Exhaust

 

Exhaust System

Exhaust System

Exhaust System Components

The primary components of the system include  front and rear downpipes, a twin silencer assembly (one piece), and a twin tailpipe assembly (also one piece). Copper sealing rings are used to join together the downpipes and the exhaust manifolds. A series of clamps are used to secure the components to one another and two different systems of exhaust hangers are used to “hang” the exhaust system from the car.

Removal

The Jaguar Service Manual states: 

“Remove the two nuts, bolts and plain washers securing the tail pipe under the rear bumper to the bracket of the body on the left hand side.

Slacken the two clips securing the exhaust down pipes to the silencers.

Remove the nut, bolt and washer securing the front of the silencers to the body.

Remove the two bolts, nuts and washers securing the middle of the silencers to the body.

Lower the tail pipes and withdraw the silencers from the down pipes.

Remove the four nuts and washers securing each downpipe to the exhaust manifolds on the engine, when the downpipes can be removed. Collect the sealing rings which are between the exhaust manifold and the downpipe.”

Refitting

Again, the Service Manual states:

Renew the copper sealing rings when refitting the exhaust downpipes to the exhaust manifolds. Refitting is the reverse of the removal procedure.”

Of course, removal or reinstallation never seems to prove to be quite that easy!

Exhaust Hangers/Mounts

There is some confusion about the exhaust hangers (mounts) used on the MK2. Some cars use the hangers shown in the diagram above found in the Jaguar Parts Catalogue. This involves a “ring and pin” design with rubber bushings.

While others, including my car as it was disassembled, use rubber which is vulcanized to metal plates as the mounts. This arrangement is shown as the illustrative diagram provided in the Jaguar Service Manual:

Jaguar MK2 Exhaust

The bonded brackets are part#13 in the diagram immediately above and new mounts look like this:

Vulcanized Exhaust Brackets

What I am calling the “Ring and Pin” Mounting system assembly from SNG Barrett looks like this:

Ring and Pin MK2 Exhaust Mounts

 

Usually the Parts Catalogue is pretty good at describing when component changes occurred in the manufacturing sequence, but in this case I was not able to find anything definitive. 

Exhaust Hanger System as Removed from My Car

There are four exhaust hangers for the silencers and pipes. One is located centrally at the front of the silencers; one at the rear of each silencer; and, one at the back of the tailpipe – Bracket Assembly Locating Rubber Mounting at Wheel Arch. 

This is the bracket at the rear wheel arch minus its rubber fitting which had separated from the bond to the metal. The bracket is secured to the wheel arch with two 5/6″ – 24 x 3/4″ hex head bolts and nuts along with a “double-nut” for locking I am sure. I have not seen this type of nut before.

Rear Bracket

Rear Bracket

Rear Bracket

Rear Bracket

This image shows the remaining bits of the bracket on the removed tailpipes.

Exhaust Removed

Exhaust Removed

It should be noted that if you look carefully, short bushings were used at the rear mount to align the rear tailpipes.

Exhaust Heat Shields

I cleaned the front, intermediate, and rear heat shields and had them media blasted and powder coated. The heat shields are mounted to the underside of the floor with a total of ten 1/4″- 28 x 1/2″ hex head bolts with shakeproof and flat washers.

Powder Coated Exhaust Heat Shields

Powder Coated Exhaust Heat Shields

After powder coating I lined the underside of the heat shields with Thermo Tec’s  Aluminized Heat Barrier with adhesive backing. I ordered a 24 x 48″ piece, Part number 1828-24×48 from PegasusAutoRacing.com. https://www.pegasusautoracing.com/productselection.asp?Product=1828. For trial fitting of the exhaust system, I went ahead and also installed the heat shields.

Three Exhaust Heat Shields with Thermo Tec Insulation

Three Exhaust Heat Shields with Thermo Tec Insulation

Forward Exhaust Heatshield Installed

Forward Exhaust Heatshield Installed

Intermediate and Rear Exhaust Heat Shields Installed

Intermediate and Rear Exhaust Heat Shields Installed

The New Exhaust System Installation

I opted to use the more robust “ring and pin” mounting system though it is not what was originally on my car. The vulcanized mounts produced today unfortunately have a reputation for separating. Some owners have resorted to putting screws or bolts through the metal and rubber to hold the brackets together should the bond break.

I purchased a new stainless steel Bell exhaust system from SNG Barratt along with new sealing rings.

The downpipes are new but discolored because they were used for the engine run-in after rebuilding.

Exhaust Downpipe Sealing Rings

I also purchased exhaust pipe clamps from Terry’s Jaguar https://www.terrysjag.com. They sell clamps that are marketed as “Bell” clamps. I don’t know that they are, but I do prefer them to the hoop style typically available at auto parts stores. They don’t deform the pipes as the hoop-type clamp can do.These clamps are 1-7/8″ or 47-51mm.

Bell Hangers for MK2 Exhaust Installation

Bell Hanger 47-51 mm

After seeking advice from others on the various forums I began my installation. The only real advice I received was to hang all parts of the assembly loosely together before tightening. However, (at least in my case) I found that I could not fully follow the advice!

I took the advice I received literally and kept everything loose – the exhaust and the hangers. However, once the exhaust is in place it is practically impossible to tighten the “ring and pin” midpoint hangers to the car. So, I will slightly modify the advice I received to the following: Tightly secure the single hanging mount at the front of the silencers and the double “ring and pin” mount at the rear of the silencers to the car. One can leave the rear “ring and pin” mount in the LH rear wheel well loose. Then loosely hang all of the exhaust components.

It is challenge to get the rubber bushes in the hanger rings. I heated mine in pot of hot water and I applied rubber grease to the metal rings. With the brackets in a vice I was then able to push the softened rubber bushes into place.

Rubber Grease on Exhaust Mount Ring

Rubber Bushing Installed in Exhaust Mount

New stainless steel studs (four each) were used in each of the exhaust manifolds for mounting of the downpipes.

Exhaust Manifolds to Downpipes

Beginning with both exhaust manifolds mounted tightly to the cylinder head (with new gaskets), I then slid the sealing ring and square mounting plate over the rear downpipe and loosely mounted it to the studs on the rear manifold with flat washers and brass nuts.

Exhaust Manifolds Mounted

Care must be taken to place the mounting plate on the pipe in the proper direction. One side of the mounting plate is concave to join properly with the sealing ring, while the other side of the plate is flat. Lock washers are not used per the parts catalogue.

Exhaust Downpipe Washers and Brass Nuts

I was then ready to mount the front downpipe, but noticed that once the front downpipe is mounted, it would be impossible (for me anyway) to access all of the mounting nuts on the rear pipe to fully tighten each of them. So, before mounting the front downpipe, I went ahead and tightened each of the four nuts on the rear downpipe. 

I then mounted the front downpipe to the front exhaust manifold with the four flat washers and brass nuts. In this case, I did mount the downpipe loosely until the complete system is configured. Note in the photo below that when fully tightened the mounting plate and the exhaust manifold mounting face do not join. The sealing ring is doing its job and providing the seal between the manifold and the downpipe.

The triangle cut-out for exhausting heat from the engine bay has the alternative benefit of access to the downpipes mounts and to the steering linkage!

Exhaust Downpipes Front Mounted Loosely

The image below shows the downpipes mounted under the car. Once on the lift I can get a much better photo, but in this case the car is simply on jack stands which makes good photography difficult!

Exhaust Downpipes in Place

On my final installation I will try to get a little more separation between the two downpipes, but what I have now if fine for my trial run of the car.

The central section of the assembly containing the twin silencers has a single front mount and the double mount for the “ring and pin” assembly at the rear. I must say the Bell system fit perfectly and was fairly easy to mount. I slid the center section onto the downpipes and loosely fit the rear of the section to the “ring and pin” mounts. I found this to be pretty easy to do. However, I found getting a bolt and nut secured at the front mount is extremely difficult requiring patience and long slender fingers. I have patience but not the long slender fingers! Using a floor jack to slightly lift the front of the silencer section (the welded bracket joining the two silencers is the perfect place) makes inserting the bolt and nut a little easier than if the assembly was hanging free.

I also discovered that my original bonded hanging mounts are slightly longer that what is now sold (at least by SNG Barratt). It is difficult to tell in the image below but I think you can make out the difference. I ended up using my best original hanger rather than one of the new ones. It made the job a bit easier.

Old and New Hangers

Finally, after bolting the rear mount ring bracket and rubber bush to the tailpipe section, I pushed the tailpipes onto the silencer section pipes and slid it into place on the rear mount previously secured to the car. 

Exhaust Tailpipe Rear Hanger

I then retraced my steps and firmly tightened all connecting points. With the exception of the front silencer mount this job turned out to be quite a bit easier than I expected. The Bell system is a high quality product with a fit that is spot on.

 

 

Brake Servo & Hydraulics

Brake Servo & Hydraulics

Brake Servo and Hydraulics Schematics

Brake Servo & Piping
Brake Servo & Piping
Reservac, Stoneguard & Piping
Reservac, Stoneguard & Piping

Brake Servo

The MK2 uses a Lockheed 6 7/8″ brake servo. I decided to have my servo rebuilt rather than purchasing a new unit. Rich Chrysler, an Austin Healey friend always swore by John Stuart Power Brake  in Ontario so I decided to use them to refurbish the servo and to sleeve (with Stainless Steel) the Girling 875 master cylinder.

Brake Servo

Brake Servo

Brake Servo

Brake Servo

Brake Servo

Brake Servo

Brake Servo

Brake Servo

Rebuilding the servo and master was not an inexpensive proposition! But both components have been bench tested and are now ready for installation.

Brake Servo Painted for Installation

Brake Servo Painted for Installation

Rebuilt Master

Rebuilt Master

Brake Servo Painted for Installation

Brake Servo Painted for Installation

Brake Servo Painted

Brake Servo Painted

Stoneguard and Reservac Tank

I decided to go with a brand new Stoneguard and Reservac Tank purchased from SNG Barrett. I may change the color later but I decided to paint these two components with gloss black POR 15. The tank was fastened to the stoneguard with four hex head #10 -32 x 5/8″ bolts, shakeproof washers, and hex nuts. The support rod attaches to the stone guard/tank assembly with a #10 hex nut and washer. The original check valve is shown below but I will replace it with a new device.

Reservac Tank Assembly

Reservac Tank Assembly

Stoneguard & Reservac Tank

Stoneguard & Reservac Tank

Stoneguard & Reservac Tank

Stoneguard & Reservac Tank

Rod for Reservac Tank

Rod for Reservac Tank

Reservac Check Valve

Reservac Check Valve

 
 

Servo Mounting

The Support Block and Clamp for Mounting of Servo to the Front Wing Valance is comprised of the curved clamp with two 1/4″ – 28 x 1″ hex head bolts spot welded to the clamp connected through the aluminum block, a rubber grommet with a metal spacer into the valance and two hex nuts with shakeproof washers.

