Convection. Masses of air at a cooler temperature can enter to replace the warmer air leaving.

Heat is usually considered when the material it is traveling along isn't itself moving.

...the cold air is coming in to take the place of the warm air going out.
This is all about air currents...not about heat energy being transferred by conduction, covered by the laws you mention.

Your body transmits heat when you open the door to the cold outside.
This lowers you body temperature and thermoreceptors transmits this fall in body temperature to the brain and you feel colder.

The other point I'd like to add is that the Second Law of Thermodynamics (SLT) doesn't quite say that. Depending on the precise formulation, it states more specifically that, "heat can never pass from a colder thing to a warmer thing without something external driving this".

Wear your winter knickers!

Consider a closed system with two bodies in contact. If body A has a higher temperature than body B then heat energy will flow from A to B.
Are heat and temperature the same thing? I heard a Formula 1 commentator talking about getting "temperature" into the tyres.
Is there a simple definition of temperature?

^heat is a form of energy that a body has. Temperature is simply a measurement of how much (or little) heat energy that body has.
(Body, here, meaning any item, inanimate or otherwise).

As far as convection is concerned I rate both equally valid as it's air movement responsible not heat transfer. But if you prefer one rather than the other, that's fine.

The prime mover would be the cold air. It is denser than warm air therefore gravity would tend to pull the cold air downwards.
Talking of prime movers, why should air bubbles rise in water against the direction of the gravitational field?

Karol //why should air bubbles rise in water against the direction of the gravitational field//
Think of it as the heavier water getting under the bubbles.

I sat on a cold metal bench the other day. Believe me I could feel the heat leaving my lower regions at a rate of knots. I think that I could have sang soprano.

Or gravity pulls the denser water downwards at the expense of the less dense air. The gravitational potential energy of the system will be reduced if the air bubbles rise.

The metal benches, particularly in train stations, are cunningly designed so that the average warm-blooded human must minimise their sitting time. Hypothermia awaits otherwise.

Thank you bhg.

as a side comment to this there was a gizmo designed to "reflect" cold from a pile of icecubes to keep heat sensitive samples under a microscope cold...of course you can't "reflect" cold.... I did a quick search for anything on this but can't find it....sure I saw it on TV a few months ago

Heat versus temperature.
https://energyeducation.ca/encyclopedia/Heat_vs_temperature
Incidentally, when you open a door between a hot room and a cold exterior, you could imagine the heavy cold air oozing in at floor level to take the place of the hot air that oozes out at high level. Like a sliding sash window, open the bottom and top sashes a bit and cold air pours in the bottom and hot air flies out the top.