08 Mar 2014, 21:41
Like most of you, each year I have to adjust my Delorean Handbrake just before the MOT, so that it just scrapes through and for a few weeks afterwards its ok but progressively looses efficiency over the year.
This year with MOT looming I decided to overhaul the handbrake once and for all and came across a worrying engineering issue that may just be why our Delorean handbrakes are so in effective.
Firstly I removed the hand brake and stripped the complete assembly down, opening the casing to reveal the self adjuster. This was thoroughly taken apart cleaned and greased and re assembled. The handbrake cables were disconnected from the brackets and oiled to ensure they weren’t snagging in the sheath’s and replaced.
The return forks (that spring apart to keep the pads clear of the disc when not in use) were checked to ensure they were still strong enough to hold the pads out of contact to stop them dragging on the disc and refitted.
New handbrake pads were purchased and installed. (The old ones hardly looked worn, but I thought as good measure I’d replace them once and for all to get a better handbrake.
Everything was refitted to the car and with the cables still disconnected, the slot head adjusting screw was tightened until the pads dragged and backed off so that the slot in the head of the adjuster was vertical to take the split pin.
The recommendation is 5 thousands of an inch clearance between pad and disc. Not always easy to achieve with the need to get the screw slot vertical for the split pin, but better the pads to be just clear than binding. Split pin back in, the cables were then attached. Adustment MUST be done this way around so that when cables are adjusted they only take up cable slack and not pull on the lever. If this is done the opposite way around the handbrake arm can pull hard up to the top suspension arm and foul it before pulling the pads on.
It is also critical to take the slack up on the cables equally on each side until they just pull the pads and drag on the disc; then back them off ½ turn on the cable adjusting nuts so the disc spins free. The reason that they must be adjusted equally each side is that under the handbrake lever is a vertical bracket with a pivot in the centre. One cable fits the top, the other in the bottom. The lever pulls from the middle so the bracket needs to be vertical as it pulls otherwise it will cant over and one cable can come disconnected. Also if adjusted with the plate vertical it pulls equally on each handbrake rather than on one and when that’s tight starts pulling the other. This is what causes handbrake imbalance (along with miss adjustment of the slot screw adjuster on the calliper arms)
Ok, all still following me?…..
Now this is where it gets interesting.
Having rebuilt and adjusted the handbrake by the book, I drove to the MOT and it FAILED spectacularly!
The efficiency was so poor it hardly registered?
The handbrake was lever was rock solid after 3 – 4 clicks, but the floor rollers at the MOT station simply overwhelmed the handbrake.
How could a total overhaul make it worse than it has ever been?
Maybe the pads needed bedding in a little?
I spoke to the MOT tester and decided to go for a drive around the village (slowly) with the handbrake on 1 click and light on, on the dash and back to the test station.
In the rollers again and guess what, NO better!
I reluctantly took the car home and not one to be beaten, decided once and for all to find out what the inherent problem is with a Delorean handbrake.
I checked the mechanism, cable and lever, all were fine. Not one to be defeated by an engineering issue I took the handbrake apart again.
Then EUREKA I found the problem that I suspect is affecting most of us.
On inspecting my BRAND NEW handbrake pads I was astounded to see one corner crushed and crumbling.
![[Image: DeloreanHandbrake010_zps116fa44f.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrake010_zps116fa44f.jpg)
This had been caused by very high pressure focused on a very tiny area. What was going on?
I took my old pads, out of the bin in my garage (the ones that didn’t look too bad) and cleaned them with some acetone on a rag to reveal a similar fault.
![[Image: DeloreanHandbrake005_zpsebb6d55f.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrake005_zpsebb6d55f.jpg)
The pads weren’t mating to the disc properly.
These old pads were in the car when I shipped it back from California back in 2006, so have never bedded in, despite 8 years of use and 8 yearly adjustments!
But why not?
What’s going on here?