Support Block & Clamp

Support Block & Clamp

Air Cleaner for Brake Vacuum Servo

I did clean up and paint the rusted air cleaner.

Air Cleaner for Servo

Air Cleaner for Servo

I purchased a new Hose from the Brake Vacuum Servo to the air cleaner and cleaned up and painted the Supporting Clip that used a hex head #10 – 32 x 1/2″ bolt, shakeproof washer and hex nut to tighten the clamp on the hose and air cleaner.

Air Cleaner, Hose, Support Clip and Clip for Vacuum Servo

Air Cleaner, Hose, Support Clip and Clip for Vacuum Servo

 

Brake Servo Vacuum

I purchased vacuum hose from XKs Unlimited and was very pleased with the fabric covering on the hose that looks very original. I also cleaned and cad plated the original 9/16″ clamps.

Vacuum Hose and Clamps

Vacuum Hose and Clamps

 

Brake Servo Vacuum Pipe

The Pipe is connected to the top rear of the inlet manifold and routes to the servo parallel to the cylinder block. The pipe is paired with the Front Return Pipe for the Heater and secured to the side of the block with the same brackets (see https://valvechatter.com/?p=4681). I loosened the flaired pipe fitting nut and removed the pipe.

Front Return Pipe at Side Of Cylinder Block

Vacuum Pipe Mounted to Inlet Manifold

Servo Vacuum Pipe

Servo Vacuum Pipe

Servo Vacuum Pipe

Servo Vacuum Pipe

Rear View

Rear View

This is the pipe after cleaning and zinc plating.

Brake Servo Vacuum Pipe Re-zinced

Brake Servo Vacuum Pipe Re-zinced

Hydraulic Lines

Calipers

The two front caliper hoses were replaced with Goodridge stainless steel braided hoses sourced from Coopercraft in England. These hoses use different size fasteners than the original rubber hose.

Goodridge Stainless Front Caliper Brake Hose

LH Front brake hydraulic line junction to caliper

After examining the image above, a fellow MK2 owner, Bruce Murray, pointed out to me that the hard brake line fitting was not threading very far into the flexible stainless steel hose emanating from the caliper and certainly not as far as one can observe with the original Girling hoses/fittings. Upon closer examination I concurred with his assessment that this is not an ideal situation. I am not saying that this is unsafe or that the arrangement won’t work satisfactorily; however, in my view one shouldn’t be taking any chances with braking systems. I like the claimed improved performance of stainless steel brake hoses and I like their looks, but I am going to switch to standard rubber hoses. An alternative would be to cut the hard line and install a fitting appropriate to the stainless steel flex line, but I will just go with the rubber hoses.

I will post more comparative information when my rubber hoses arrive.  

Rear Axle

The hydraulic pipes connecting the rear brakes travel along the rear axle and are held in place by three clamps with 1/4″ – 28 x 1″ cheesehead screws and hex nuts and shakeproof washers. A flexible hose is used to connect the long hydraulic pipe that runs the length of the right hand side of the frame to the axle piping. The original hose was provided by Lucas and was rubber, and I had planned to use a Goodridge stainless flexible hose replacement that was sourced from Coopercraft in England. However, for the reasons stated above regarding the stainless hoses for the calipers, I will revert to the rubber hose upon final installation.

Rear Flexible Brake Hose Lucas Rubbere and Goodridge

Rear Flexible Brake Hose Lucas Rubber and Goodridge

Goodridge Stainless Flexible Hose from Pipe to 3-way Adaptor with Copper Gasket Installed

Clips Securing Hydraulic Pipes to Rear Axle

Clips Securing Hydraulic Pipes to Rear Axle

Hydraulic Pipes

I took the more expensive, but much easier way out with the hydraulic pipes and purchased pre-bent stainless steel piping. The fit on several pieces was actually not very close but eventually everything was installed.

Clutch

There are two clutch hard lines. One from the master cylinder to a firewall brace and the other from the firewall to the slave cylinder.  

Clutch Pipe from Master Cylinder to firewall

Clutch Pipe from Master Cylinder to firewall

Clutch Pipe from Firewall Mount to the Slave Cylinder

Clutch Pipe from Firewall Mount to the Slave Cylinder

Brakes

Master Cylinder

Note in the photos above that I have the master cylinder rotated 180 degrees from its position when I removed it from my car. See photo below:

Master Cylinder and Hydraulic Pipe with fitting

The original arrangement used an intervening pipe, a coupler, and a banjo fitting to the master.

Master Cylinder Connection Pipe and Fittings

I am no expert on brake hydraulics, but it seemed to me that the use of the connection pipe introduces at least three additional opportunities for fluid leaks as compared to a direct mounting of the brake pipe from the master to the 4-way junction or union. 

Consequently, I decided to cut the end of the hard pipe coming from the 4-way union, fit a new SAE fitting nut, re-flare the end of the pipe with a new double flare and screw the pipe directly into the master. To make this easier to accomplish, I rotated the master the 180 degrees.

Brake Pipe from Reservoir Through Flexible Hose to Master Cylinder – This short pipe is joined to a hose specifically designed for use with hydraulic fluid that connects to the brake fluid reservoir. The hose was sourced from SNG Barratt COH Line – 2337, 0613-7 x 13-3. SNG Barratt supplied a 5/8″ clip to secure the hose, but I found the clip to be too large and instead used 11-13 mm clips at both ends of the hose. The plastic reservoir is taped to keep it clean while mounted in the car during restoration.

Brake Pipe From Master Cylinder to Flexible Hose

Brake Pipe From Master Cylinder to Flexible Hose

Brake fluid Hose from Reservoir to Master Cylinder Pipe

Brake fluid Hose from Reservoir to Master Cylinder Pipe

Brake Fluid Hose from Reservoir to Master Cylinder Pipe

Brake Fluid Hose from Reservoir to Master Cylinder Pipe

Brake Pipe From Master Cylinder to Four-Way Junction – This pipe curves around the firewall, along the RH engine bay valance and connects with the junction. It is held in place by two welded folding clips.

Brake Pipe from Servo to the Four-Way Junction

Brake Pipe from Servo to the Four-Way Junction

Brake pipe to rear axle from from-way adapter – A long pipe running from the four-way adapter, along the RH frame rail to a metal tab fitting welded to the body at the end of the frame connects to a flexible Goodridge hose to the rear axle. This pipe shares routing with the full line and battery cable, all secured by a series of stainless steel double clips.

Fuel and brake Lines routed to Rear

Fuel and brake Lines routed to Rear

Fuel Line, Brake Pipe, Battery Cable Routing

Fuel Line, Brake Pipe, Battery Cable Routing

Brake Line Connection to Flexible Hose

Brake Line Connection to Flexible Hose

LH Front Brake Pipe – This line runs from the four-way adapter, around the front frame under the radiator, and through a LH engine bay valance rubber grommet, to a welded metal clip on the outside of the valance where it joins a Goodridge flexible hose to the brake caliper. It is secured by three white zinc 1/4″ clips with 7/32″ holes and  stainless self-tapping screws. A bendable tab at the front center of the frame helps to hold the pipe in place.

LH Brake Pipe to Junction

LH Brake Pipe to Junction

RH Front Brake Pipe – This line runs from the four-way adapter, through a RH engine bay valance rubber grommet, to a metal welded clip on the outside of the valance where it joins a Goodridge flexible hose to the brake caliper. It is secured by one white zinc 1/4″ clip with a 7/32″ hole and a stainless self-tapping screw.

RH Front Brake Pipe From Four Way Junction to Caliper

RH Front Brake Pipe From Four Way Junction to Caliper

RH Front Brake Pipe From Four Way Junction to Caliper

RH Front Brake Pipe From Four Way Junction to Caliper

Brake Pipe Tools

I will be using new pipe hardware for the Jag. This will require shaping the pipe (or straightening it), and while I have a few tools for this purpose, Brake Quip sells some very nice brake system tools and fittings.

http://www.brakequip.com/tools

Brake Fluid Container & Clip

The container and clip were replaced with new items including the filler cap and level indicator switch. The Clip has a distance piece through which a 1/4″ – 28 x 2 1/4″ hex head bolt, shake proof washer, and a hex nut are used to mount the container to the LH wing valance. A #10 -32 x 3/4″  machine screw, shake proof washer, flat washer and hex nut is used to tighten the container clamp. Both the clip and the distance piece were painted with gloss black POR-15.

Brake Fluid Container, Filler Cap & Level indicator Switch, Clip and Distance Piece

Brake Fluid Container, Filler Cap & Level indicator Switch, Clip and Distance Piece

Brake Pipe 4-Way Adaptor

This component simply needed cleaning and it was ready to use once more:

Brake Pipe 4-Way Adaptor
                                                  Brake Pipe 4-Way Adaptor

Mechanical Brake Switch

The MK2 originally used an hydraulic brake switch to activate the rear brake lights when the brakes are applied. The hydraulic switches currently available seem to experience a higher than normal failure rate. I encountered this same issue with my Austin-Healey 3000. In the Healey I replaced the hydraulic switch with a plug in the 4-way adaptor and installed a mechanical switch at the brake pedal. The wiring is the same as for the electrical switch. The mechanical switch was sourced from Watson’s Streetworks.

Watson’s Streetworks Mechanical Brake Switch

Watson's Streetworks Mechanical Brake Switch

Watson’s Streetworks Mechanical Brake Switch

Brake Servo and Cowl

The brake servo sites in a Cowl, On The RH Wing Valance Enclosing Brake Servo Unit. I cleaned this metalwork and painted it with POR-15. The Cowl fastens to the bodywork with seven 1/4″ – 28 x 1/2″ hex head bolts with accompanying flat and shakeproof washers.

Cowl on RH Wing Valance Enclosing Brake Servo Unit

Cowl on RH Wing Valance Enclosing Brake Servo Unit

I trial fit the cowl and the Reservac with shield when building the air conditioning system. The cowl has three rubber grommets and steel spacers fitted for the studs on the servo. The steel spacers have the following dimensions: height .255″, O.D. .375″, I.D. .270″. These are secured with hex nuts and internal tooth lock washers.The servo is also supported with two studs from the Support Block and Clamp for Mounting of Servo to the Front Wing Valance referenced above.

Brake Booster Cowl Mounted

Brake Booster Cowl Mounted

Brake Servo RH Valance Grommets and Steel Spacers

Brake Servo RH Valance Grommets and Steel Spacers

Brake Booster Cowl Mounted

Brake Booster Cowl Mounted

Brake Servo Installed in Cowl with Breather Hoses

Brake Servo Installed in Cowl with Breather Hoses

 

Brake Booster Cowl and Vacuum Tank Mounted

Brake Booster Cowl and Vacuum Tank Mounted

Check Valve and Breather Hose

Check Valve and Breather Hose

Brake Servo Mounted

Brake Servo Mounted

Brake Servo Mounted

Brake Hydraulic Lines at Servo

Brake Hydraulic Lines at Servo

The air cleaner will need to be secured to the radiator shroud after it is installed. The bracket has been refurbished and painted with new fasteners and a restored air cleaner is pushed onto the new rubber hose.

