This should be interesting. It's a twin, socket, a double gang, socket uh that was sent to me by star delta, because he'd got a load to try out and it's made by a well. It's a uk branded it's made in malaysia, but it's made by a it's a uk branded mk and what makes it special is that, instead of the traditional terminals, where you've got recessed little brass terminals, with a screw going in from the side that you strip the Wire and either just put it straight down or fold it to actually fill up the terminal and then tighten the screw instead of that they have these wago style, pop-up terminals, so to terminate it all you theoretically have to do is get your twin nerf, which i've Formed to the perfect shape and size just like in these adverbs, you see for stuff like this uh strip it so that the wires are the correct length according to the gauge here and then pop the wires in one at a time, although i'm just going to Stuff the whole lot in at once like this pushing each down firmly and then click the terminal over click, the terminal over and click the terminal over, and that is effectively a cable terminated into they've, got three terminals to allow either radial circuits where the cable comes Along loops and goes out or the ring circuit has as popular in the uk, especially for these sockets, where you've got a continuous ring of cable that goes back to the distribution board. So it can loop in and loop out, but they've also got a third terminal to allow for spurs where you may have a fuse spur coming off.

That say, for instance, in a kitchen, you've got a row of sockets, but you want to add a spur for a switch to feed down to another socket for the dishwasher or whatever. This is what you can do with this. It's quite nice. It also has the little uh recessed probing terminals, so you can actually test for connection for the neutral.

There live there and then you've got the solid brass bar there for the earth. So i thought it'd be interesting to actually pop this open and check how it clamps onto the bus bars, presumably on the side if it's similar to the wiggly style connectors. So i wonder why they've got this little raised lip here. Is it to protect these from being lifted up accidentally, just particularly the earth ones, i'm not sure, or is it just because the earth connection has this little sleeve green on it, i'm actually seeing a little bite since i put those in it's got the little spring-loaded Terminal just like there we go that has clamped it and pushed it down onto the bus bar interesting.

So let's take this apart. I shall pop these screws out. This is a common approach in the uk. The screws are usually captive in the socket or switch or whatever you have just basically pushed into the plastic, quite precision that they do that it's held in by a couple of rivets, which i shall now drill out drill in.

I may have to push this down to do it. This is going to get noisy. Oh yeah, it's just snagged in the drill. That's fine, oh brass! On top, it doesn't look like brass.

Underneath, hmm intriguing is this just for show. I shall check this. Let's see if the same thing happens again i'll go slower this time that looks okay now is it going to come out easily, because i do see that there are significant clips here that it's got me intrigued, uh hold on where's a magnet. Where is that magnet? No, it's it's not uh, it's certainly not.

I shall explore that and see if i can work out what that is, i'm gon na scratch that it's not aluminium. Is it i'm not sure it's a silvery metal. Suddenly, it's going through a mind. How do i test this first is aluminium brass coated aluminium.

I suppose it's feasible right anyway. Let's see i can pop this off. Let's not, let's not go down the aluminium root. Aluminum, it's not an ideal electrical material.

So am i going to be able to pop this off? This may be destructive. I mean i'm taking the thing to bits anyway, so it doesn't really matter. I may have to pause momentarily. While i do this because uh i don't know if this is going to come off easily, but having said that, if i'm going to break it, i'm going to break it.

So, let's uh just like da this is going to be making really loud microphone. Popping noises, probably that's what usually happens to accompany the sound of the compressor on the back, because i forgot to turn the dehumidifier off this isn't coming out easily, that's! Okay! If it starts taking too long, i shall pause as i occasionally have to do. This is well preston, let's not peel myself in the process. Well, that's a good start.

It's actually coming up there. What about here? That's coming up there as well. This is where it all disintegrates into lots of little pieces suddenly, as i kind of expect it to happen, but the main thing is, i want to see what the bus bars are. Well, i want to see what they're made of now.

This is when, as i say, i'd like to know, i hope that's not how we met him. That would be a terrible direction to go. Let's see if i can impale myself in the process of trying to get this out. This is what happens ultimately, when people invest in metals like copper and brass that are essential to the electrical industry.

This has taken ages right. Tell you what i'm gon na pause momentarily: okay, ta-da! Yes, it is now opened and shared into lots of little pieces. Is this double pole? Switching? Oh, it's double pull! Switching look of it yeah. It looks like double pull.

Switching! That's nice! Uh! What about this uh? What are these made of? I mean they look like copper. I do hope they are copper, particularly the currents that we tend to use in the uk. I suppose you know ultimately not much different to the currents used elsewhere in the world, but the advantage in the uk is that at 240 volts a 13 amp socket which this is, which can be fused up to 13 amps and there's an a ring main rated 32 amps can deliver well, the socket can run uh three kilowatt appliance um, but uh. The total ring can run something like eight kilowatts.

