Sunday, 26 February 2017

Discovery 2 ABS repair

I have been getting some intermittent faults with the ABS system. Three of the dash lights illuminate to indicate this. Known as the three amigos this is the ABS, traction control and hill decent warning lights all at the same time.


That light combination means there is an error but not what the fault is. I plugged in the Nanocom to find out.


An electrical fault with the ABS shuttle valve. It did not take long on the Internet to find out that this is a common problem. It can be rectified by replacing the ABS shuttle valve modulator switch assembly (SWO500030). That's a relatively low cost part. Luckily it is also a fairly easy part to replace.

It is even possible without draining the brake fluid, as seen in the linked video. As it didn't need messing with any critical systems it made it a job I was confident at doing.

There are several references on various forums about how the problem is likely to be the internal connector within the block and may re-occur. There is a suggested longer term repair for the ABS modulator switch by extending the wires outside the plastic bit of the switch case to bypass the internal connector.

To save myself a bit of time, I bought a kit where the wires had been extended for me and a connector added.





There is nothing really wrong with the idea of the kit I bought. It is a good choice of connector, an Econoseal, to match other Land Rover connectors and from the same range as the multi-pin connector on the Wabco ABS unit.

The kit is designed so that there is no need to cut any wires nor crimp any pins. Instead two existing leads need to be extracted from the multi-pin plug and re-used in a two pin Econoseal connector. The kit comes with a good set of instruction about how to do that. For those that are not confident with car electrics, this is a good kit.

The bit I am not keen on is that the end result would be that the ABS unit is attached directly in to the wiring loom. In my opinion this could be a nuisance for maintenance in the future should there be a more significant problem with the ABS valve block!

I made a slight variation and cropped off the supplied black wire and spliced it on to the black with grey stripe (pin 8) from the harness.



I taped it up securely as I also did with the now redundant loose end on the modulator switch lead.


The end result is that I only need the two pin connector on the modulator section and the whole ABS block can be more easily removed from the car without reversing the kit wiring installation.


That change meant I only had to remove one wire, the yellow with green stripe (pin 9), from the multi-pin connector.

With the electrics all prepped the next job is to get access to the bit that needs replacing under the ABS block.

The three allen bolts under the Wabco unit can be reached if it is lifted out of its mountings. First unclip the brake pipes from the edge of the bulkhead.



Taking off the upper clip from the three pipes routed together, makes it easier to maneuver the block to a workable position.


The block has two 10mm nuts at the back that need to come off however the one at the front only needs to be loosened because it is in a slot. Pulling it up at the front gives enough room to remove the metal cup from the rubber mounting then the whole unit can be pulled forwards to clear the rear bolts from their fixing holes.



You need a 4mm allen key to remove the three bolts to free the valve modulator switch unit. They are very stiff because they have thread lock on. My tiny ratchet made the job a lot quicker.


The old assembly pulls downwards to remove. The connector remained in the block and had to be grabbed separately to get that out.


The new one goes in easily and the supplied new allen bolts go back in. They have fresh thread lock on them.


The block can be bolted back on to the car. The brake pipes can be clipped back on to the bulkhead. The next job is to finish off the electrical connections.


One pin has to be backed out from the multi-pin connector. This is fairly easy with a small watchmakers size screwdriver. Once the yellow shield has been removed you can get the screwdriver in to hold the plastic latch out of the way. The wire pulls out the back.

One comment about the kit I bought. The person who crimped the pin on was not fully familiar with Econoseal connectors. To be fair, it took me a while to find the correct instructions.

Upper seal, wrong, lower seal (original) correct
The crimp for the insulation should go over the rubber seal so that when you push it in, to the plug housing, the seal is pushed in at the same time. It is awkward trying to use a screwdriver to shove it in afterwards when not attached to the cable.

In my opinion, they also used the wrong sized seal for the gauge of wire. I would have used a yellow or brown colour seal which has a larger diameter inner hole.



A little tip. The blanking seal that needs to go in the now vacated pin 9 position, will only go in one way round. As shown in the above photo. Hold the smaller end and push the larger in end.


Assemble the new 2 pin socket and connect it up.


Back inside the car to connect up the Nanocom again.


Clear the faults.


I took it for a short test drive and on return there were no faults.


Measuring sticks

I calculated some measurements for Shelley to plant a long run of hornbeams.


To make it even easier I made up some sticks of various lengths.



They are marked up with the number of plants and the distance they would span if spaced at the length of the stick.

Sunday, 19 February 2017

Side repeater LED holder

Not a very catchy title but difficult to know what else to describe this as.


One of the side indicator repeaters on Fender had a dodgy connection. Not the easiest thing to repair as it is permanently connected in to the car wiring loom.

There are repair kits available where you cut it out, add a connector on the loom and plug in a new harness. I thought I could make my own.

Although it would be a struggle to make a bulb holder I thought I could more easily make an LED lamp holder with the LED soldered on. Being LED they have a long life expectancy so they can be permanently attached. Very much like the LED lamps that are available for the other lights.



There are plenty of LED repeaters in the TD5 or newer style but I have designed my own to fit the 300TDi and older squarer style. These are 3D printed.



I designed the holder with supports built in to the model. That way I can make the supports easier to remove.


Instead of being connected permanently in to the main harness I have added Econoseal connectors, the same as used on the other indicator lights by Land Rover. To be consistent, I've deliberately wired them the same way round.


If all you want to do is fit an LED to the side repeater, the easiest thing to do is just plug in one of the 501 (W5W) LED replacements. You do have to be careful what size they are.

By trial and error I have found out that many of the W5W replacement LED bulbs are too long to fit the existing indicator repeater lenses. As I had several of these oversize LED lamps I've designed the holder to fit these. Any shorter LED W5Ws would obviously also fit.



Typically the LED's are held in to their plug by simply having the wires bent over. This is similar to the original design of the glass W5W lamps. By unbending the wires the LED section comes out easily and can be slipped in to my 3D printed holder.



The wires on the cable are pushed through the holder and soldered on to the legs of the LED close to the base of the LED.




The holes for the wires in the prototype would only just fit a 1mm2 cable. I've adjusted the 3D model to have larger holes. It will probably still be a tight fit.



The harness is about 350mm long with 20mm exposed at the lamp end and 30mm exposed for the Econoseal connectors.



No more than 10mm of un-insulated leg should remain exposed. The wires are pulled back down so the solder joint is protected and insulated by the plastic holder.

It's important to get the wires the right way round because LED's have a polarity.


The ones I had were marked + and - but they are easily tested with a small 9V battery.







I added the Econoseal connectors and the rubber O ring.


I could have reused the old O rings but I happened to have a box of assorted and one was a good fit.

Left poor fit - Right better crimp results

Worth noting that if you work with the small pins, on things like the Econoseal connectors, a better quality crimp tool makes the job a lot easier.



Once in place the leads are held in to the holder and made water tight by filling the base with mastic. I've used black RTV silicone sealant. It would work equally well with potting resin if you have any to hand.


On the car the old holder is cropped off and the corresponding connector added to those leads.

I found it easier to work through the side light hole as the repeater wires just reached.






Reassemble the car and test all the lights.




Immediately afterwards Shelley took the car for a test drive :-)

==

Cura 3D printer settings

Downloads:
Side Repeater Blend file
Side Repeater STL file
Licence attribution

My designs on YouMagine.com