Brake Servo Breather Pipe and Air Cleaner

Brake Servo Breather Pipe and Air Cleaner

These are a few images of the Brake Vacuum Servo Air Cleaner and Hose installed after the engine and radiator are fitted.

Air Cleaner Hose for Brake Vacuum Servo Hose Installed

Air Cleaner for Brake Vaccum Servo installed

I thought the original support bracket mounted to the upper right stud on the radiator (shroud) held the air cleaner too close to other items that would cause rubbing so I used a 3/4″ threaded extender to move the air cleaner slightly rearward. 

Brake Pedal and Master Cylinder 

I previously removed the brake and clutch housing complete with master cylinders and pedals. To refurbish this unit, I began with disassembly of the brake components. I first separated the Girling 875 Master Cylinder from the housing. An aluminum spacer is sandwiched between the master cylinder and the housing, and held in place by two 5/16″ hex nuts and shakeproof washers on 5/16″ – 24 studs. The 5/16″ x 3/4″ clevis pin with flat washer is removed from the pedal freeing the push rod for removal.

Pedal Assembly

Pedal Assembly

Master Removed

Master Removed

The Girling 875 Master Cylinder has a 7/8″ bore. The master was sleeved with stainless steal and a rebuild kit with new seals was installed.

Master components

Master components

Master Components

Master Components

Push Rod Length

Push Rod Length

These images show the aluminum brake and clutch housing with the pedals, return springs and fibre washers.

Pedal Housing

Pedal Housing

Pedals in Housing

Pedals in Housing

Return Springs

Return Springs

The clutch master cylinder and reservoir removal is described under the “Gearbox and Clutch” post found at this link: https://valvechatter.com/?cat=639.

After the clevis pins are removed, the 1/4″ – 28 x 1 1/2″ hex bolt and nylock nut can be removed from the central pedestal. This bolt holds the pedal shaft in place. The shaft was then knocked out with a punch and hammer. Each pedal could then be removed along with the return springs and two fiber washers for each pedal. All parts were cleaned and the housing was then reassembled.

Brake & Clutch Master Cylinder Housing and Pedals

Brake & Clutch Master Cylinder Housing and Pedals

 

Brake & Clutch Master Cylinder Housing and Pedals

Brake & Clutch Master Cylinder Housing and Pedals

Seven 5/16″ – 24 studs are located in the housing to secure the assembly to the car’s body structure with hex nuts and a double paper gasket (two gaskets).

I had some difficulty ordering new pedal return springs for the clutch and brake pedals, but after several weeks I finally received the proper parts. I first placed the twin paper gaskets that go between the master cylinder housing and the body on the housing (you cannot get it on after the pedals are on the shaft). I then installed the freshly painted pedal arms and pedals along with new rubber pedal pads. The clevis pins were in good shape so I simply cleaned them up, greased them and reinstalled with new split pins. I then placed the new clutch master cylinder/reservoir on the studs on the housing and tightened the two nuts and shake proof washers.

Master Cylinder Housing

Master Cylinder Housing

Pedals mounted to Housing

Pedals mounted to Housing

New Pedal Rubbers

New Pedal Rubbers

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

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

The pedal assembly was installed in the car. A double gasket was mounted between the aluminum base and the car body. The assembly can be inserted through the hole in the body if the pedal pads are removed. After installation the brake master was fitted and the clevis and split pin were inserted to connect the pedal to the master cylinder push rod.

Pedal Assembly Installed

Pedal Assembly Installed

Bleeding the Hydraulic System

After checking all of my connection points one more time to make sure everything was tight, I put a couple of inches of DOT 4 brake fluid into the fluid reservoir and let that drain for a few minutes to see if I had any leaks close to the reservoir. It turned out that I did, but I was able to take care of that in fairly short order. I then filled the reservoir and let gravity work its magic for about thirty minutes. 

I like to use a syringe to pull fluid through the pipes to the bleeder valves. I use one like this with a clear hose about 10″ long to connect the syringe to a bleeder valve.

Brake Fluid Syringe

I find that using the syringe speeds up the bleeding process. Everyone has their preferred ways of bleeding. I put some grease around the bleeder screws to help prevent any air from entering the system through the bleeder threads and then I attach the syringe hose to the bleeder, crack open the valve and slowly pull the syringe extracting air and ultimately fluid from the line.

I start with the LH rear bleeder, move to the RH rear bleeder, then the LH front bleeder and finally the RH front bleeder. In this fashion I move from the bleeder farthest away from the four-way hydraulic junction mounted on the RH engine bay valance to the closest.

Since my system was completely dry, I had to suck air out of the LH rear bleeder valve five or six times before I began to draw fluid with the air bubbles. I would open the bleeder, draw the syringe, close the bleeder, and release the syringe tube from the bleeder to push the syringe piston fully downward in the cylinder and expel the air. I would then reconnect to the bleeder and repeat the process. The LH rear bleeder valve always takes the longest. Each successive bleeder takes fewer and fewer applications of the syringe. 

After completing the process, I still ask for the assistance of my wife to push the brake pedal for me as I continue to monitor each of the brake bleeders in the same sequence. I open a bleeder valve, she pushed the pedal down and leaves it down. I then close the valve and tell her to release the pedal upward. I then open the valve again and she pushes to the floor once more and that process continues until all air is expelled.

For the “pedal pushing process” I use a small container with fluid in the bottom and a short clear hose to collect the fluid that is expelled from each bleeder. Because the syringe process gets the vast majority of air out of the system, the “pedal pushing” takes very little time. I find that my spouse prefers this two step method of the syringe followed by pedal pushing because it keeps her in the garage for much less time than when one relies on “pedal pushing” alone!

Fortunately, we encountered no additional leaks and the process produced a nice firm pedal. 

I then basically replicated the process for the clutch. The slave cylinder can at times be a challenge and I find drawing the fluid through the slave with the syringe is particularly helpful. Once I got a good flow of fluid through the slave cylinder, my able assistant used the “pedal pushing process” to finish the job once more. Again, with positive results. 

 

 

Air Conditioning

Air conditioning the Mk2 is not an easy task. The primary problem is lack of space. The engine bay is already crowded and adding a compressor, hoses, condenser and related hardware is a challenge and then one must find a place for the evaporator. Jaguar had dealers install the evaporators in the boot with cool air outlet vents then routed to the shelf behind the rear seat. Less than ideal. If one had passengers, the cool air would be blowing on the their necks, and we Americans tend to like our auto air conditioners blowing a blast of cool air in our faces! So, it is fair to say that air conditioning systems in the MK2 represented a series of design compromises.

The best place to start with this project is understanding what the factory chose to do to address the U.S. market’s air conditioning needs. JCNA Jaguar Air Conditioning Judges’ Guide is a very helpful source of information filled with wonderful factory documentation. In the narrative of this post, I will refer to this document as The Guide. The Guide addresses the air conditioning systems for a number of models for the period 1955-1971. As the Guide and it’s primary author, George Camp, point out with supporting documentation, “air conditioning was a North American desire and effort. Factory installations of air conditioning systems were direct result of research and development work carried out in the Southeast and Western United States.”

Another useful resource is a document authored by Vintage Air: Their guide Vintage Air’s Air Conditioning Basics provides an easy to understand summary of air conditioning fundamentals for the novice – like me!

Of course, one of the very best sources of information for those who are attempting to install air conditioning in their mid-sixties Jaguar is the group of brave souls who have actually done it or are in the process. Robert Seligman was particularly helpful. Bob and I exchanged many, many emails about air conditioning particulars. Other helpful parties include in no particular order: Sterling Forsythe, Ed Nantes, Stuart Brainard, Glenn Logan, Ton Tulleken, George Leicht, Phil Aldridge and John Stefanik. My thanks to all for sharing their knowledge, experiences and photos!

The Rose 1964 Jaguar Air Conditioning System

The air conditioning system I developed for my car is comprised of a number of original or “original-type” components as well as contemporary parts sourced from current vendors. One decision, made early in the chronology of this exercise, was a key factor in determining how my system would be developed. I knew that I wanted to have cool air blowing in my face which meant air outlets in the dash.

I had no objection to housing the evaporator in the boot, but since there is just no practical way to get cool air from the boot to the dash I was reconciled to accepting the evaporator placement in the front of the car. I am not crazy about the “all-in-one” units that fit under the dash. I wanted something that at least appeared to be integrated into the car rather than added-on. I suppose that someone more creative than I could figure out how to mount and hide an evaporator under and behind the dash, but that was beyond my capabilities. In the end, I figured that a well insulated evaporator mounted on the firewall in the engine bay was the route I would take.

As others have done, I determined when I started this process that the kit from Rock Browning’s RetroAir company in Texas was my best bet. So I purchased his kit. However, as my journey progressed and I learned more about this subject, I decided to modify Rock’s approach. My deviations from the RetroAir kit are explained below. This is no knock on the RetroAir kit. I simply decided to take a different path regarding some aspects of the system.

At the heart of the RetroAir system, is a single belt,  “V” groove pulley system utilizing an idler pulley on the back of the classic “V” belt to improve pulley wrap. My preference after discussions and consultations with many is that while a single serpentine belt works just fine, it is preferable to have at least two belts driving the system when using “V” belts. JUST MY OPINION AND ULTIMATELY MY DECISION. This is a big decision in that mounting brackets and pulleys are effected.

The RetroAir Kit

My description of the process begins with the RetroAir kit because that is where I started. The following description was taken from the RetroAir web site and describes the purchased system.

This is our Original system that took over 3 years to develop so it would look and perform like it belonged in a Jaguar! It includes some of the most efficient, custom made parts available to cool a car. During development we looked at every aspect of cooling this model car including using the Heater Box and Ducts, as a European Competitor is doing. All A/C systems produce volumes of Condensation which will ruin the Metal Heater Box and  Ducting. Since the Metal Ducting is an integral part of the Body construction strength on the Mark II and Variants, the resulting Rust and Rot can be dangerous and expensive to repair.  Likewise, we rejected the Trunk mount and “Hang Down” units for inadequate  performance, and aesthetic reasons. The results of our work is  “Blowin in Your Face” A/C that looks perfectly at home in a Classic Jaguar.We use only the best for these Kits: A 30 tube, Evaporator design that produces 16,000 BTU’s and will cool any large sedan. Our Condenser is a “4 pass” Multi-Flow with 13 passages in each tube and produces well over 20,000 BTU’s. Other units can not come close to this! We use a new Sanden/Behr Rotary Compressor which is the most popular and reliable aftermarket Compressor available, and easily cool the Mark II and it’s Variants. Our Custom Made Barrier A/C Hose Assemblies have 2 reinforcing plies and properly clocked Fittings. The results of all this care are Mid-Thirty to 40 Degree vent temperatures as reported to us by users and shops alike! 
LHD & RHD Kit Contents
  • New Custom Evaporator – UPGRADED!
  • New Custom Blower Assembly – UPGRADED!
  • New Sanden/Behr Rotary Compressor (Chrome Optional)
  • New Receiver/Drier with Hi-Lo Switch
  • New Hi Tech Multi-Flow Condenser (See details Below)
  • New Condenser Fan
  • New Custom Barrier Hoses with Properly Clocked Fittings
  • New Interior Louvers and Duct Hoses
  • All Mounting Hardware & Brackets
  • Full Instructions & Pictures

RetroAir Installation Disclaimer

Installation

Radiator

I had chosen to replace the original radiator with an aluminum unit made by Wizard to improve cooling and assist with the air conditioning system. I purchased the radiator from RetroAir with my other air conditioning components. It looked beautiful!

