Alberta startup sells no-tech tractors for half price

There is a tradition in several European countries named Affouage: If you live in a rural area, you can get very cheap (or even free) wood at the condition that you go to cut it yourself in the close-by forest.

Many many people who are doing this practice are still using today Massy Fergusson 135, Renault R98/461, Ford 3000-4000 series, SOMECA or similar low tech tractors.

The reason are simple: They are cheap to operate, cheap to repair (damages happen easily forest environment) and their small size is perfect for the task.

The demand for these things will never die. Rugged environment requires cheap and robust hardware.

If this startup can capitalize on that, they do have a market.

When I started out, 13ish or so, I had to stand on the clutch to get it down.

If you gave it enough beans and dropped the clutch it'll pop a wheelie! (Don't tell my grandpa)

It came in handy living in the country, when occasionally someone would get bogged down on a dirt road, and this thing would come to the rescue.

I’m in the market for a tractor in roughly that size, and am very tempted to just find an old machine in decent shape. I’d be very curious about the decision/experience if you did upgrade to something more modern?

I also love driving it, apart from the fact the hydraulics are somewhat off, so the front/rear lift won't ever stay in position.

The reason I know that is not that I'm a farmer. It's that 20 years ago a bunch of friends and I wrote and performed a parody song of Gainsbourg/Bardot song "Harley Davidson" where the motorbike brand was replaced with the tractor one.

"Je n'ai besoin de personne en Harley Davidson"

became

"Je n'ai besoin de personne en Massey Ferguson".

Once, it broke down, and I was astonished to see that there are forums dedicated to this tractor. If I remember correctly, it was a problem with the fuel line that is rather common, and we managed to fix it thanks to these communities.

As I was researching it, I read stories of MF135s found abandoned in a ditch and starting immediately again. A robustness that makes this and other models popular in Africa...

And it still works.

Things were made different back then.

I looked up the manual, you got everything you need to repair it. Maintenance is extremely easy. Even have electric schema.

Now my BMW, I looked into the manual how to change a light. It said to go to the dealer lol.

Fuck the modern car / tractor / tools. I blame the people for that, we went from customer that demanded to be able to repair their stuff to people who are now mechanically illiterate. I'm not sure they would even know how to replace a tire on their Tesla :)

That's why manufacturer have all the latitude to do what they do. And that's why it didn't go very far with farmers.

During certain kinds of driving gear shifts became.. tricky. That's when I learned how to double-clutch, something I kept doing on cars as well, for many years after (think going steep uphill on snow and then having to shift into first gear without stopping)

What is a shisha-pipe?

Great memories.

There are so many useful videos on this stuff, but unfortunately the majority of the population still seems reluctant to learn.

An awesome memory. Lovely things, these.

Now things have wrapped back around, and nobody would want that, they want less tech and to use their phone, lol.

Do you still have the Massy?

[] https://youtu.be/TunlPGZ3UOg?t=69

https://masseyfergusonindia.com/massey-ferguson/

It's amazing we can use huge machinery with internal combustion engines and declare it "no fancy technology"

These low-tech tractors could become a hot bed for open source experimentation. Nothing stopping someone from sticking a tablet on the dash. You could run GPS harvesting optimization software or some webthing locally. Could be cloud or clever DiY farmers could run their farm off a local instance on a small machine using a WiFi AP atop the barn or whatever.

But tech in general is perhaps in a growing-up phase, we had Arduinos and Raspberry PI's filling a similar need (computer to electronics being needlessly complicated) that was initially filled from the low-end, but now we have faster SBC's and stuff like Framework laptop's that is expanding the range of options for repariable/replaceable/hackable parts up to the high end today and farming equipment is probably destined to get a similar range of options.

An interesting note here is, will cars also start getting a range of more hackable options, mechanics are ingenious already but it's still very much hacks without manufacturer support, but a new manufacturer providing a low-cost base could very well pop up and grow quickly if they establish an ecosystem.

This needs to be solved at government level with right to repair laws and requirement for open standards instead of believing in magic of "free market".

