firewall and ultimately back to the Fan Switch. The black wire in the pigtail goes directly to the fan motor. The orange wire from the motor is the ground and it is connected to the LH valance grounding terminal strip.

Heater Fan Wiring

Heater Fan Wiring

Heater Fan Wiring

Heater Fan Wiring

Wiper Motor Wiring

As documented in my post entitled Wiper System Upgrade, I installed a Lucas 29W wiper motor kit from Classic Motor Cars in the UK. The upgrade includes a relay mounted behind the central instrument panel assembly. The wiring for the wiper switch is referenced above under the section “Instrument Panel Assembly Switch Wiring.” This is a diagram of the wiring:

Rose Jaguar MK2 Wiper System Wiring

Rose Jaguar MK2 Wiper System Wiring

This is an image of the wiper motor mounting. I used eight of the ten connection points in a ten-way rubber snap connector and fastened it to engine bay RH valance with an original type retaining clasp. note the wiper motor ground connection to the upper left.

Wiper Motor Mount and Wiring

Wiper Motor Mount and Wiring

Cruise Control Wiringcruise-control-installation-disclaimer-001

A full description of the installation of the Rostra Cruise Control System in my MK2 is provided in the MK2 Cruise Control Post. My wiring diagram, tailored for my 1964 Jaguar MK2 application, is provided below. As the disclaimer above indicates, the wiring description in this post journals what I did for my car. It is not my intention to describe what you should do for your car!

This is a link to a pdf of the wiring diagram and it is also shown in the image below:

rostra-cruise-control-wiring-for-jag-mk2

Rostar Cruise Control Wiring for the Rose MK2

Rostar Cruise Control Wiring for the Rose MK2

Central Locking and Keyless Entry Wiring

A full description of the locking system may be found at the “Remote Control Door Locks web site entry: https://valvechatter.com/?p=9205. The wiring for the system is comprised of two components. The MES Central Locking Control Module operates the door lock actuators. Once that system in properly installed and operating as it should, the AVITAL keyless entry module is added to permit use of a key fob to wirelessly lock and unlock all doors. An added feature of the system is that about fifteen seconds after ignition all doors are locked automatically. 

The following wiring diagram is unfortunately a bit busy. This is a link to a pdf file of the diagram: Keyless Entry Power Locks for Rose Jag MK2 and a jpeg file is depicted below:

Keyless Entry Power Locks for Rose Jag MK2

 

Air Conditioner Operating Controls Wiring

A full description of the installation of the RetroAir air conditioning system in my MK2 is provided in the “Air Conditioning” Post. The wiring of the controls and devices for the air conditioning system is depicted in the following diagram:

Rose Jaguar MK2 Air Conditioning Wiring

Rose Jaguar MK2 Air Conditioning Wiring

This is a photograph of the wiring harness provided in the RetroAir kit. In my application I did not use the circuit breaker shown in the image because I wired the blower switch directly to the fuse panel and protected the system at that point with a 40 amp fuse.

RetroAir Wiring Harness Kit

RetroAir Wiring Harness Kit

As the diagram above illustrates, I chose to install a trinary pressure safety switch in the air conditioning electrical circuit. The trinity switch is also discussed in the “Air Conditioning Post.”

Vintage Air Trinary Switch

Vintage Air Trinary Switch

The Vintage Air trinary switch kits combine low and high pressure compressor clutch cut-off functions plus an electric fan engagement signal at 254 psi. The low pressure cut-off of these trinary switches is 30 psi and the high pressure cut-off is 406 psi.

http://www.vintageair.com/Instructions2013/904678.pdf

The switch as supplied has two blue wires and two black wires. Because the switch is located in a right from wheel well and exposed to the elements, I connected the four wires to a waterproof connector purchased from British Wiring, and then routed the wires to their termination points. One blue wire is for ground and the other for fused power. One black wire connects to the compressor and the other to the thermostat controller for the air conditioner.