I ended up not using the Wizard unit because it did not fit properly. It sat too high, contacting the bonnet, and because of the wider upper tank it did not allow sufficient space for the wiring harness that travels across the front of the radiator from the LH valance to the RH valance. A sad and expensive lesson. I could have modified the aluminum unit to fit but could not solve the wiring harness problem to my satisfaction.

I decided to return to my original radiator but had it recored by Blue Sky Radiator with a modern cooling matrix. I painted the sides of the assembly and the lower tank with POR-15 after using their metal prep product. I then used progressively finer sandpaper to prepare the upper tank surface and then painted it with a Duplicolor self etching primer (three coats) and Duplicolor Engine High Temperature Gloss Black spray paint (also three coats). I just lightly dusted the front of the core with the high temperature paint as I wanted to avoid affecting the heat radiation properties of the radiator to the extent possible. I did not paint the rear face of the core. I was pleased with the results:

Painted and Recored Original Radiator

Painted and Recored Original Radiator

Installation guidance for the engine driven fan, fan shroud, and the radiator may be found in the “Engine Cooling” post: https://valvechatter.com/?p=5536. The location of the air conditioning Sanden compressor did require a modification to the shroud that is also detailed in the “Engine Cooling” post.

Condenser

The MK2 air conditioning system as conceived by Jaguar used a “stepped” condenser in front of the radiator and another below the front bumper. As The Guide describes, “The condenser for these cars was very interesting and was referred to as a “Chair” condenser due to its unique shape. Note some cars (MK VII, MK VIII, MK IX, MK 10, 420 G, S-type, MK2, & 340), had dual condensers. One located prior to the radiator and one slung beneath the bumper. They were connected in parallel (like a parallel electrical circuit). A fabricated road debris guard of perforated steel mesh or a heavily louvered cover was fitted and painted black for obscurity.” Figure 4 and Figure 8.A below are sourced from The Guide.

Chair Condenser Mounting

Chair Condenser Mounting

Condenser Mounting Instructions

Condenser Mounting Instructions

Some contemporary MK2 systems have used two condensers, usually mounted not under the car, but in one of the front wheel wells. Here are two examples:

Wheel Well Condenser Installation

Wheel Well Condenser Installation

Wheel Well Condenser Installation

Wheel Well Condenser Installation

 

I decided to at least initially install my system with only one condenser – the one supplied in the RetroAir kit. This decision is not based on empirical analysis. Rather, I am betting that with modern day condenser design and with the addition of an electric fan, not used by Jaguar at the time, that the system will operate effectively. Only time will tell.

So, I began the condenser installation. As directed in the instructions provided, I measured 13 inches from the bottom grille pan on the RH side and marked a center point. At the same height I measured two inches from the radiator support/brace. Where the two measurements intersected on the side panel valance (wheel well) I marked the location of the center of a 1 – 1/4″ hole to be drilled. I then marked the center point for another hole to be drilled 9 – 3/4″  directly below the top center mark.

Before drilling any holes I inserted the condenser into the grille cavity to make sure things would line up properly. RetroAir states emphatically that the condenser should be at least one inch from the face of the radiator. Satisfied that I had things lined up properly, I drilled the two 1 – 1/4″ holes in the side panel and carefully filed and sanded the hole to insure I had a smooth surface. I then inserted two supplied rubber grommets into the holes. These holes provided entry for the coolant hoses to the condenser connections  from the drier and evaporator. The top hole is for the large connection and the lower hole is for the smaller diameter connection. I then attached the hoses to the condenser fittings as loosely positioned it in the grille cavity.

Lower Condenser Fitting Hole with Grommet

Lower Condenser Fitting Hole with Grommet

Upper Condenser Fitting Hole with Grommet

Upper Condenser Fitting Hole with Grommet

Condenser Brackets and Hose Fittings from Engine Bay

Condenser Brackets and Hose Fittings from Engine Bay

Condenser Installed

Condenser Installed

I then, by trial and error, bent the two brackets supplied in the kit so as to mount to the series of vertical holes on the left and right side of the condenser. I drilled two small holes for #10 stainless socket-head machine screws into the LH and RH side panels of the wheel well to accept the front-most end of the mounting brackets. These two brackets firmly and securely held the suspended condenser in the cavity. Nylock nuts were used on all the fittings. The brackets will be powder coated black.

Condenser Bracket LH

Condenser Bracket LH

Condenser Bracket RH

Condenser Bracket RH

Electric Fan

The kit utilizes an 11″ 5.3 AMP JPI Fan. The instructions call for mounting the fan directly to the condenser with plastic ties, but I wanted to try something different so I ordered a pair of aluminum fan mounting brackets from Old Air Products.Old Air Products Fan Bracket Kit

I shortened the ends of each bracket and welded in a filler to fill the gaps on the ends and then used the brackets, fastened to the fan and the condenser to hold the fan in place. I much prefer the appearance of this approach. Just esthetic, but more pleasing to me.

Old Air Products Fan Brackets

Old Air Products Fan Brackets

SPAL 12 Inch Fan

SPAL 12 Inch Fan

Installed Condenser and Fan

Installed Condenser and Fan

Compressor

MK2 air conditioning installations incorporated an aluminum York compressor. The RetroAir kit as stated above provides a Sanden/Behr 5H14-V Rotary unit that is commonly used in the industry. My system utilizes the compressor in the RetroAir kit.

Sanden SD 508/SB 5H14-V V belt compressor

Sanden SD 508/SB 5H14-V V belt compressor

sanden compressor service guide

Alternator

Rock Browning will supply an alternator as a component of his kit including the accommodation for a power steering pump. For several reasons, I opted to provide my own alternator. I am using an electric power steering pump with a rack and pinion steering system and the pump requires significant amperage at full turn. I am also adding a number of other modifications such as power seats so I have chosen a high output Hitachi alternator for my application. The Hitachi alternator is described in more detail in the “electrical components” post.

Blower/SPAL Fan

The RetroAir kit uses a 3 speed, Spal Blower (Type 009-A70-74D-12V ) and according to Rock Browning owner of RetroAir it draws a maximum of 16 amps. My system utilizes this blower. To prepare for the installation of the blower, it is first necessary to remove the battery, battery tray, and the battery tray braces. Removing the braces requires drilling out spot welds and breaking the braces from the firewall/footbox. I had already removed the RH pedal box blanking cover.

Removing Battery Tray Braces

Removing Battery Tray Braces

Footbox with Battery Braces Removed

Footbox with Battery Braces Removed

I then removed the paint and “cleaned up” the area. I will hit the rusty area in the lower left corner with the media blaster later. The metal is solid.

Footbox Buffed clean

Footbox Buffed clean

The kit supplies a Blower Reinforcement Plate. The plate was used as a template for drilling new mounting holes. To get the proper alignment a bolt is placed in the lowest (and centered) hole in the body.

Blower Reinforcement Plate as Template. See locating bolt

Blower Reinforcement Plate as Template. See locating bolt

With the opening in the Blower Reinforcement Plate as a guide the body was marked for metal removal to match up with the opening in the blower that will be mounted below. This is done to ensure maximum air flow. The six holes were also marked to drill. The holes left from the battery tray braces will be welded closed.

Footbox Marked to Enlarge Opening for the Blower

Footbox Marked to Enlarge Opening for the Blower

I used a dremel to remove the metal and then files the edges smooth.

Footbox Metal Removed

Footbox Metal Removed

The ABS Plastic Oval Hose Inlet provided in the kit can then be drilled to match the holes in the Blower Reinforcement Plate – this part is mounted inside the engine compartment. I will use use Silicone sealer under the plate and Blower Mounting surface for a good seal when I do the final install after the car is painted.

Holes Welded and Area Primed

Holes Welded and Area Primed

Plastic Oval Hose Inlet Mounted to the Blower Reinforcement Plate. Two additional Holes Drilled Later.

Plastic Oval Hose Inlet Mounted to the Blower Reinforcement Plate. Two additional Holes Drilled Later.

I couldn’t determine why the Mounting Plate extended beyond the Plastic Oval Inlet. I decided to remove the excess metal from the Plate and cut it off with the dremel and repainted. After final installation, the locating hole at the bottom of the Mounting Plate will have a rubber grommet installed.

Blower Reinforcement Plate Trimmed

Blower Reinforcement Plate Trimmed

The SPAL Blower was then fit in the inside RH side of the passenger compartment. The Blower is a very tight install which is nice unless, of course, one is trying to install the Blower while standing on one’s head! Installation of the blower requires a helper. I replaced the six screws provided in the kit with six stainless  #10-24 x 3/4″ phillips head screws, but used the square nuts provided as they “lock” into the spaces provided on the base of the Blower.

I had to remove the top half of the LH carpet snap mount in order to place the Blower. When I do the final installation I will seal joints and surfaces with silicone sealer.

Trimming the Carpet Snap Mounting for Blower Clearance

Trimming the Carpet Snap Mounting for Blower Clearance

Blower Installed

Blower Installed

Blower LH Mounting Screws

Blower LH Mounting Screws

Blower RH Mounting Screws

Blower RH Mounting Screws

Blower Mounted in Place

Blower Mounted in Place

Evaporator

I chose to use the evaporator provided by the RetroAir kit. Before mounting the evaporator to the firewall of the MK2, I first installed a few engine compartment components to make sure that as I fit the evaporator I did not come into conflict with other engine bay parts. As with the other air conditioning kit parts, the evaporator was much easier to mount not having the motor in the engine bay!

I first installed the Shield Assembly, Adapter Plate and Starter Solenoid to the firewall with three 1/4″-28  x 5/8″ hex head bolts with flat washers and shake proof washers.

Shield Assembly, Adapter Plate and Starter solenoid

Shield Assembly, Adapter Plate and Starter solenoid

I then installed the heater pipe clip at the rear engine stabilizer bracket on the firewall. Two 3/8″-24 x 5/8″ hex head bolts with flat and shake proof washers secure the clip to the wall. Also one additional bolt and washers of same size is used through the rear engine stabilizer to the firewall.

