Nilfisk GM80 industrial vacuum cleaner

This ‘vacuum beast’ from the 1960s gets serviced, ready for today

Sometimes big is best and when it comes to longevity, this machine is tough to beat.

I wasn’t born when this machine was made, but good quality designs and engineering foresight, means that new parts fit retrospectively.  Why aren’t all machines made this way?

Make and model: Nilfisk GM80 (large)

Fault reported: Poor running

Cost of replacement: £600-800 (approx.)

Manufacturer support:  8/10

Cost of parts: £14.94, inc. carriage

Hours spent on repair: 1.5 hours

Tools needed: Screwdrivers, test meter, soap and water etc

Sundry items: Silicone spray, WD-40, cleaning materials, wire wool

Repair difficulty: 3/10

Cups of coffee:  X1

Biscuits: X2 Chocolate Hobnobs (that don’t dunk that well in coffee, truth be told)

Recently, I got the opportunity to tackle an industrial vacuum cleaner in need of a proper service, which had been in continual use since the late 1960’s.  Judging by the condition it was in when I first received it in the workshop, I doubt that some parts of the machine had received any care since its first day at work.

The machine in question is a Nilfisk GM80 (large).  It’s a ‘large’ as it has a milk-churn sized base to it, which means it can swallow a lot of dust.  The large base has long been discontinued, but you can still buy the current smaller base, should yours be damaged.  Indeed, the Nilfisk GM80 range of vacuum cleaners are all quite modular and feature different levels of filtration, depending on the specific environment they are put to use in.  This means you can easily swap parts from donor machines to keep older machines going. The design means that parts seldom go obsolete, new parts just get improved and fit older models.  Great news for sustainability.

Back to the machine in question.  It had been covered for many years under a service contract, but for whatever reason, that company were no longer taking quite as much time as they should and applying as much care with each inspection.  This ‘serviced’ machine had recently had a new motor (hence later model motor housing) but the basics of vacuum principles had been overlooked.

I won’t go into the repair blow-by-blow, so here’s a summary of the work completed:

  • clean of all rubber seals and mating surfaces, essential to avoid air leaks
  • check and adjust all housing clips and adjust as necessary (all of them in this case)
  • wash motor diffuser (this had been changed within the last year)
  • wash main cotton filter (this had never been done, it was so clogged)
  • wash motor intake filter
  • check condition of motor brushes and bearing end-float (all fine)
  • check and tighten electrical IEC connection
  • inspect flex for damage (all OK)

This slideshow requires JavaScript.

The previous service agent had stated that the damaged hose (original 1960’s rubber item) was now unavailable and that a replacement was impossible.  Impossible eh?  That’s two letters too long.

Upon taking the old hose connectors apart (and removing layers of gaffer tape), I discovered that the internal diameter was similar to a Nilfisk-to-Numatic aftermarket adaptor and with a little adjustment, this 1960’s Nilfisk machine could be made compatible with Numatic’s vacuum cleaner hose design, which is much more abundant, here in the UK.  So, with a little jiggery pokery, this machine is ready to work for its living, once again, with a shiny new hose.

So yet again, when an ‘expert’ tells you that something cannot be repaired, don’t necessarily take their word for it.  A second opinion can sometimes save you time and money.

The repair didn’t break the bank either and I have since taken on more machine service work for this organisation.

Micro Mini Scooter tune up

A Micro Mini Scooter gets a little TLC

IMG_0983
FixItWorkshop, Worthing, March’20, Micro Mini Scooter.

I like Micro scooters and I would have loved one when I ‘were a boy’.  My daughters have them and they love zipping along the pavement on them to school.  The scooters handle well and are well screwed together.  They are also well supported from a spares point of view, so I like them even more.

Make and model: Micro Mini Scooter

Fault reported: Back wheel stuck

Cost of replacement: £55

Manufacturer support:  7/10

Cost of parts: £2.00

Hours spent on repair: 30 minutes

Tools needed: Cleaning tools/ cross-head screwdriver/ Allen keys

Sundry items: Silicone spray/ cleaning rags/ PTFE spray for steering

Repair difficulty: 2/10

Cups of tea: 1

Biscuits: 1 custard cream

The scooter in the picture belonged to my friend’s son who’d taken it through one too many puddles I think, as the rain water had taken its toll on some of the scooter’s moving parts.  Over time, the rear wheel’s bearing had suffered excess water ingress, had rusted and had seized.  I’m always amazed at how ‘stuck’ things can get with only a small amount of rust.

This slideshow requires JavaScript.

In their wisdom, Micro have decided to fit their products with generic bearings commonly fitted to skateboards, roller boots, bikes, cars, photocopiers etc, which means that replacement bearings are a doddle to obtain.  I bought some upgraded bearings with better water seals for under £10, so I know that the repair will last longer than the original equipment fitted from the factory.

The front wheels were seemingly fine, so I left them alone. ‘If it ain’t broke, don’t fix it’.

On this model, the rear wheel comes off with one Allen key bolt holding a retaining a stub axel, which slides out with a little persuasion.  The bearings just pop out of the wheel using a small screwdriver as a lever and before fitting new equipment, I always clean the area first to ensure that no dirt is trapped, which could cause premature bearing failure in future.

With the new bearings in, stub axel refitted, a quick wipe down with a strong cleaning wipe, a little PTFE lube applied to the scooter’s steering mechanism and it was ready to see another day.

Bonza.