Turn Indicator and Headlamp Flasher Switch at the Steering Column  and the Laycock De Normanville Overdrive Switch and Wiring

The electric overdrive is activated by a lever switch on the right side of the steering column. Power is derived from fuse position #14 of the CT fuse box. With lever activation a signal is sent to the overdrive interlock, or top gear switch located on the top of the gearbox and then to the overdrive solenoid. A warning indicator bulb is illuminated when the overdrive is engaged. More information about the switch and lever mechanism may be found in the “electrical components” post.

Overdrive Interlock or Top Gear Switch at gearbox

Overdrive Interlock or Top Gear Switch at gearbox

The lever on the left side of the steering column is used in an upward and downward motion to activate the LH and RH turn indicator flashers at the front and rear of the vehicle. When the flashers are functioning an indicator bulb located in a centralized position behind the steering wheel is illuminated in a flashing pattern. The headlamp flasher is activated by the driver pulling the same lever toward himself. This action will trigger the high beam warning light in the speedometer.

Rose Jaguar MK2 Flasher Circuit & Overdrive

Rose Jaguar MK2 Flasher Circuit & Overdrive

Turn Signal Switch Wiring

Turn Signal Switch Wiring

Turn Signal and overdrive indicator bulbs, holders, and pigtail

Turn Signal and overdrive indicator bulbs, holders, and pigtail

Auxiliary Power/USB Ports

I intend to install an arm rest/console between the front seats in my MK2. The console will include an auxiliary power/USB port unit. Power is sourced from the fuse box, position #12.

Auxiliary Power and USB unit

Auxiliary Power and USB unit

Auxiliary Power and USB unit

Auxiliary Power and USB unit

Powered Front Seats

The front seats I am using are from a Jaguar XJ40. More information about the seats is available at the “Seating” post. They have more features than I plan to use.

1990 Daimler Front Seats

1990 Daimler Front Seats

Although the wiring harnesses were complete, there were a number of electrical connectors on the harnesses with no explanation as to what needed to be connected where to get the seats functioning.

Seat Wiring Harness and Switches

Seat Wiring Harness and Switches

The seats have seat heaters (upper and lower cushions), a memory feature for the driver’s seat, seat belt alarms, and wiring to permit automatic movement of the driver’s seat to the aft position when the driver’s door is opened.

After some enquiries on the Forums, Bryan Neish came to my aid. He was of great help figuring out what the wiring at each of the connectors did. I know he spent quite a lot of time reviewing wiring diagrams to find what I needed. George Leicht was also helpful. He sent along the wiring diagram that accurately reflected my seat wiring.

I wired the seats to unswitched power at the fuse box to facilitate seat operation before entry or before starting the ignition. I was able to use the original seat wiring harness and bank of switches to control the four motors adjusting the lower and upper seat cushions for each chair. The wiring runs under the center console to each seat. A pdf file of the seat wiring schematic for 1990 may be found here: 1990 Jaguar XJ40 Seat Electrical Schematic

I have yet to decide where I will mount the switches. The image below shows the approximate location of the switches as Ton Tulleken installed them on his car:

Possible Placement of Seat Switches

Possible Placement of Seat Switches

Kevin Moore's MK2 power seat switches

Kevin Moore’s MK2 power seat switches

The image above shows the location of the switches in Kevin Moore’s car.

Lighting

SideLights

Additional detail about the sidelamps may be seen in the exterior lighting post. I rewired the original side lamp fixtures and trial fitted them to the body. The rubber “O” rings supplied by SNG Barratt are to thick to fit properly so I replaced them with metric 24mm – 2mm “O”rings ordered from McMaster Carr. New LED bulbs were also fitted in the fixtures. The red 18 AWG wire from the bulb is combined with a black 14 AWG ground wire from the fixture in a vinyl sleeve that goes through the LH and RH valance lighting grommet.