Heater Pipe Clip

Heater Pipe Clip

Finally, I also installed the RH Bonnet Hinge as it comes close to contact with the evaporator.

The next step is to mount the rectangular plastic cover of the evaporator to the firewall. Proper positioning is important. With the flat side of the cover away from me (I was standing in the engine bay) and the open side with the edges facing toward me, I drilled a 3/32″ hole in upper left (driver’s) side of the plastic cover and also in the lower right (passenger) side, to locate the cover to the firewall. 

Then, following RetroAir’s directions, I placed the left (driver’s) side of the the plastic cover against the right (passenger’s) side edge of the center raised panel just below the starter solenoid. The directions call for the cover to be 1 1/2″ below the underside of the cowl overhang. At the far LH upper corner of the cover, I placed it about 1 5/8″ below, because I intend to make a cover for the evaporator assembly once installation is complete and I wanted to make sure that I had sufficient space to do do.

I placed a small level on the plastic cover to make sure it was level with the upper left corner 1 5/8″” below the cowl, and marked the firewall through the 3/32″ holes in the cover. I then drilled holes in the marked locations and secured the plastic cover to the firewall with two #4 1/2″ sheet metal screws. The cover established the location of the evaporator on the firewall.

RetroAir Evaporator Plastic Cover Distance from Cowl Mounted to Firewall

RetroAir Evaporator Plastic Cover Distance from Cowl Mounted to Firewall

RetroAir Evaporator Plastic Cover Mounted to Firewall

RetroAir Evaporator Plastic Cover Mounted to Firewall

The directions then call for drilling four 2″ holes through the cover and the firewall. Before doing this there are several matters to consider: if the original demister hoses have not been removed they need to be disconnected and moved out of the way so they are not contacted by the hole saw. Mine were already removed. Also, while not specifically mentioned in the directions, I found it best to locate the holes off-center to the RH side of the cover to ensure missing the plenum behind the firewall and so as to give room for manipulating the hose after passing through the firewall.

The depressions in the firewall add a little difficulty to the drilling/sawing task. I had a little problem with the hole located third from the RH side of the cover. The central drill bit hit one of the angled depressions and slipped downward somewhat. No problem, but that hole is not in line with the others. If a reader is undertaking this project, you might want to drill small locating holes first to help avoid my problem.

Evaporator Cover Installation

Evaporator Cover Installation

RetroAir Evaporator Plastic Cover with two inch holes for vent hoses

RetroAir Evaporator Plastic Cover with two inch holes for vent hoses

RetroAir Evaporator Hose holes for vent hoses in Firewall

RetroAir Evaporator Hose holes for vent hoses in Firewall

Two Inch Hole Saw

Two Inch Hole Saw

While the four plastic hose outlets would fit in the firewall holes one at a time, it was hard to imagine all four sliding into place at once when they were mounted in the plastic cover. The hoses fit over the outlets so their outside diameter is larger than the two inch holes through which they must pass. I decided to slightly enlarge each hole using a little trick the guys at my local hardware store showed me. (Sorry, don’t mean to offend but this is not the kind of tip you would get at a Home Depot or Lowes).

To drill a slightly larger hole than your original hole, you need to use the 2″ hole saw you used to drill the firewall holes as well as an additional hole saw with the larger desired hole – in this case 2 1/4″.  You also need the arbor for both. First remove the drill bits used for starting the holes from each arbor and set them aside. Then cut a 1/4″ steel rod about 4″ long. Turn the 2″ hole saw so the teeth face toward the larger hole saw. Insert the 1/4″ rod into the arbors, push the hole saws together, and tighten the 1/4″ rod with the arbor set screws. Then put the 2 1/4″ hole saw arbor in your drill and you are ready to make a new larger hole! The smaller 2″ hole saw acts as your centering device for the new larger hole.

Two hole saws and 1/4" linking rod

Two hole saws and 1/4″ linking rod

Two hole saws and 1/4" linking rod joined together

Two hole saws and 1/4″ linking rod joined together

The hose now passes through the firewall hoses without binding but still leaves a reasonably tight fit.

Each hose outlet was then popped into place and sealed with black silicone sealer.

Silicone Sealer around hose outlets

Silicone Sealer around hose outlets

The plastic cover could then be pushed onto the end of the evaporator. RetroAir directions warn ” Do not invert cover or holes will not line up!” The two 3/32″ locating holes were also sealed with silicone sealer. Before I finally mount the evaporator to the car, that is, after the car is painted,  I will fill the firewall depressions with the kit provided weather stripping to also seal the depressions.

The cover is then pushed onto the evaporator, and once tightly in place six black 1/2″ self-tapping screws provided in the kit were used to mount the cover to the evaporator. One on each narrow end, and two on each long side as seen in the image below:

Cover screws to evaporator

Cover screws to evaporator

The evaporator assembly is then held FIRMLY AGAINST the firewall and mounted using the two supplied brackets. Each bracket has a 1/4″ x 1/2″ hex bolt and flat washer that is used to secure the bracket to the side of the evaporator. The brackets are slotted to be adjustable because the LH bracket needs to be shorter than the RH bracket due to the “bump out” in the center panel of the firewall (see image).

After inserting the outlets through the firewall and tightly holding the LEVEL assembly against the firewall, I drilled three 3/32″ holes in the firewall for the matching three holes in each bracket. Rather than using the kit supplied self tapping screws that looked out of place (my opinion) in the engine bay, I used #10 1/2″ self tapping stainless round head phillips head screws. The evaporator was then firmly mounted against the firewall.

LH Evaporator Mounting Bracket

LH Evaporator Mounting Bracket

RH Evaporator Mounting Bracket

RH Evaporator Mounting Bracket

Evaporator Mounted to Firewall

Evaporator Mounted to Firewall

I then mounted the blower and the evaporator as an assembly and attached the flexible “inside” mylar hose to the Blower Oval Hose Inlet. The washers on two of the mounting plate screws were used to “trap” the wire in the mylar hose. I then also added a plastic tie wrap strip to secure the hose tightly to the Hose Inlet. I will also add silicone around the inlet/hose upon final installation.

I then trial fit the mylar hose to the evaporator inlet, but I will back up and install the outer insulation for the hose before attaching the hose to the evaporator. The mylar hose cannot withstand the high heat of the engine bay without insulation. I may fabricate an insulated fiberglass tube/duct to replace the mylar before the project is completed.

Mylar Hose Attached to Blower and Evaporator

Mylar Hose Attached to Blower and Evaporator

Mylar Hose Wire Under Washer

Mylar Hose Wire Under Washer

Mylar Hose Wire Under Washer

Mylar Hose Wire Under Washer

Assembly Mounted

Assembly Mounted

Assembly Mounted

Assembly Mounted

The evaporator has two right angle 1/2″ drain pipes at the front of the evaporator on the left and right outside corners. The RetroAir kit provides two pieces of drain hose to fix to these drain pipes, but they are only about 8-10″ long and unless you want water running down the inside of the engine bay valance or firewall one needs to order more drain hose.

Evaporator Drain Hose

I got six feet from Vintage Air and that enabled me to extend the drain hoses to below the chassis.

I also found that the LH right angle drain pipe path conflicted with the intake manifold in my installation. That meant cutting off and carefully drilling out the original pipe, ordering a new one from Vintage Air, and then gluing it with ABS glue (also available from Vintage Air) to the evaporator so that it exits at a 45 degree angle. These modifications worked just fine and you can see the result in the image below:

Modified Evaporator Drain Line

 

Vents and Air Ducting

All of the initial trial fitting was done without the vent hoses or ducting attached to the evaporator. It was now time to address the installation of the hoses. This process includes the modification of the newspaper tray which the RetroAir directions improperly refer to as “the cubby.” There are four hoses in the system. One hose attaches to a provided black round vent louver to be installed on the panel below the steering wheel. Two hoses attach to the two provided rectangular vent louvers that fit in the modified newspaper tray, and the final hose attaches to another provided black round vent louver to be installed below the dash glove box, or “Cubby.”

On my car, the LH Scuttle Top Casing Assembly, is a formed aluminum panel that will be modified to accept the vent louver. The RH Scuttle Top Casing Assembly is some type of flexible fiberboard. I have not yet decided upon a final strategy, but I will probably fabricate a panel for the RH side similar to that provided by Jaguar on the LH side. Two and one-half inch holes will be cut into both Casing Panels for the round louvers. Consideration will need to be given to the shape of the RH Casing Assembly to permit sufficient air to access the blower motor.

Modification of the Newspaper Tray

This installation will no longer permit the tilting of the instrument panel on its hinges. With the louver panel in place movement is restricted. To gain access it will be necessary to remove the front edge wood capping and the louvre panel and the stretch the duct hose to get behind the instrument panel.

This is another place where I departed from the provided directions. The louvers located in the newspaper tray are mounted in a black grained plastic fascia panel. This panel is “pinched” between the wood capping assembly at the front edge of newspaper tray and the indicator strip at the bottom of the instrument panel.  As can be seen in the two images below, the vent louvres are off center to the right to provide for access to the scuttle ventilator lever knob. One has to have access to this lever to open and close the scuttle ventilator lid.

Newspaper Tray Vent Louvers Off-Center

Newspaper Tray Vent Louvers Off-Center

Newspaper Tray Vent Louvers Off-Center

Newspaper Tray Vent Louvers Off-Center

I did not care for the off-center look of the RetroAir approach, so:

I bent and threaded both ends of a 1/4″ rod to extend the scuttle ventilator lever, then cut a slot in the LH front bottom of the newspaper tray, and finally used a 1/4″ – 20 coupler to attach the extension rod to the original lever

New Scuttle Ventilator Lever Extension

New Scuttle Ventilator Lever Extension

Newspaper Tray Slot for New Scuttle Ventilator Lever Extension

Newspaper Tray Slot for New Scuttle Ventilator Lever Extension

Newspaper Tray Slot for New Scuttle Ventilator Lever Extension

Newspaper Tray Slot for New Scuttle Ventilator Lever Extension

This allowed operation of the scuttle ventilator lid from below the newspaper tray which in turn permitted the location of the vent louvers to the center of the tray. Fortunately, I was able to find a local plastics company that was able to make a new air vent housing panel with the vent openings in the center of the panel.

Drawing for New Air Conditioning Vent Panel

Drawing for New Air Conditioning Vent Panel

The new extension rod will either be chromed or painted black and will be shortened after I determine its optimal length and that will require the installation of the seats, and the steering wheel. I will also need to put an opening slot in the LH Scuttle Top Casing Assembly to permit movement of the lever.

The central instrument panel is covered in a material called Rexine. As Eric Kriss points out in his Blog, Rexine “was manufactured by Rexine Ltd of Hyde, England, is cloth impregnated with cellulose nitrate, camphor oil, pigment and alcohol, and then embossed to look somewhat like leather. Needless to say, it’s now unobtainium.