Now in my time restoring pre-war cars, when ever you replaced the brake linings (you had to rivet them on, they never came in a box ready to fit in the old days) they needed cutting before use. This ensured that they were a perfect match for the inside of your drum. Here’s a rotating tool that clamped on the hub with a cutter that you spun by hand and wound in a few thou at a time to cut the lining.
![[Image: servicing-pic2lge_zps6b0dd8bc.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/servicing-pic2lge_zps6b0dd8bc.jpg)
So I took a look at the Delorean Handbrake calliper and made several observations:
The handbrake works in a PINCER operation, with both arms that hold the pads hinging on two pivot pins/bolts. These are at a FIXED distance “A”
By pulling on the handbrake lever the arms close until the pads make contact with the disc at dimension “B”
![[Image: DeloreanHandbrakeangle_zpsae1c3fcb.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrakeangle_zpsae1c3fcb.jpg)
This is TAPERED and NOT PARALLEL.
New pads are square and parallel, the result of fitting new pads is that ONLY the corners of the pad make contact with the disc.
This is WHY NEW PADS have a POOR EFFICIENCY.
To make matters worse the CORRECT adjustment of the handbrake means that the pads DO NOT drag or meet contact until the handbrake is applied when the car is stationary so would if used correctly NEVER bed in properly!
With such a poor surface area contact its no wonder there is little friction and efficiency.
So to make a Delorean handbrake work properly you cannot drive around with your handbrake on the match the pad angle to the disc (wear them in) without cooking the pads or blueing and warping the discs, not to mention melting the grease out of your wheel bearings.
The only solution is to “fit” the pad in the old fashioned “fitter” type way with a file, & marking blue.
Its amazing how much of an angle is required to get a proper fit and full pad surface contact.
![[Image: DeloreanHandbrake003_zps457a5856.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrake003_zps457a5856.jpg)
![[Image: DeloreanHandbrake004_zps29dbe3fe.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrake004_zps29dbe3fe.jpg)
Now since this is NOT something I would recommend the average DIY Delorean owner should do. It’s not easy.
It really is up to our Delorean PARTS SUPPLIERS to re-manufacture pads to the correct angle.
Until then, I have thought how it could be done easier, so here’s a simple solution.
For new or existing pads.
1. Take out the split pin and wind out the slot head adjuster screw about 6 turns (Don’t take it all the way out, you’ll need to dismantle the whole box section lever and self adjuster to get it back in as the internal spring ratchet and pawl will miss-align the threaded hole)
2. Take off the M6 Nylock holding the Handbrake cable into the arm.
3. Remove the lock tabs and take out the two pivot/pin bolts
4. Remove the return fork and put back the pins.
5. The arms holding the pads should now be free to move in and out.
6. Obtain some 40 or 60 grit adhesive sanding discs and cut them to stick on your brake disc.
7. Gently squeezing the arms to contact the pads with the disc, rotate the disc to and fro to sand down the pads to the correct angle.
8. DO NOT sand down further than 75% of the pad face. This means the pad will taper, and at the thickest part of the pad it should still be the same thickness as new/or before in the case of a used pad. In this way you’ll get more life out of the pad.
9. Once done, remove adhesive sanding discs and clean off any glue residue completely.
10. Replace the return forks and new lock tabs.
11. Adjust the slot head screw adjuster until the pads bite the disc and back off ½ turn to get the split pin in.
12. Adjust cable as stated at start of this thread.
Over the life of the pad the pincer movement of the arms should wear the pad evenly increasing the angle until fully worn out. (Providing you’re self adjuster is working)
So did it work?
Well I took the car back to the MOT station today and the efficiency was TWICE what it had EVER been since owning the car!
I can’t believe no one else has ever spotted this fatal engineering flaw?
![[Image: DeloreanHandbrake006_zpse25e6351.jpg]](http://i265.photobucket.com/albums/ii221/DarrenLCollins/DeloreanHandbrake006_zpse25e6351.jpg)
This year with MOT looming I decided to overhaul the handbrake once and for all and came across a worrying engineering issue that may just be why our Delorean handbrakes are so in effective.