SideLamps

SideLamps

RH Side Lamp Wiring & Sleeving

RH Side Lamp Wiring & Sleeving

Refurbished side lights installed

Refurbished side lights installed

Turn Signal Flasher Lamps

After installing the side lamps I moved to the turn signal flashers. Information about the lamps is contained in the exterior lights post. I re-used the original fixture wire terminals but replaced the power and ground wiring with new. The power wire is blue/green 18 AWG and the ground wire is black 14AWG. The wiring is pushed through holes on the back end of the fixture’s new rubber boot. New vinyl sleeving was also used for the flasher lamps.

Front Flasher Turn signal

Front Flasher Turn signal

Turn Signal Flasher with LED Installed

Turn Signal Flasher with LED Installed

Turn Signal Flasher Wiring

Turn Signal Flasher Wiring

Fograngers

More information about the fog rangers may be found in the exterior lights post. The Classic Technologies Fuse box did not have a relay designed into the product for fog or driving lights, so I added a Bosch relay for this function. It is mounted on the original fuse panel in the engine bay on the LH valance. The foglights are controlled by the primary light switch.

Rose Jaguar MK2 Fogranger Wiring

Rose Jaguar MK2 Fogranger Wiring

Fogranger Relay

Fogranger Relay

RH Fogranger Installed

RH Fogranger Installed

Headlights

More information about the headlights may be found in the exterior lights post. I installed new 3 wire (high beam, low beam, and ground) plugs, wiring and sleeving for the headlights.

Headlight Installed with Newly Chromed Trim Ring

Headlight Installed with Newly Chromed Trim Ring

Although not too pretty yet, this image shows the temporary installation of all of the front exterior lights. The blue painter’s tape is to protect the chrome. The installation was done to make sure that I had all the parts needed for a particular light and to test the electric circuitry and switches.

Temporary Installation of front Exterior Lights

Temporary Installation of front Exterior Lights

These images show the exterior lights wiring in new sleeving as it is routed from the individual fixture through the large wiring grommet located on each valance.

LH Front Exterior Lights Wire Sleeving and Routing

LH Front Exterior Lights Wire Sleeving and Routing

RH Front Exterior Lights Wire Sleeving and Routing

Tail Lights

More information about the tail lights may be found in the exterior lights post. I substituted LED bulbs for the original incandescent type; however, the wiring remains the same. In fact, I was able to reuse the original wire leads from each of the bulb holders. The upper bulb is for the flasher with a single wire lead. The lower bulb is for the regular lights plus an additional light for the brakes with a double wire lead.

Tail Light Wire Leads

Tail Light Wire Leads

Tail Light LED Bulbs

Tail Light LED Bulbs

Number plate illumination and reverse lamp

More information about the lamp may be found in the exterior lights post. The lamp includes one light for the luggage compartment, two bulbs for the license plate illumination, and one bulb for reversing. All original incandescent bulbs were replaced with LEDs. The original wiring harness for the lamp was in pretty good shape, but I constructed a new one with all fresh wiring.

Boot Lamp with new wiring harness

Boot Lamp with new wiring harness

Luggage compartment lamp

As my friend Eric Kriss points out in his MK2 restoration blog, the luggage lamp seemed to be an afterthought to Jaguar engineers. To function the light switch on the gauge panel had to be turned on, but it is often the case that one would want to access the luggage area after the car’s ignition, much less its lights were turned off! Instead of wiring the luggage compartment lamp in series with the front marker and rear tail lights, Eric revised the wiring to move the luggage compartment lamp to its own circuit. To make the lamp illuminate when the boot lid is opened a position sensitive mercury tilt switch is used. As Eric describes, when upright a ground connection is established permitting current to flow to the bulb. When the boot lid is shut, the ground connection is broken so the light goes off.Mercury Tilt Switch

 

Interior Lights

The MK2 as original had six interior lamps: the map light at the central gauge panel, a lamp at the top of each center or “B/C” pillar, a lamp in the cubby box and a lamp on each side of the rear of the car above the passenger seat. These latter lamps referred to as rear quarter interior lamps. My Mk2 will also have two courtesy lamps in the back of the front seat headrests. More information concerning these lamps may be found at the “Interior Lights” post.