Rexine Ad

Rexine Ad

In 1960, Rexine was much cheaper than leather, but that probably wasn’t the reason Jaguar chose it for the dash panel. It’s very thin, takes a razor cut without fraying, and could be wrapped around the tight corners of the copper panel.

The oils and alcohol in Rexine evaporate over time, so the material is now extremely brittle and easily breaks off like a piece of thin plastic.”

I was able to order some vinyl material from Aldridge Trimming in the U.K. http://www.aldridge.co.uk that I used to recover the instrument panel and the plastic or sheet metal vent louvre panel, so that everything will appear as if installed originally.

MK2 Instrument Panel Assembly

MK2 Instrument Panel Assembly

To run the vent hoses to the center louvers requires opening up the top and back of the newspaper tray. While I filed and sanded the edges to be smooth, the instruction call for applying black duct tape to avoid sharp edges. I will have the newspaper tray powder coated. The images below show the modifications including the lever slot. Once the LH and RH wood fascia are mounted to the car, the product will have a nice integrated and finished appearance.

Modified Newspaper Tray for Air Hoses

Modified Newspaper Tray for Air Hoses

Modified Newspaper Tray for Air Hoses

Modified Newspaper Tray for Air Hoses

Central Vent Louvre Hoses

Central Vent Louver Hoses

A Much Better Look In My Opinion

A Much Better Look In My Opinion

For the final trial fitting, I removed the evaporator from the firewall and connected all four hoses to the plastic evaporator outlets and then carefully pressed/pushed the evaporator with hoses through the four round openings and up tight against the firewall. The hoses behind the dash are quite a lot of spaghetti, but everything fits and the glove box cubby still mounts properly. Both demister nozzles with hoses are also connected to ensure fit.

Hose Installation Behind Cubby Glove Box

Hose Installation Behind Cubby Glove Box

Hose Installation Behind Cubby Glove Box

Hose Installation Behind Cubby Glove Box

In the image below, I have the A/C vent hoses connected, so this is what my final installation will look like:

Center Air Conditioning Vents and Face Plate

Center Air Conditioning Vents and Face Plate

Of course, it is just my opinion, but I think my modifications have yielded a much better esthetic appearance than the RetroAir kit. However, it also involved considerably more work. Once the wood is refinished, I think the central panel will look “factory!”

Air Conditioning Hoses

Four air conditioning hoses are supplied with the kit. The shortest #6  5/16″ hose, in my case 31 1/2″ long, is used to connect the drier and the condenser.

Air Conditioning Hoses

Air Conditioning Hoses

I reinstalled the grommets next to the condenser first. Then, BEFORE THE CONDENSER WAS MOUNTED, I CONNECTED THE HOSE FITTINGS. I also used a very small amount of anti-sieze on the threads. The threads on the condenser are soft and can easily cross-thread if not careful. Tighten with a 3/4″ wrench. This hose I used as supplied. I believe I ended up modifying the lengths of all of the other hoses to suit my particular needs. With the hoses attached to the condenser, and after making sure they were not chafing in the rubber grommets, I attached the condenser to the brackets mounted on the car on either side of the radiator grill opening.

The next step was to determine the routing of the hoses along the outside of the RH Front Wing Valance and to mount the drier.

Brake Booster Cowl and Vacuum Tank Mounted

Brake Booster Cowl and Vacuum Tank Mounted

The longest #8  13/32″ discharge hose, in my case 93″ long, is used to connect the compressor and the condenser. The 45 degree angle end of the hose attaches to the condenser. The RetroAir instructions call for routing this hose along the outside of and then through the RH engine bay valance. It is suggested that a hole be drilled in the valance suitable for a supplied rubber grommet to then allow the hose to pass through.

In another departure from the RetroAir instructions I chose to cut the hose and install a hard 90 degree hose fitting in the valance. See images below. The hole for the fitting is high on the valance near the bonnet hinge. It is approximately 1 1/2″ behind the lower hinge mounting bolt and about 1/2″ below it. I used a stepped drill bit to drill a 3/4″ hole in the valance for the hose fitting. This image shows the mounting in the wheel well side of the valance.

 
Discharge Hose LH Valance Fitting Location

Discharge Hose LH Valance Fitting Location

These two images show the ninety degree elbow fitting used on the engine bay side of the valance. The hose will channel below the evaporator, rest against the firewall and wrap around to connect with the compressor. I am pleased with this approach as the hose ends up being much less obtrusive in the engine bay than it would have been using the RetroAir routing. 

Discharge Hose LH Valance Fitting Location

Discharge Hose LH Valance Fitting Location

Discharge Hose Routing from Condenser to Compressor

Discharge Hose Routing from Condenser to Compressor

The end of the hose with the ninety degree fitting attaches to the compressor. Again, anti-sieze on the threads and tighten the hose fitting while the condensoer is still loose to avoid binding. Tighten with a 7/8″ wrench.

Hose Fittings and Crimping

Crimping the fittings on the air conditioning hose is really quite easy IF YOU HAVE THE PROPER TOOL! In my case I borrowed a Mastercool crimper from a friend’s shop. The tool can be mounted on a work bench but I just used a vice to hold it in place.

Hose Crimper Tool in Action

The tool uses various size dies that are color coded to match up with whatever size hose fitting you are using. The device is hinged to open, snap the two-piece dies in place and then close around the fitting. The pin on the left side in the image above is then inserted to lock the tool. One then simply turn the tightening shaft with a air gun or big wrench until the jaws of the tool fully close. Using a torque wrench to do the job, I found that approximately 80 lbs of force got the job done.

Hose Crimper Tool Sized Fitting

This happens to be a #10 size hose fitting before crimping.

Hose Fitting Before Crimping

The image below shows the fitting in position ready to crimp. You should have about a 1/4″ of the fitting showing on either side of the crimping dies.

Hose Fitting in Position Before Crimping

As mentioned, I used a torque wrench to tighten the tool.

Crimping Tool Leverage

And here is an example of the finished product:

Hose Crimping Finished Product

I used Thermotec’s Thermo Sleeve product http://www.thermotec.com/products/thermo-sleeve.html to help protect the hoses from the heat radiated from the exhaust manifolds that are unfortunately directly below the hoses mounted to the compressor. I used part number 14010 for the #8 hose and it fit perfectly. I used part number 14015 for the #10 hose. 14015 is a little large for the #10 hose, but it is the closest fit they have. The sleeves come in 3′ and 6′ lengths.

Thermo Sleeve

The image below shows the compressor hoses encased in the thermo sleeves. The ends are clamped to keep hot air out and to keep the appearance neat.

Thermo Sleeve on Air Conditioner Hoses

 

Drier

Whenever one adds modifications to a classic car mounting conflicts with other components must be considered. The RetroAir directions call for mounting the drier on the RH front wing valance assembly (wheel well wall). I planned to mount it at the suggested location, but I wanted to know what my hose runs would be before drilling any mounting holes.

I went to considerable lengths to make sure I wouldn’t encounter mounting problems! I decided to go ahead and mount the brake servo cowl and the reservac vacuum tank to again ensure that I did not have any space conflicts with the hose routing. This required cleaning the mounting area and priming the metal. After drying, I mounted the cowl with eight stainless 1/4″-28 x 1/2″ hex head bolts with shake proof and flat washers.

Brake Booster Cowl Mounted

Brake Booster Cowl Mounted

Brake Booster Cowl Mounted

Brake Booster Cowl Mounted

I then mounted the Reservac vacuum tank. It mounts to the body with two 5/16″-24 x 3/4″ hex bolts, flat and shake proof washers and nuts. A small brace arm connects the vacuum tank to the cowl for additional support.

Brake Booster Cowl and Vacuum Tank Mounted

Brake Booster Cowl and Vacuum Tank Mounted

I installed the front suspension crossmember and the uprated windscreen wiper motor sourced from Classic Motor Cars http://www.classic-motor-cars.co.uk/servicing_types/mk2-lorem/. It requires a different mounting location than the original Lucas motor. With everything in place I was able to place the drier bracket without any worries.

I used a Moroso tank bracket to mount the drier: http://tinyurl.com/kdjbovw it was purchased from Summit Racing.  I used two 5/16″ – 24 x 1 1/2″ with nylock nuts and flat washers for the mounting.  The drier was supplied in the Retro Air kit.

Moroso Drier mounting Bracket

Moroso Drier mounting Bracket

 

Air Conditioning Drier Installed

Air Conditioning Drier Installed

The remaining #6 hose supplied in the RetroAir kit is used to connect the drier to the evaporator. Again, I departed from the RetroAir instructions and installed a hard 90 degree fitting through the valance to route the hose to the evaporator. I just don’t like running the hose through a grommet in the valance wall. My approach also allows for a much tighter fit of the hose against the valance wall – no wide bends.

Also unlike the photos provided in the instructions I decided to mount the new fitting fairly low on the flat triangular panel at the rear of the valance and then run the hose vertically to the evaporator inside the engine bay. I used a stepped drill bit to drill a 5/8″ hole in the valance for the hose fitting. The measurements are approximate. Using the hard fitting did require cutting the kit supplied hose. I did need to purchase additional #6 hose to use on the inside of the engine bay valance from the new fitting to the evaporator.

Location of Hose Fitting Hole in Valance

Location of Hose Fitting Hole in Valance

Installed #6 Hose from Drier to Fitting in Valance

Installed #6 Hose from Drier to Fitting in Valance

This image shows the final mounting and routing of the hoses from the condenser along the RH valance wall. Nice tight fits with nothing rubbing or sagging.

RH Valance Hose Routing

RH Valance Hose Routing

And the image below shows the engine bay side of the installation, from the valance to the evaporator:

#6 Hose from RH Valance to Evaporator

#6 Hose from RH Valance to Evaporator

The final hose, the #8 hose from the evaporator to the compressor (seen in the image above to the upper right), was fit to the evaporator; however, the final length of the hose will be determined once the engine and compressor are installed.

Trinary Safety Switch

The Retro Air kit included a binary switch, but I decided to use a 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

Vintage Air Trinary Switch

Vintage Air Trinary Switch

Vintage Air Trinary Switch

Vintage Air Trinary Switch

The switch is fastened to the drier via a “T” pipe allowing adjustment in the mounting of the switch.

Trinary Switch, Drier and Wiring Connector

Trinary Switch, Drier and Wiring Connector

There are four wires, two blue and two black, on the switch I purchased. The wiring is explained in detail in the “New Wiring Harness Circuits” post.

British Wiring Waterproof Connector

British Wiring Waterproof Connector

I connected the four wires to a waterproof connector purchased from British Wiring. 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.