Firstly I removed the hand brake and stripped the complete assembly down, opening the casing to reveal the self adjuster. This was thoroughly taken apart cleaned and greased and re assembled. The handbrake cables were disconnected from the brackets and oiled to ensure they weren’t snagging in the sheath’s and replaced.
The return forks (that spring apart to keep the pads clear of the disc when not in use) were checked to ensure they were still strong enough to hold the pads out of contact to stop them dragging on the disc and refitted.
New handbrake pads were purchased and installed. (The old ones hardly looked worn, but I thought as good measure I’d replace them once and for all to get a better handbrake.
Everything was refitted to the car and with the cables still disconnected, the slot head adjusting screw was tightened until the pads dragged and backed off so that the slot in the head of the adjuster was vertical to take the split pin.
The recommendation is 5 thousands of an inch clearance between pad and disc. Not always easy to achieve with the need to get the screw slot vertical for the split pin, but better the pads to be just clear than binding. Split pin back in, the cables were then attached. Adustment MUST be done this way around so that when cables are adjusted they only take up cable slack and not pull on the lever. If this is done the opposite way around the handbrake arm can pull hard up to the top suspension arm and foul it before pulling the pads on.
It is also critical to take the slack up on the cables equally on each side until they just pull the pads and drag on the disc; then back them off ½ turn on the cable adjusting nuts so the disc spins free. The reason that they must be adjusted equally each side is that under the handbrake lever is a vertical bracket with a pivot in the centre. One cable fits the top, the other in the bottom. The lever pulls from the middle so the bracket needs to be vertical as it pulls otherwise it will cant over and one cable can come disconnected. Also if adjusted with the plate vertical it pulls equally on each handbrake rather than on one and when that’s tight starts pulling the other. This is what causes handbrake imbalance (along with miss adjustment of the slot screw adjuster on the calliper arms)
Ok, all still following me?…..
Now this is where it gets interesting.
Having rebuilt and adjusted the handbrake by the book, I drove to the MOT and it FAILED spectacularly!
The efficiency was so poor it hardly registered?
The handbrake was lever was rock solid after 3 – 4 clicks, but the floor rollers at the MOT station simply overwhelmed the handbrake.
How could a total overhaul make it worse than it has ever been?
Maybe the pads needed bedding in a little?
I spoke to the MOT tester and decided to go for a drive around the village (slowly) with the handbrake on 1 click and light on, on the dash and back to the test station.
In the rollers again and guess what, NO better!
I reluctantly took the car home and not one to be beaten, decided once and for all to find out what the inherent problem is with a Delorean handbrake.
I checked the mechanism, cable and lever, all were fine. Not one to be defeated by an engineering issue I took the handbrake apart again.
Then EUREKA I found the problem that I suspect is affecting most of us.
On inspecting my BRAND NEW handbrake pads I was astounded to see one corner crushed and crumbling.
![[Image: DeloreanHandbrake010_zps116fa44f.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrake010_zps116fa44f.jpg.html)
This had been caused by very high pressure focused on a very tiny area. What was going on?
I took my old pads, out of the bin in my garage (the ones that didn’t look too bad) and cleaned them with some acetone on a rag to reveal a similar fault.
![[Image: DeloreanHandbrake005_zpsebb6d55f.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrake005_zpsebb6d55f.jpg.html)
The pads weren’t mating to the disc properly.
These old pads were in the car when I shipped it back from California back in 2006, so have never bedded in, despite 8 years of use and 8 yearly adjustments!
But why not?
What’s going on here?
Now in my time restoring pre-war cars, when ever you replaced the brake linings (you had to rivet them on, they never came in a box ready to fit in the old days) they needed cutting before use. This ensured that they were a perfect match for the inside of your drum. Here’s a rotating tool that clamped on the hub with a cutter that you spun by hand and wound in a few thou at a time to cut the lining.
