A mechanical controlled washing machine with a mechanical timer on the plug would, reliably, achieve the same thing. no need for networks and external servers.
A timed controlled smart plug, with current monitoring, would be able to achieve the IOT aspect of the problem.
It would need to be a very specific kind of washing machine (that hopefully probably exists) to make your idea work.
A fully analog/mechanical washing machine is just a big mechanical timer controlled relay behind the knob like a toaster oven. If you set it without power, it just runs through the timer without doing anything.
The machine would need to have a timer mechanism that is turned by an electric clock motor, not a mechanical spring with gears etc.
Or you could possibly set up an electric actuator that blocks the knob from turning. Then trigger both the power-on relay and the actuator retraction to do both at the same time.
>The machine would need to have a timer mechanism that is turned by an electric clock motor,
Pure mechanical timer based washing machines have been driven by electric clock motors (line powered) for at least 50 years (as that is as far back as I remember knowing how they worked). So if line power is out, the timer does not run.
Of course, the delay timer on the line would need enough power handling capacity to carry the load of the washing machine.
> A fully analog/mechanical washing machine is just a big mechanical timer controlled relay behind the knob like a toaster oven. If you set it without power, it just runs through the timer without doing anything.
My washer has dials to select the modes and then a final push button that activates an internal relay (guessing from the loud mechanical switching sound it makes when it goes on). If all you need to do is complete the circuit of the push button. You can just unmount that push button and hook its wires up to your timer mechanism which completes the circuit when the timer expires.
The dryer on the other hand does have a mechanical timer. But that doesn't activate until you turn the dryer on with the push button. So you could set the time of the dryer and not turn it on either, and use the same mechanism as above.
Toaster ovens use spring wound timers, as they are simple and easy to mass manufacture. Its a simple time off delay
Mechanical Washing machines don't use spring wound clocks, they run of the AC frequency of the mains. It generally drives a small solenoid that increments the clock.
The control drum is significant more complex than a toaster ovens timer
My current electronic washing machine saves its current cycle state when it looses power, and happily continues when power resumes 2 hours later (unlike my dishwasher, which does not). Although You'd have to start it before turning off the relay, so not as easy as the old mechanical dials
I highly doubt a mechanical timer would be more reliable than a micro and some buttons.
I can't think of a single mechanical device that is more reliable than an equivalent solid-state version of that same device.
Solid state relay vs electromechanical relay. Timex quartz watch vs. an automatic or manual watch.
Laundry rooms can be both hot and cold, are almost always humid, are often home to caustic chemicals, and a dryer's components are constantly exposed to dust in the form of lint: the perfect use case for solid state.
Spraying a pcb with a coating is much cheaper and more reliable than sealing a mechanical mechanism.
Instead of resisting, the smart move is to agitate for and promote secure, open, standards.