Battery Relocation to the Boot

The air conditioner evaporator must be mounted where the battery was originally, therefore the battery must be relocated to the boot. That process is described here: https://valvechatter.com/?p=6627

Mounting Brackets, Belts and Pulleys

The illustration below is from The Guide and shows the bracket and pulley modifications for a dealer installed air conditioning system. A “V” belt crankshaft pulley was added in front of the original “W” or double “V” crank pulley. With this design, one “V” belt is used on the “outside” sheave to drive the compressor, tensioner and crankshaft pulley. While the original “W” or double “V” belt is used to drive the “inside” crankshaft pulley, the generator pulley, and the water pump pulley.

In this system, brackets to support the rather large York compressor are seen above the cylinder head, attached to the exhaust manifold, and a quite large heavy duty steel plate/bracket is used to secure the compressor to the three threaded bungs cast in the side of the engine block. One should also note the use of a tensioner pulley with eccentric arm and bracket located at the front of the engine and above the water pump. This pulley is used to tension the belt (and distance it so as to not  conflict with the water pump pulley) used for the crankshaft and compressor pulleys.

Jaguar MK2 Air Conditioing Brackets

Jaguar MK2 Air Conditioing Brackets

Apparently (this is my own assessment and is not supported by any definitive research of which I am aware), somewhere along the line – perhaps with the MK IX? a single twin groove “V” belt pulley was adopted. This is a chipped example:

Chipped Twin Groove "V" belt pulley - MK IX?

Chipped Twin Groove “V” belt pulley – MK IX

I purchased the aluminum alloy driveshaft pulley and water pump pulley from RetroAir as well as an idler pulley. Additionally, and as part of the kit, I purchased the RetroAir compressor bracket. As pointed out at the beginning of this post, The RetroAir approach has all pulleys on one “V” belt. However, in my application I have decided to use a two belt system using “V” pulleys and I have located (with Robert Seligman’s help!) original brackets as depicted in the Jaguar diagram above.

The RetroAir compressor bracket and pulleys may be seen in the image of my engine below:

Rose Engine Pulleys - Early Iteration

Rose Engine Pulleys – Early Iteration

In the image above, the belt is on the wrong side of the jockey pulley and it shows an alternator that is not the Hitachi that I am actually using. The photo is provided solely to show the two aluminum pulleys, the idler pulley, the compressor and the compressor bracket purchased as part of the RetroAir kit. The compressor bracket also has a rear mount and both are supplied in a grey color. I powder coated both black.

The Big Switch

The heart of the pulley/belt system is the crankshaft pulley that drives both belt circuits. I searched and searched for the proper twin groove pulley, if there is such thing, and never came up with it. However, on eBay, I did find a 1990 Jaguar XJS three groove “V” crank pulley. I machined away the outside groove of the pulley and ended up with a crank pulley that I believe will serve my needs.

1990 XJS Crank Pulley as Purchased

1990 XJS Crank Pulley as Purchased

1990 XJS Crank Pulley 2.06" deep after machining

1990 XJS Crank Pulley 2.06″ Deep After Machining

1990 XJS Crank Pulley 5.83" Diameter

1990 XJS Crank Pulley 5.83″ Diameter

The XJS pulley is .65″ larger in diameter than my original MK2 pulley. At just slightly deeper than 2″, the modified XJS crank pulley will fit behind the fan without  conflict. The pulley is mounted to the harmonic balancer with four 5/16″ – 24 x 1-1/4″ hex head bolts. Two bolts use split washers and the other two use a tab washer.

Two-Groove Painted Crank Pulley Installed

Two-Groove Painted Crank Pulley Installed

Having decided on my crankshaft pulley, I then began my search for other parts I needed. I sent emails to all of the Jaguar parts breakers I could think of trying to find original parts. I think it is fair to safe that these are pretty rare. Dan at Jaguar Heaven responded that he had the mounting brackets and parts for the addition of the compressor to a MK2. I ordered and waited hoping that what I purchased was what I really needed. Dan delivered and the parts are shown below after cleaning.

Air Conditioning Brackets and Tensioner Pulley

Air Conditioning Brackets and Tensioner Pulley

I know that Jaguar was very cost conscious, but these brackets are pretty primitive. Note the saw cuts on the tensioner pulley below:

Tensioner Pulley Bracket

Tensioner Pulley Bracket

These are a couple of close up images of the tensioner pulley on its mounting bracket with the adjustable eccentric arm for tensioning the belt.

Tensioner Pulley MK2

Tensioner Pulley MK2

Tensioner Pulley MK2

Tensioner Pulley MK2

I removed the  7/16 ” shoulder bolt connecting the pulley to the MARCO eccentric alarm. I was then able to remove the circlip that was retaining the bearing in the pulley. I then drifted out the bearing and replaced it with a new bearing of the same model number which is 6203RS sourced from VXB.com Ball Bearings. 6203RS has a 17mm inside diameter, a 40 mm outside diameter, and is 12mm wide. I then reinserted the shoulder bolt through the pulley and a quarter inch spacer into the MARCO eccentric arm and tighten the pulley to the arm.

In this image you can see the MARCO lettering on the eccentric arm, the circle and the shoulder bolt.

Tensioner Pulley and Marco Eccentric Arm

Tensioner Pulley and Marco Eccentric Arm

The tensioner pulley bracket is attached to the front of the engine with three bolts and spacers. I used drill bushings for spacers and they were all sourced from McMaster-Carr. The two center and upper studs for the water pump must be removed. I used a stud remover socket for 5/16″ studs to carefully remove the studs. Fortunately, they came right out!

Water Pump Nuts and Studs to be Removed

Water Pump Nuts and Studs to be Removed

Looking at the front of the engine, the upper LH bracket mount uses a 5/16″ – 24 x 3-1/4″ bolt and split washer with a 5/16″ ID, 5/8″ OD and 1-1/4″ long drill bushing spacer. The center and RH mounts for the bracket use coarse thread 5/16″ – 18 x 2″ bolts (they replace the original water pump studs) with split washers and 5/16″ ID, 5/8″ OD, and 1/2″ long drill bushing spacers. Also in the image is the 1/2″ – 20 x 1″ hex head bolt used to attach the pulley eccentric arm to the mounting bracket.

Tensioner Pulley Mounting Plate Drill Bushing Spacers Installed

Tensioner Pulley Mounting Plate Drill Bushing Spacers Installed

Tensioner Pulley Mounting Bracket Installed

Tensioner Pulley Mounting Bracket Installed

The tensioner pulley mounted to the eccentric arm is then secured to the bracket with the 1/2″ – 20 x 1″ bolt.

Tensioner Pulley Eccentric Arm Mounitng Bolt

Tensioner Pulley Eccentric Arm Mounting Bolt

 

Tensioner Pulley Eccentric Arm Installed

Tensioner Pulley Eccentric Arm Installed

Tensioner Pulley on Mounting Plate and Installed

Tensioner Pulley on Mounting Plate and Installed

The compressor bracket is quite a substantial piece. Made of 1/4″ steel plate. The two images below show a trial fitting of the bracket to the engine block. It is secured with three 3/8″-24 x 1″ grade 8 bolts and washers on the side of the block and with one 5/16″ bolt at the front of the engine through the timing chain cover.

Compressor Bracket Trial Fitting

Compressor Bracket Trial Fitting

Compressor Bracket Trial Fitting

Compressor Bracket Trial Fitting

The curvature in the mounting bracket in the second photo is an optical illusion! It is a flat piece of steel with one angled bend as seen in the first image above.

As mentioned previously, the bracket was made for the mounting of a York compressor and I am using a Sanden unit. To accommodate the Sanden Unit I purchased a York-to-Sanden conversion bracket from Vintage Air that sits on top of the bracket in the image above. A fasteners kit with all the hardware needed to interconnect the two brackets and mount the compressor comes with the bracket.

Vintage Air York to Sanden Mounting Bracket 151610-VUR

Vintage Air York to Sanden Mounting Bracket 151610-VUR

Vintage Air York to Sanden Mounting Bracket

Vintage Air York to Sanden Mounting Bracket

 

 This is an image with the bracket installed using the four 3/8″ – 16 x 1 1/4″ cap screws, flat and split washers. A full list of faster hardware used is found here:Vintage Air York to Sanden Conversion Bracket Kit Hardware
Vintage Air York to Sanden Mounting Bracket Installed

Vintage Air York to Sanden Mounting Bracket Installed

After ordering the conversion bracket from Vintage Air, I discovered that there is at least one other similar, but not identical, bracket that would have been the better part for me. The curvature in the front mount of the bracket shown in the image above conflicts with the front of the Sanden Compressor if one needs to mount the compressor in front of the bracket attachment ears. I suppose it would work fine if the compressor was mounted behind the bracket mounting ears.  The other commonly available bracket looks like this:

Square Faced Bracket

Square Faced Bracket

Note the mounting brackets are not curved or arched. The square cuts clear the front of the Sanden Compressor. Rather than returning and reordering the proper bracket I just used a grinder to replicate the square cut front. The rear curvature is not an issue. Oh well, live and learn.

Following my little diversion, I did mount the compressor and the conversion bracket to the MK2 bracket.

Compressor to Conversion Bracket

Compressor to Conversion Bracket

Compressor and Conversion Bracket mounted to engine bracket

Compressor and Conversion Bracket Mounted to Engine Bracket

The exercise of installing air conditioning in the MK2 is a trial and error process. The major challenge is the lack of space under the bonnet and in the interior. Once I had the engine in the car and I began installing ancillaries such as the radiator, fan and fan shroud and etc. I quickly discovered that I could not get the fan shroud installed when the compressor was in place and if I tried to install the fan shroud first and then the compressor I could not access the mounting bolts for the York/Sanden mounting bracket to tighten them.  

My solution, was to weld the bolts in place that fasten the York/Sanden bracket to the original York bracket as seen in the photos below:

Original MK2 York Compressor Bracket with Welded Bolts for Sanden Adapter Bracket

The two compressor brackets were painted with POR-15. 

Painted original MK2 York Compressor Bracket with Welded Mounting Bolts for Sanden Adapter Bracket

With the bolts welded to the bracket I no longer have to worry about holding the bolt head with a wrench while I tighten the nuts. This way, I am able to install the fan, modified fan shroud, and radiator and can then “drop” the compressor on its York/Sanden mounting bracket into position and tighten the securing lock washers and nuts.

Compressor on Mounting Bracket Adapter

The bolts, nuts and washers used were provided with the York/Sanden bracket and are 3/8″ – 16 coarse thread fasteners. 

Installing the compressor with its bracket to the original York bracket is a little tricky – not hard, but it does require some fiddling. I first, set the compressor in place over the welded bolts in the York bracket. I then lifted it slightly and inserted a wrench between the two brackets to raise the compressor thereby making it easier to get the washers and nuts on the rear welded bolts. After putting the alternator heat shield in place (see narrative and images below) I could then remove the “spacer” wrench and tighten everything down. The front right bolt/nut is a challenge to access. I never did get it as tight as I might like, but the compressor isn’t going anywhere as the other three mounting points are firmly secured. This bolt/nut is pointed out with a screwdriver tip in an image below.