As pointed out in the “Interior Lights” post, the replacement center pillar lamps are not exact replacements for the originals. They are operationally superior in that they provide an “on-off” switch at the lamp, and also because they screw, rather than snap, together. They just don’t look quite as nice being plastic rather than chrome metal. Just to check fit and to test the electrical system I did install the new center pillar lamps mounted on their wood bases. An additional grounding wire is used with the new lamp for its switch so there are three wires rather than the original two. For purposes of testing the electric system I temporarily fixed the third ground wire to the pillar as shown in the third photo below.

36 mm festoon bulbs in warm white were substituted for the original incandescent bulbs.The lamps are wired to the interior lighting circuit that includes the interior lamps toggle switch on the central gauge panel as well as the four door switches. The black ground wire is simply attached to the metal center pillar.

New three-wire center pillar lamp with switch

New three-wire center pillar lamp with switch

New center pillar lamp loosely mounted on wood base

New center pillar lamp loosely mounted on wood base

Temporary ground connection for center pillar lamp switch

Temporary ground connection for center pillar lamp switch

I trial fit the new, but as original, rear quarter lamps which required making new plywood mounting frames. Wiring for the rear quarter interior lamps initiates at fuse box to the interior lamp switch on the gauge panel and then proceeds through the LH and RH sills to the lamps. There is also a switch in each door that activates the interior lamps should any of the four doors be opened. I did not use wiring pigtails for these lamps. 36 mm festoon bulbs in warm white were substituted for the original incandescent bulbs.

Rear Quarter Interior Lamp

Rear Quarter Interior Lamp

LH rear quarter interior lamp

LH rear quarter interior lamp

I am using XJ40 powered seats in my MK2. The seat headrest lights were originally wired in such a way that they too illuminated when the car’s doors were opened. These lights also have an integral on/off rotary or dial switch. Without the central processor of a more modern car it would be all too easy to leave these lights on and eventually drain the battery. Therefore, I elected to wire these lamps to a switched power source rather than a constant power source like the other lamps. I did not use the terminal on the headrest light that would normally have a red/green wire to the door switches.

XJ40 Hedrest Lamp Installation

XJ40 Hedrest Lamp Installation

XJ40 Headrest Lamp Wiring

I was able to use the original door switches in my rebuild. I just rewired each of them with new wire.

Front Door Interior Light Switch and Wiring

Front Door Interior Light Switch and Wiring

The front door switch is mounted in the lower door hinge and travels through the kick panel to the switch.

Front Door Interior Light Switch in Lower Door hinge

Front Door Interior Light Switch in Lower Door hinge

Front Door Interior Light Switch Wiring through Lower Kick Panel

Front Door Interior Light Switch Wiring through Lower Kick Panel

The rear door switch is mounted in the rear side of the B/C post or center pillar. The wiring for the switch travels from under the front dash, through the sill and up the center pillar.

Rear Door Interior Light Switch in Center Pillar

Rear Door Interior Light Switch in Center Pillar

The Cubby Box lamp assembly wiring for Lamp/Switch consists of a metal base fixture, bulb, blue plastic cover and a switch controlled by opening the Cubby Box door. More images and information regarding the lamp may be found at the “Interior Lights” post. As with the other interior lamps, the original incandescent bulb was replaced with a 36 mm festoon bulb in warm white. Terminals on the back side of the metal lamp base connect to the fused power source and to the Cubby Box door switch. The image below illustrates the wiring sources and terminations for the Cubby Box.