---------------

Tractors aren't cars. It isn't merely inconvenient if they are unavailable at crucial times, so ease of repair is critical. Farmers have always done as much of their own maintenance as possible. John Deere has spent a lot of time taking away the reliability and ease of repair that farmers need in order to give them "advanced" features they don't need.

Farmers who want advanced capabilities might now look to build them on top of no-tech tractors with open-source solutions rather than trusting John Deere again. That way, if the "would be nice" tech has problems they can rip it off and get the harvest in without it.

Not sure how much appetite there is for that but half price + 5 grand in off the shelf electronics seems like something margin sensitive farmers would do.

This tractor will last 50 years (and maybe more). Your grandchildren will be able to still use it. That longevity is the primary reason farmers would be super interested in this.

Some jobs (like mucking a barn for example) don't require a high-tech tractor. Sometimes you just need a workhorse that you can trust will start, run and do the job. Every single time. I still see farmers running old minneapolis-moline tractors from 100 years ago!

So a prerequisite might involve fixing the patent system...

It's so bad the FTC and states had to sue Deere over just the right to repair. https://www.ftc.gov/news-events/news/press-releases/2025/01/...

But technology is expensive. That's the play here: To strip the tech so that the tractor can be sold for a fraction of the cost. And for the farmers who don't need tech, that might be appealing. They will never win over the farmers who are already buying equipment with all the bells and whistles, but there could be an opportunity to capture those who are still in something 50 years old and are looking to update to an affordable newer machine that isn't worn out.

Repairability will be the biggest concern for any potential customer. It helps that they've tried to stay as "off-the-shelf" as possible, but the article suggests they struggle to keep parts already and there is no dealer network to see that the parts are sitting where the farmers are located. John Deere is the market leader mostly because they've worked hard to make sure you can get parts as soon as you need them and not have to wait days/weeks to have it shipped from across the country/world, if they exist at all. The Belarus tractor saga taught farmers the hard lesson of what happens when the machine is cheap to buy but parts are difficult to source long ago.

https://youtu.be/EPYy_g8NzmI

The marketing excuse for the tech might be features or efficiency, but the reason for the tech is lock-in and minimising product lifetime.

The days when manufacturers had friendly, cooperative relationships with their customers are long gone :( Can we bring them back? I hope so, but am not hopeful.

The problem is computers and software enable lock-in, because of their flexibility and communications capability. Get rid of them, and you make lock-in much more difficult (or even impossible if you use "standard" parts).

Also, computers and software are complex, and that complexity is not physically visible. If you want something you can completely understand, it's probably a good choice to simplify by cutting them out completely.

People are just tired of being mislead and abused by corporations, which is why there is now a market for non-tech products.

Not sure they needed to go all the way to mechanical injection tho, this is just literally burning money away

Sailboats have the similar issue:

When are are in the middle of the pacific and get an egine problem, you want the engine to be low tech enough to be able to fix, or at least patch, yourself with minimum parts.

Yanmar switched its whole lineup of engines to ECU around 2014, but the one without ECU are very much sought after for the above reason.

1. This fails, goes away and we're back where we started; or

2. They take the bag and sell to John Deere, who then locks down the tractors in the same way to force you to buy support, official parts and so on. And that'll happen. It's a bait-and-switch so somebody can get rich.

The only solution to this is collective ownership or some other non-profit structure so a handful of owners can't sell out and cash in.

Look to Spain's Mondragon Corporation [1] for inspiration.

[1]: https://www.newyorker.com/business/currency/how-mondragon-be...

Tech for improvement for customers vs tech for moats/enshittification, especially when imposed by one side on the other.

The latter is never very good.

Personally I have a 2019 Mazda 3 which has camera vision all around, radar cruise control and heated seats but no lane assist bumping you around or a cellular connection relaying any information.

The only anti feature it has is that stupid idle stop, but that’s easy to permanently disable. It also has car play but doesn’t have a touch screen.

Anyway I’m not saying you should get this car specially but there are cars out there that are like what you want.