Alternator and Compressor Heat Shields

The rear of the compressor and alternator is in very close proximity to the front exhaust manifold. I fabricated aluminum heat shields to help protect both from the exhaust heat. They were cut from a panel of corrugated aluminum consisting of two sheets pressed together with internal air voids. The piece I happened to use was a Porsche product a friend gave me.  I cut the shapes I needed and crimped the edges to fit. The advantage of this material is that it is pliable and can be pressed into shape while at the same time it is strong enough to be self-supporting.

The alternator heat shield is installed first. 

The alternator shield mounts to the two rear 3/8″ bolts that secure the York/Sanden conversion bracket to the original Jaguar-York mounting bracket. This is accomplished by setting the compressor in place over the mounting bolts, sliding the compressor fully forward and tilting it slightly forward at the front to slip the shield over the exposed bolts. The wrench in the second photo below is inserted between the two compressor brackets to raise the compressor then making it possible to place the two rear mounting nuts on the bracket bolts. After staring the nuts the wrench is pulled out and then the nuts are tightened after aligning the compressor pulley with the crank and tensioner pulley.

Alternator Heat Shield Install on Compressor Bracket Bolts

Alternator Heat Shield Installed

The compressor shield is mounted to the top two rear compressor mounting ears using two chrome 3/4″ OD, 1-1/2″ long spacers for 3/8″ – 24 x 2-1/2″ hex bolts and internal tooth lock washers and nuts.

Alternator Heat Shield

Alternator Heat Shield

Compressor Heat Shield Mounted on Compressor Top Ears

 

Gap Between Heat Shield and Manifold

Gap Between Heat Shield and Manifold

Alternator & Compressor Heat Shields in Place

Alternator & Compressor Heat Shields in Place

Challenging Nut to Access

Pulley/Belt Circuits

So, I have covered the three pulleys on the “outside” belt circuit in my two belt system – the crank pulley, the tensioner pulley and the compressor. The compressor will use the outside groove and the tensioner pulley aligns with the compressor and the crank shaft pulley thanks to the drill bushings used as spacers. The “outside belt” I used is 1/2″ “V” belt ordered from Advance Auto Supply. I like to get expendable items like these at a common auto supply house when possible so that if the belt breaks I can easily pick up a new one. It is a DAYCO 17555  13A1410 that is 55.5″.

The “inside” belt circuit consists of the crankshaft pulley, the water pump pulley and the alternator pulley . I am using the water pump pulley provided in the RetroAir kit. It is aluminum alloy.

Water Pump Pulley

Water Pump Pulley

It measures 5.65″ in diameter. It is secured to the water pump with four 5/16″ – 24 x 1″ hex head bolts through the fan.

The alternator pulley is 2.6″ in diameter and was machined to fit the Hitachi alternator. It mounts to the original dynamo/motor mount bracket and is adjusted with a custom swing bracket. The swing bracket is painted black before final assembly. At the alternator, a 5/16″ID x 1/2″ drill bushing is used as a stand-off to move the swing bracket away from the alternator casing and at the bracket’s other mounting point a 5/16″ID x 7/8″ drill bushing is used as a spacer on the lower RH water pump hex head bolt. To account for the extra length of the bushing, a 5/16″ – 24 x 3-3/4″ hex head bolt is used. In the image it appears that the compressor belt is hitting the alternator pulley, but there is sufficient distance between the two.

Hitachi Alternator, Pulley and Swing Bracket

Hitachi Alternator, Pulley and Swing Bracket

It has been a long journey to this point, but that completes the components for both pulley/belt paths. The “Outside” path is tensioned with the adjustment of the tensioner pulley and the “inside” path is tensioned by adjusting the alternator on the swing bracket. This is an image of the completed  system:

Completed Pulleys and Belts

Completed Pulleys and Belts

The chart below provides a summary of pulley sizes and ratios along with RPMs of each pulley when the crankshaft pulley is turning 1,000 RPM:

Accessory Pulley Diameter RPM
Crank 5.83” 1,000
Alternator 2.61” 2234
Water Pump 5.66” 1030
Compressor 5.197” 1122

Motor Fan

The cooling fan for the motor is addressed in the Cooling Post. I am using a modified fan sourced from Guy Broad Jaguar in the UK.

Controls and Electrical Connections

The wiring of the air conditioning system in my Jaguar MK2 is described more fully in the “Building a Wiring Harness” Post. The components in the electrical wiring include: the compressor, the trinary pressure safety switch, the radiator fan, the blower, the radiator fan manual override toggle switch, the coolant temperature sensor switch at the radiator, and the fused power source. Plus the operating controls consisting of two rotary switches, one for the blower fan speeds and the other for the adjustment of air temperature.

I have only seen a few cars with the RetroAir kits installed. The ones I have seen typically have the thermostat switch and the blower switch mounted in a plastic housing below the dash on the passenger side of the car. The housing is provided in the RetroAir kit. The photo below shows a typical installation:

Air Conditioning Controls Below the Dash

Air Conditioning Controls Below the Dash

The kit installation looks nice and certainly fits with the central gauge panel theme, but I wasn’t keen on using a plastic housing for the controls and I wanted a more stealth appearance. I was motivated by a photo of a J.D. Classics MK2 that apparently had an integrated heating/cooling system.

J.D. Classic Air Conditioning/ Heating Controls

J.D. Classic Air Conditioning/ Heating Controls

 

So I too decided to mount the switches where the console ash tray is mounted. This turned into a big job that took quite a long time because fitment was all by trial and error. I will not claim that what I ended up doing is the proper way to attack this issue, but it produced the desired effect.

The challenge is that the two control switches have to be mounted low enough to avoid the knobs contacting the ash tray lid. As can be seen in the images below, this required cutting and modifying the gearbox cover.

Location of Air Conditioner Control Switches

Location of Air Conditioner Control Switches

Location of Air Conditioner Control Switches

Location of Air Conditioner Control Switches

The switches need to be moved to the outside of the ashtray opening to clear the gearbox, but there is room on each side to make things work. One also needs to account for the wiring terminals and wiring that exits the bottom of both switches.

I created fiberglass”pockets” on each side of the gearbox cover so that the switches would be sealed from the elements and to keep heat and fumes from the gearbox entering the interior of the car. I am inexperienced in these things so cutting the openings to fit (the switches are not the same size) was a bit tricky and I am embarrassed by my fiberglass work, but all of this is hidden by the console.

Modified Gearbox Cover for Air Conditioning Switches

Modified Gearbox Cover for Air Conditioning Switches

Underside of Modified Gearbox Cover with Closed Cell Foam Gasket

Underside of Modified Gearbox Cover with Closed Cell Foam Gasket

I decided that it was best to mount the switches to the gearbox cover rather than to the ash tray assembly. This allows one to complete the wiring before the console is mounted which turns out to be much easier than the alternative. I glued a wood block to the center of the gearbox cover between the switch “pockets” to which I mounted a steel strip with openings drilled for the the switches and for two stainless  #10 – 1″ screws. I intentionally made the block a little lower than what was ultimately needed, electing to then use shims to get the proper height for the ash tray mounting – easier to see in a photo than to describe:

Air Conditioning Switches Mounted to Gearbox Cover

Air Conditioning Switches Mounted to Gearbox Cover

I then cut a flat piece of aluminum sheet to fit inside the ash tray assembly and drilled holes for the switches. After installing this cover plate I pushed the rubber switch knobs onto their stems and I have my stealth air conditioning controls!

Aluminum Cover Panel for Air Conditioning Controls

Aluminum Cover Panel for Air Conditioning Controls

I will cover the aluminum sheet with leather matching the interior. The Vintage Air supplied graphic knob surrounds are really too small in this application. As you can see, the fan control wording is hidden by the knob. I will have a trophy shop engraver make some polished engraved plates to surround each knob as seen in roughed-out fashion below:

Air Conditioning, Cruise Control, Radiator Fan, and Heat Evacuation Blower Switches

Air Conditioning, Cruise Control, Radiator Fan, and Heat Evacuation Blower Switches

Getting closer to a finished product, I have added two small rocker switches and the cruise control module to the space formerly occupied by the ash tray that I would have never used. I think that once this is all covered in leather and I have proper knob surround plates this will look quite handsome – but as always, that is just my opinion!

Windscreen Washer

First a description of what was:

My 1964 Jaguar Mk2 did not have the original Lucas Screenjet washer bottle and pump. I don’t know why it was missing. Perhaps a pump motor failure or a broken reservoir? Lucas actually put glass reservoirs under the bonnet. This is an image from Eric Kriss’s MK2 of the original equipment that should have been in my car:

Lucas Screenjet Washer

Note that on the original Lucas washers there were three electrical leads:

Lucas Washer Electrical Terminals

Restorer’s can purchase new replicas of the original that do look the part, but the new pumps have only two electrical terminals:

New Lucas Pump

While today’s replica is not perfect, it sure beats what I found in my car: nothing! This photo illustrates the proper location of the Lucas Screenjet. 

Lucas Screenjet Washer/Pump Location

Two captive nuts are provided in the LH engine bay valance for securing the washer bracket to the car.

Mounting Point for Lucas Screenjet Washer/Pump

Now a description of what is:

I cannot locate a washer reservoir in the original position because that space is now at least partially occupied by the air conditioner compressor. I also cannot relocate the washer to the space on the valance rearward of the fuse panel because I have mounted my power steering pump at that location. So I gave up on mounting the washer reservoir/pump in the engine bay. 

After considering several options, to keep things “Jaguar” I elected to use a later plastic reservoir and pump used on XKEs and perhaps some later MK2s – I am not sure. I sourced the pump and its mounting bracket from Welsh Enterprises.

Lucas Windscreen Washer Pump

Lucas Electric Screenjet

I decided to locate the pump and reservoir at the front of the LH wheel well on a chassis bracket. I mounted it to the same crossmember that is used to mount the reservac tank on the RH side of the car. Because the crossmember comes from the factory with two pre-drilled holes to mount the reservac tank for RH drive cars, I was once again able to mount a modification without having to drill new holes in the car!

I picked up a stainless “L” bracket from my local ACE Hardware store made from 1/4″ stock and mounted it to the Lucas supplied bracket using two 1/4″ – 28 x 5/8″ stainless hex bolts with flat and split washers and nuts.

Lucas Electric Screenjet Mounting Bracket

I then mounted the bracket assembly to the chassis using two stainless 1/4″ – 20 flat head screws with flat and split washers.

Lucas Electric Screenjet Mounted

The clear tubing goes through a rubber grommet in the valance and is routed through the firewall to a “T” fitting where it branches to the LH and RH spray nozzles for the windscreen. A ground wire connects the pump motor to a fastener on the diagonal chassis rail and can be seen in the image above. The + wiring (light green/black) for power is encased in a rubber sleeve and also goes through a rubber grommet and is routed through the firewall to the central gauge panel switch for the washer activation.