Cubby Box Wiring for Lamp:Switch

Cubby Box Wiring for Lamp/Switch

Some Details on a Few Other Assemblies

The LH and RH Fascia Board Assemblies were installed in the car so as to test the wiring for the speedometer and its warning lights, the tachometer with the internal clock, the “Handbrake “ON” position and brake fluid container level” warning lamp, and the “Cubby” glove box lamp. More information on these fascia boards may be found at the “Dash” post. All gauge/instrument illumination incandescent bulbs were replaced with LEDs.

I first connected the left turn signal flashing indicator, the right turn signal flashing indicator, and the overdrive engagement indicator from the indicators wiring pigtail to the direction indicator/headlamp flasher switch. A ground wire for the indicators was mounted to the body below the dash.

Ground connection under dash for indicator lights

Ground connection under dash for indicator lights

Loose fitting of fascia board for tach install

Loose fitting of fascia board for tach install

I found it easiest to loosely position the driver’s side fascia board and I then installed the tachometer with its two mounting clamps, a ground wire, the 12 volt power wire, the wire connecting the tach to the coil and the two instrument lights. Leaving the speedometer position open facilitates accessing the LH fascia board outside mounting studs/nuts.

LH fascia board temporary install with tach in place

LH fascia board temporary install with tach in place

I then secured the LH fascia board to its mounts, followed by connecting the wiring for the handbrake/brake fluid level warning lamp.

I then connected the two speedometer illumination lights, the lights for the headlamp, ignition, and fuel warning lights, and the speedometer drive cable.

Installing the passenger side (RH) fascia board is much the same as the driver’s (LH) side. A sliding panel in the cubby box may be removed to provide access to the studs/nuts of the outside mounting bracket. The wiring for the “Cubby” lamp as shown in the write-up and image above is connected to ground and power.

Fuel Sender

The fuel sender has its own short wiring harness consisting of three wires in a protective sleeving. One wire for ground, one for the fuel gauge (the “T” terminal on the sender for 10 volts) and one for the fuel level warning lamp in the speedometer (the “W” terminal on the sender). The embossed terminal markings are evident on the image below. My sender has an “E” marking for earth, although my grounding wire was fixed to one of the screws used to mount the sender to the tank. While the original harness was in good shape, I made a new one for installation in the Jag when the fuel tank is fitted.

Original Fuel Sender Wiring Harness

Original Fuel Sender Wiring Harness

New Fuel Sender Wiring Harness

New Fuel Sender Wiring Harness

Fuel Sender Terminals

Fuel Sender Terminals

Warning Light for Handbrake and Fluid Level

Handbrake and Fluid Warning lamp Escutcheon

Handbrake and Fluid Warning lamp Escutcheon

The lamp is activated by a switch at the base of the handbrake, mounted to a bracket located on the interior floor. See: https://valvechatter.com/?p=3913 under the handbrake post, or by a level indicator switch in the brake fluid reservoir is shown earlier in this post.

Handbrake Warning Switch

Handbrake Warning Switch

The “Warning Lamp Indicating Handbrake ‘ON’ Position and Level in Brake Fluid Container” is comprised of the cover and window assembly, a spring washer on the central terminal post, with nuts and washers. Rubber sleeves are slipped over the white wire at the terminal and the white and red/green wires are contained together in a rubber sleeve of about 4.” The warning light was cleaned and reassembled and a new face plate was installed.

Warning Lamp

Warning Lamp

Hydraulic Fluid Reservoir, Low Fluid Warning Switch

The fluid canister contains a float activated level indicator switch in its screw cap.

Hydraulic Fluid Container Location

Hydraulic Fluid Container Location

Two wires attach the switch with spade connectors and are protected by a rubber cap over the indicator plunger. I sourced a new canister and indicator switch (cap) from SNG Barratt. The canister is covered in blue painter’s tape just to keep it clean during the restoration build. I was able to reuse the original rubber protective cap. An 18AWG light green wire is connected to one terminal. This wire joins via a 4 way snap connector with an orange 18 AWG wire from the handbrake switch. A single orange 18 AWG wire then connects to the LH Barrier Block Terminal #5B. A dark green wire from LH Barrier Block #5A connects to a 2 way snap connector with a red/green wire on the dash warning light pigtail.