I recently did a lawn tractor conversion from gas to electric and what I got was in my opinion significantly better and more reliable than a commercial option at 20% of the price but it is limited to 4mph. Scaling it to 5 would require a lot of custom fabrication and a much more expensive drive motor. Once this tech is significantly better and cheaper to the point of being a commodity it will be a different story. For now it just isn’t.

Cheap, fast enough, practical, goofey looking.

And with all the distracted drivers looking into their phones while driving, I want more and more cars to get at least emergency breaking systems.

So consumers DO want all-touchscreen disposable cars like Tesla - it's similar to how disposable phones had replaced phones with removable batteries(even among IP rated phones). Wallets vote strongly against consumers.

No issues so far.

These days, the big foreign manufacturers are all in the same game as the domestic ones - software nonsense. Tariffs are keeping other foreign competition out at the moment, so it'd have to be a new domestic manufacturer, or an existing one who deviates from the standard auto playbook.

Heated seats and stearing wheel, yes please.

But yep what I want is a Saab 900 "cockpit" car -- everything can be focused on and manipulated (physically!) without my eyes leaving the road or my hand having to explore too much.

But, yeah, electric.

The bulb stuff was a cartel not normal functional markets.

And just because a tractor is low tech and designed to run forever doesn’t mean it won’t still need parts and service. Time comes for us all and that includes your wheel bearings, bushings and seals.

This is the whole reason why middle class is dying and power and wealth are being consolidated amongst the rich.

The thing is, your reputation will get out there. Folks will want to work with you because of who you are; it'll be profitable (in many ways) even if it isn't a 100-year dynasty.

as far as auto mation goes, thats how implements used to work. it was a tracter/thresher/combine. then a bale counter is slapped on then maybe row sighting or guidance, etc.

if your really snazzy, the implement is actually mapping the soil for moisture, or rough composistion and holding data to use in reformulating or notating your current cultural plans, i.e. supplemental spot feeding and irrigation.

actual agricultural needs, not just fluff.

You can do a lot of things if you don't care about the spirit of the law and your negative externalities.

Large car manufactures will lobby to avoid competition of barebones, cheap cars.

A friends dad sold his existing business and has been making $$$ in semi-rural texas importing and selling Chinese skid loaders. This market already exists.

If it was legal to build these at industrial scale, we'd already have it in the US because there's blatant market demand for it. This is functionally no different from the shops putting 30 year old diesel engines in modern pickup trucks for the same reasons.

The emissions are so unreliable that the only legal market for vehicles without them in the US is... the federal government.

Modern diesel systems equipped with DPF tech (which consumes DEF, the fluid) require a regen cycle which is kinda like an oven cleaning itself - they get super hot and burn away particulate before they can be used again. Farmers are more frustrated by the system than the fluid. In fact, DEF is really just piss (urea) which is the same kind of product that they use for fertilizer. Although the prices for urea have skyrocketed recently so perhaps they truly do hate DEF too.

The awesome thing about these 'older' Cummins engines is yes they lack DEF systems and also have mechanical fuel injection. As is commonplace with diesel, there are no spark/glow plugs either. So ostensibly once you have the engine started, it requires zero electricity or computer systems to operate. The RPM of the engine dictates everything else mechanically through gearing. This is a big win for equipment that needs to "just work". Of course they still have sensors and all kinds of systems that are kinda layered on top... but they're not strictly required. This is also why the "runaway diesel" problem exists. You cannot stop an engine like this without starving it of air or fuel.

https://www.swarmfarm.com/technology/

- West Australian grain farmer (4,500 hectares, barley, grains) reviews a fully automated driverless swarm bot in boom spray configuration:

https://www.youtube.com/watch?v=ljEKN7CsjnM

That’s the kind of MBA speak a giant corporate food production facility loves to hear, but not a farmer.

My understanding of the aviation market is that there are some bargains to be had with planes that are old but still very servicable. But if you are flying longer distances regularly, you kind of gravitate towards the more expensive ones. Because they go faster, use less fuel, are more comfortable, have more useful load, etc.