So that's quite good all right. Let's pull these out just gon na experiment, just gon na zoom down. Actually so you can see. What's going on here, let's cantilever little terminals: oh, it just popped out actually yeah, let's not kind of leave a little terminal! Oh, let's grip this and lift it out so the same style of system that as it pushes it down it, pushes the uh terminal down.

So you can get the copper wiring and then it pulls it lit when you release it it. This is quite hard to push given it's quite sharp. When you release it again, it pulls it back up against the bus bar there so that you know that's it. Locked in place, but the spring the spring wire here is just purely hold it in place against that.

But these are uh coated. Is this copper? It looks like copper, let's scrape it, let us scrape this stuff, let's file it. These are the ones. I've been more worried about being solid, copper.

It looks like it's solid, copper. This is good, but it is plated with something there with a ace of white metal on the surface. I wonder what that is. How easy is it to get that terminal out? I think to be honest: to get out, you'd have to actually press it and at the same time as lifting it out so i'll.

Try that oh there we go another nibble at that, but i'm just taking it off short momentarily to give it a deeper file. Deep valve looks like copper to me. That's good uh right! So that's the earth is the only bit that's kind of like a bit weird here. The earth is a bit weird.

I mean it looks like the it looks like copper pins going over the end of that, but is the is that just brass finished aluminum? Let me just cut some off: i'm not sure, not sure that metal is, let's foul the top i'll. Just take it off shot again filing trying to file. Is it actually just coated, it might be actually brass with a white metal coating the inside? That would that's make me feel a lot better. That's just made me feel a lot better.

That they've just put some sort of uh electrode plating on it. I'm not sure why they're doing that must be a reason. It'll be scientific. Let me just follow through this thin layer of the white metal, and it looks as though i'm straight into brass yay.

That's good! That's good! That is such a relief. I thought there. It was like i thought that was a brass coated aluminum that wouldn't be nice, that wouldn't be nice. This is fine, so it's pretty much what uh? What we expected here um these little uh fingers here - are the bus bars and when you press it down it releases that metal spring down to let you get the wiring, then grips it back so that it can be pulled out.

It looks pretty solid. Actually that looks very acceptable and because uh these are all paired together. That's where it's seeing all the current flowing through the circuit, but all it's seeing here is the supply to the local socket. Although these are rated 13 amps, they usually say maximum of this current per socket.

It doesn't do the full um 13 amps, not sure that is i'm not sure what this socket is rated. It's not rated, usually to have a three kilowatt load plugged into each socket. Now can i want to get this out? Actually i want to get that out right. Tell you what one moment please interesting construction.

I thought that they'd. I was wondering how they'd got that small insert in there to go down and then spread out three terminals. It turns out there's a separate module clips on from, above, with the little cantilevers that, let's see cantilevers uh hinging down to actually push those things open. It seems okay, actually, i think i'm happy at this.

This looks alright indeed, after that little sort of concern about the bus bar metal and finding it is just sort of plated brass wonder why they've done that any idea of what they've done here is it silver? It could be silver think, that's a silver plate in the brass, not really sure, but it's the same arrangement. It's got the uh little cluster of terminals here that can be pushed down to actually clamp onto that yeah. It's neat, it's very good. This could well be the way ahead.

I wonder if they're just testing the water first by uh, putting out these sockets and then the switches will follow because it will effectively require quite a radical redesign of the sockets but uh. Certainly, this looks not bad and when you uh, the depth isn't really sort of significantly different to a normal socket. So there we go. The nk sockets, there's the little shutters by the way that when you put a plug in it uh it pushes these little uh.

Plungers down these little sort of keys what they got here for that if they got a different approach here - hmm i'm thinking, we've got a double parrot approach. Here, it's not just pushing straight down, i think uh. It will have to be pushed back as you push it in to actually slide down. Oh, i get it.

Oh, that's quite clever! Oh i've not seen that before uh when you push it in it's actually latching closed, so you can't push them down unless the pin goes in here, splays that apart and then it can pop down to actually uh cover the sockets. That's quite neat and it's pushed down by the sort of angular pins here by the look of it so yeah it looks like uh. It looks like a quite a radical redesign, but i like it um. It looks all robust enough.

It's got good, solid, uh brass and copper connections. Yeah, it looks good. It looks perfectly acceptable, so yeah interesting direction. I think i'm liking that direction they're going in, hopefully they'll introduce a lot more other components soon to actually match these.