A black 14 AWG wire connects to the other level indicator switch terminal and provides a ground connection to the chassis.

Hydraulic Fluid Container Wiring

Hydraulic Fluid Container Wiring

Pulling the Engine for Minor Repairs

July 2006 Bugeye It is time to fix some of the problems we have lived with for a while and to make a few improvements. The oil leak we caused when we failed to seal the oil sump properly, the gear grinding in 2nd and 3rdin the gearbox, jet coating the headers among other things will improve the car for the future. These improvements require pulling the engine. We bought a cherry picker and an Oberg tilt lift rather than continuing to rent at $45 a pop. The following details the process to get ready to lift out the engine: Disconnected the battery positive lead from the terminal. Drained the engine oil, tried the gearbox, but couldn’t get the plug out so will return to that. Disconnected the ground strap and removed the two gearbox mounting bolts from the bottom of the car.

ground strap

Ground Strap

Gearbox Mount Bolts

Gearbox Mount Bolts

Disconnected the fuel line at the carbs and pulled out of the way, and disconnected the temperature sensor from the head.

Fuel Line

Fuel Line

Temperature Sensor

Temperature Sensor

Disconnected the oil pressure gauge line and the oil feed line from the engine block, and disconnected the cable from the starter solenoid to the starter.

Solenoid Connection

Solenoid Connection

Oil Temp Connection

Oil Temp Connection

Unsnapped the plastic connector for the white/black line to the distributor from the electronic ignition device, and disconnected the plastic terminal (3 wires) to the alternator.

Ignition Wiring

Ignition Wiring

Alternator Wiring

Alternator Wiring

Disconnected the high tension line from the distributor to the coil. Disconnected the short hot water hose from the hot water valve control on the head and then the longer line on the other side of the engine to the copper tube. It is easier to put the clamp on the hose/copper pipe when the copper pipe clips are loose from the manifold.

Water Valve

Water Valve

Heater Hose

Heater Hose

Disconnected the throttle cable at the carb linkage and pulled it out of the way, and then also disconnected the choke cable at the carb.

Throttle Cable

Throttle Cable

Choke Connection

Choke Connection

Disconnected the fitting at the slave cylinder (and got brake fluid everywhere).

Fuel Drain Line

Fuel Drain Line

 

Intake Manifold

Intake Manifold

 
 
 
 
 
Very Ugly Header

Very Ugly Header

Removed the manifold brass nuts from the head and lifted the intake manifold and carbs free of the engine. The carb drain lines tied together with plastic straps will need to be rerouted to the retainer clips upon installation again. The headers will not come out of the engine bay until the engine is pulled or the heater is removed. Need to set the headers in place prior to the engine install.

Exhaust Clamps

Exhaust Clamps

Exhaust Mount

Exhaust Mount

 
 
 
Exhaust Clamp

Exhaust Clamp

Removed four Phillips screws attaching the shift boot to the gearbox tunnel, the shifter knob, and removed two bolts on each side of the tunnel securing the gearbox bracket to the car. Use of the offset wrench made this an easier job.

Shifter Trim Ring

Shifter Trim Ring

Gearbox Rear Mount

Gearbox Rear Mount

 

Shifter Connection

Shifter Connection

Loosened the right hand motor mount from the car so that it will lift free with the engine, but will not completely disconnect until the engine lift has the pressure off of the mounts. Loosened the screws to the engine at the mount on the left side of the car. The left mount will stay in the car.

Removed the cardboard heater hose to have it out of the way from the engine when it is lifted.

Connected the Lift Chain to the Rocker Shaft mounting studs and lifted the engine from the car.