The point of a tractor is that is used to do useful work by farmers who earn their living working these things hard. If they break down, work stops until that can be fixed. The value of being able to fix these machines yourself is that you get them back in action quickly. But the value of a newer one is that it presumably wouldn't need a lot of fixing to begin with. And maximizing power while minimizing fuel usage means the job gets done quicker and at a lower cost. And that's what modern manufacturers sell of course.

IMHO, electric is going to revolutionize farming. Diesel is expensive (a lot more lately). And farmers burn a lot of it. Electric motors are small, reliable, quiet, etc. They have loads of torque. And if you are a farmer, you have plenty of space to harvest your own electricity with solar panels and maybe a wind mill and some batteries. There is a growing amount of high end stuff available in this space but also very affordable low end stuff. And this technology can be very simple and tinker friendly. Buy some old EV batteries wire them up and you can make anything with wheels move. Including really old tractors, pickup trucks, etc. Anything from the largest mining trucks to the smallest lawn mower can already be powered by batteries. And everything in between. With battery cost dropping, there are very few obstacles that prevent adoption left. Mostly import tariffs in the US.

They can't scale this model up because they legally have to use rebuilt engines from the 90s to do it to get around modern diesel emissions regulations. It's illegal to build this kind of engine in the US new, there's no way to compete with Deere's scale.

For electrification to really proceed in ag, we need a revolution in the paradigm, something that removes most of the energy heavy processes.

I could imagine tethered tractors with power line tensioned in the air, but the grid building cost will be quite high for intermittent usage. Only some land usages and plot shapes would work economically.

Airplane engines are rebuilt every 5,000ish miles because they’re constantly running at like 50% load, it’s much harder on the engine than moving a car, a tractor is very similar.

Car engines do very little work once you’re up to speed, it only takes a fraction of the max power available to keep the car moving. This is why EVs are possible.

Running a tractor engine under load requires a lot of energy, battery density isn’t quite there yet, diesel has around 50x more energy by weight than a battery.

I think Monarch tractor just folded up and sold their assets, for example. They were a nice looking product but did what I described above.

Innovation here will happen in Europe and China, not here in North America. "Tractor" here in North America means big giant machine that is owned in a fleet by a giant corporation that manages multiple properties, and works over a dozen fields in a few days.

Every time I've looked into it for my hobby farm, a compact utility tractor that is electric ends up either being vapourware or twice to three times the price and missing features.

Edit 2 to add: I think it's important to be specific about what the computing is for. If you just need to solve a small number of equations, then yes, you can do that with a slide rule. But in the written communication case above, the computing is only useful when done with at least the speed of an early microcomputer and paired with digital storage and/or networking and a variety of I/O devices. Still, we don't strictly need our modern supercomputers for that use case, except that it's now considered weird and limiting to use anything less. Also, I bring up the written communication use case because there is a rising backlash against allowing personal computers at all in certain contexts, such as education, because of AI-based cheating. I don't want disabled people like me to lose what we've gained from personal computing in the specific use case I described above. Maybe the solution is to normalize using less than a maximally powerful, Internet-connected personal computer in such contexts.

We'll see what, if anything, actually becomes available.

Now, hang a high voltage wire down from a big-ass catenary, so you don't need batteries, and it'll be cheaper upfront and in use, but nobody does that because of 1. safety 2. if everybody did it the grid would need upgrades

If a family car energy usage is 1x, then a light duty truck is about 1.5x, and a heavy duty truck doing hauling or towing is about 4x. A medium sized farm tractor would probably be 20x or more.

In that light, it's not hard to see how cars and light trucks could fare well with today's battery energy density, while heavy duty trucks are at the limits. For a tractor, it's not even close.

I do think we'll see smaller tractors going electric in about 10-15 years.

They're using remanufactured 90s cummins for this reason. They're pre-DEF. Modern regulations have killed the diesel engine as a reliable workhorse. It's easy to write off the woes of this segment as corporate greed, but we've made it illegal to build a simple reliable tractor like this.