![[Image: servicing-pic2lge_zps6b0dd8bc.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/servicing-pic2lge_zps6b0dd8bc.jpg.html)
So I took a look at the Delorean Handbrake calliper and made several observations:
The handbrake works in a PINCER operation, with both arms that hold the pads hinging on two pivot pins/bolts. These are at a FIXED distance “A”
By pulling on the handbrake lever the arms close until the pads make contact with the disc at dimension “B”
![[Image: DeloreanHandbrakeangle_zpsae1c3fcb.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrakeangle_zpsae1c3fcb.jpg.html)
This is TAPERED and NOT PARALLEL.
New pads are square and parallel, the result of fitting new pads is that ONLY the corners of the pad make contact with the disc.
This is WHY NEW PADS have a POOR EFFICIENCY.
To make matters worse the CORRECT adjustment of the handbrake means that the pads DO NOT drag or meet contact until the handbrake is applied when the car is stationary so would if used correctly NEVER bed in properly!
With such a poor surface area contact its no wonder there is little friction and efficiency.
So to make a Delorean handbrake work properly you cannot drive around with your handbrake on the match the pad angle to the disc (wear them in) without cooking the pads or blueing and warping the discs, not to mention melting the grease out of your wheel bearings.
The only solution is to “fit” the pad in the old fashioned “fitter” type way with a file, & marking blue.
Its amazing how much of an angle is required to get a proper fit and full pad surface contact.
![[Image: DeloreanHandbrake003_zps457a5856.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrake003_zps457a5856.jpg.html)
![[Image: DeloreanHandbrake004_zps29dbe3fe.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrake004_zps29dbe3fe.jpg.html)
Now since this is NOT something I would recommend the average DIY Delorean owner should do. It’s not easy.
It really is up to our Delorean PARTS SUPPLIERS to re-manufacture pads to the correct angle.
Until then, I have thought how it could be done easier, so here’s a simple solution.
For new or existing pads.
1. Take out the split pin and wind out the slot head adjuster screw about 6 turns (Don’t take it all the way out, you’ll need to dismantle the whole box section lever and self adjuster to get it back in as the internal spring ratchet and pawl will miss-align the threaded hole)
2. Take off the M6 Nylock holding the Handbrake cable into the arm.
3. Remove the lock tabs and take out the two pivot/pin bolts
4. Remove the return fork and put back the pins.
5. The arms holding the pads should now be free to move in and out.
6. Obtain some 40 or 60 grit adhesive sanding discs and cut them to stick on your brake disc.
7. Gently squeezing the arms to contact the pads with the disc, rotate the disc to and fro to sand down the pads to the correct angle.
8. DO NOT sand down further than 75% of the pad face. This means the pad will taper, and at the thickest part of the pad it should still be the same thickness as new/or before in the case of a used pad. In this way you’ll get more life out of the pad.
9. Once done, remove adhesive sanding discs and clean off any glue residue completely.
10. Replace the return forks and new lock tabs.
11. Adjust the slot head screw adjuster until the pads bite the disc and back off ½ turn to get the split pin in.
12. Adjust cable as stated at start of this thread.
Over the life of the pad the pincer movement of the arms should wear the pad evenly increasing the angle until fully worn out. (Providing you’re self adjuster is working)
So did it work?
Well I took the car back to the MOT station today and the efficiency was TWICE what it had EVER been since owning the car!
I can’t believe no one else has ever spotted this fatal engineering flaw?
![[Image: DeloreanHandbrake006_zpse25e6351.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrake006_zpse25e6351.jpg.html)
VIN 4532
DOC-574
DOC-574
![[Image: F28668236_zps348c2e7f.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/F28668236_zps348c2e7f.jpg.html)
![[Image: DeloreanHandbrakepadthickness_zpsaa17c761.jpg]](http://s265.photobucket.com/user/DarrenLCollins/media/DeloreanHandbrakepadthickness_zpsaa17c761.jpg.html)