> The Kubota M5-111 is a 105.6 HP utility tractor that uses Diesel Exhaust Fluid (DEF) to meet Tier 4 emission standards, with common issues including Code 202A, DEF sensor failures, and clogged injectors. The system includes a dedicated tank and filter (Part #1J508-19660). Owners often report issues with the DEF system causing power derates, leading some to consider deletion or repair, though these issues can cause significant downtime

Also, the ursa tractors have warranties too…

The new models have engines that are smaller turbos, that part is true — but they get >30% better fuel economy, and they output more power.

The reliability might become an issue down the road especially in hybrid engines but the data so far don’t seem to support your assertions. The one exception is maybe the Tundra 3.4L but that seems to still be ambiguous as to the root cause, and may just be mfg process error.

This doesn't really mean anything. You can build an engine at any point of the spectrum from naturally aspirated to turbocharged, to turbo-compound, to actually not having any pistons at all (e.g. the "turbofans" that we put on airliners). What you want is to match the engine to the machine and build it out of the right materials.

Most people don't know shit about engineering and have weak intuition about materials, stress and physics in general. What the common person thinks about a random engineering topic literally does not matter, because they are 90% wrong about everything. Regarding cars, it's more like 99%. People still recite torque figures like they mean anything, ffs. That bad boy with 200 Nm at the crank? Cool, I make 150 Nm pedalling a bike.

My previous car before an EV had a 1-litre 3-cylinder engine, a 1.0 TSI. Pure gas, not a hybrid. That's an engine that's rated for 81kW (it actually delivers a bit more than that) and that can do 60 mpg on country roads (regularly). When it came out in 2015, "car enthusiasts" were laughing hysterically at the idiots who'd buy the car and have to replace the engine every 2-3 years. 11 years later, the cars are driving around just fine. The 1.0 TSI, just like the entire EA211 family, is a good engine with no major reliability issues.

> they overstrain them

Debatable. Materials science and engine construction science have advanced significantly since the V6 and V8s of the 1980s and 1990s Toyotas. Almost every auto manufacturer on earth is capable of getting >100hp/L out of a gas engine reliably. Toyota is certainly not the only OEM doing this reliably at scale. This stuff is no longer exotic. Gas engines today are designed from the ground up to be turbocharged and direct injected (and in Toyota's case, both direct and port injected), and built with the cooling systems to match.

> The outcome is a strictly worse engine

No one makes or has made a perfect engine but there's a lot of romanticizing engines from the past. These newer engines make more peak torque, their torque curves start much lower in the RPM band and remain more useful through whole rev range, they burn significantly less fuel when not under load, and the hybrid electric drivetrain mean the gas engine spends less of its life idling or lugging at low speeds and high loads. Whether some of these tradeoffs are worth it is debatable, but in no way are these engines "strictly worse".

I wonder about a hybrid version of this though, maybe Edison motors should collab

Also the easiest way to achieve high WAF. I added an internet-connected (but self-hosted) garage door controller. My wife instantly got defensive about things when I said I was going to do this until I said that nothing at all that works now would change. It would add a new feature, not subtract anything. The old remotes work. The wall buttons work. It's just that you can do it from your phone, too. Been very handy, actually.

The problem for farmers isn't actually just the idea of one company that's decided to make $$$$ on servicing even for unlocking a repair that's even been carried out for by a third party - it's just many newer tractors have not been suitably robust or farmers are finding the specialised parts come at premium prices or those in countries that are a bit remote to tractor production, international delivery times are not exactly thrilling. It's not just electrics, but electronics is the more notable short coming.

The biggest issue in an agricultural setting is robustness - wiring is one element that is prone to being pulled out transiting a rough paddock or pasture or chewed via mice and rats. After wiring is the quality of switches available for hostile environments - in my locale tractor owners had come to accept every so often they'd be replacing a switch every so often.

[1] https://news.ycombinator.com/item?id=47842770

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https://www.thedrive.com/news/new-tractor-with-12-valve-cumm...

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