WEBVTT 00:00:00.000 --> 00:00:06.260 Titan we have a thing for you. Oh, really? Open it up. Oh, that's got some weight 00:00:09.860 --> 00:00:13.900 LTT and Nice, okay 00:00:14.220 --> 00:00:20.540 Well before we get to that Just a small bag of machine parts. Holy moly 00:00:23.540 --> 00:00:25.860 It's like a solid machined brass 00:00:26.860 --> 00:00:30.500 Shaft Thank goodness. All right, I'm just gonna 00:00:33.900 --> 00:00:40.220 Holy moly. Now do you have more of an idea of what's going on here? Yeah, I have a pretty pretty good idea at this point 00:00:40.740 --> 00:00:47.220 certainly Some nice machining work from whoever put this together and some ever so slightly destroyed 00:00:47.620 --> 00:00:52.100 components from our driver which fair enough in 3d printed parts a 00:00:53.220 --> 00:00:56.580 bunch of internal components Oh 00:00:56.580 --> 00:01:01.420 Some attempts for a bit holder and end cap sub assembly 00:01:02.260 --> 00:01:06.820 Including some nice machining grooves My guess is an attempt at an end cap 00:01:07.540 --> 00:01:12.660 Solidly machined on a lathe. It's pretty good. Although parting that off would be an adventure 00:01:13.180 --> 00:01:16.060 Well speaking of parting it off there would be another attempt 00:01:16.620 --> 00:01:21.340 Whoever this is was definitely able to figure out most of the important components of it and at least 00:01:21.940 --> 00:01:26.260 Seems to be doing a fairly good job of replicating a good number of them 00:01:26.260 --> 00:01:31.740 If you open up the screwdriver box, you'll also find some more notes from whoever sent me 00:01:36.900 --> 00:01:41.420 It's fine, it's fine. Everything is fine. Jeez. This is heavy too. Ah 00:01:43.660 --> 00:01:48.460 All right. Well, so we got some nice Karen handling instructions. We all know what to do with this 00:01:49.220 --> 00:01:54.020 Oh my god, but not actually. This is one of the times I will actually read it through. Oh 00:01:56.220 --> 00:01:58.220 Okay 00:02:02.700 --> 00:02:04.700 Lots of pieces of paper 00:02:05.900 --> 00:02:13.340 This machinist did some brass plating of some stainless steel to get the stiffness that they wanted while also getting the look that 00:02:13.340 --> 00:02:18.460 I'm assuming they were going for which is Pretty cool does look like they have 00:02:20.060 --> 00:02:24.500 At least to some extent or another reverse engineered the ratchet. Let's give it an open 00:02:27.260 --> 00:02:32.020 So the first one that comes up oh my gosh is 00:02:32.420 --> 00:02:36.220 The solid brass version 00:02:36.220 --> 00:02:44.860 It does work This is the coated section that they were talking about where they mentioned to not polish it too much as the coating may come off over time 00:02:45.940 --> 00:02:52.180 How's that ratchet feel? I mean not as good, but it's it's got a click to it for sure. It feels it's 00:02:53.500 --> 00:02:55.900 It's a lot finer of a ratchet 00:02:57.740 --> 00:02:59.740 Like the steps are smaller 00:03:01.180 --> 00:03:06.620 But it it finds up a little bit just one off tolerances 00:03:07.380 --> 00:03:09.380 This 00:03:12.420 --> 00:03:15.620 This is monstrously heavy brass is a very heavy metal and this 00:03:16.980 --> 00:03:19.740 This thing is a is a bludgeoning weapon for sure 00:03:20.260 --> 00:03:23.500 Jeez, but what are your overall thoughts? Oh, it's super cool 00:03:23.900 --> 00:03:27.500 The lack of the bit clip is a bit sad, but that is 00:03:28.340 --> 00:03:31.060 Legitimately quite hard to do the second reveal. Oh 00:03:32.660 --> 00:03:34.660 Oh geez 00:03:36.620 --> 00:03:38.620 I see a separate piece 00:03:39.980 --> 00:03:44.700 It's a little hard to open up. Okay They did it on this one 00:03:44.780 --> 00:03:46.780 That's pretty impressive 00:03:48.260 --> 00:03:51.860 The mirror the mirror finish on it is pretty spectacular as well 00:03:51.860 --> 00:03:55.940 I think they reused one of our shafts, but gave it a mirror polish 00:04:00.180 --> 00:04:05.940 Yes, although not recommended it can be fully disassembled please contact for disassembly instructions 00:04:07.620 --> 00:04:14.740 So, yeah, this would be at least some of the internal components of our driver based on that. Oh, the end caps hard to open 00:04:19.340 --> 00:04:24.440 Aha Okay, so they have a slightly different mechanism in the back as well 00:04:24.660 --> 00:04:29.820 Unlike our driver which uses a piece of injection molded plastic in a spring to hold the bit clip in 00:04:30.700 --> 00:04:36.260 They used a magnet and a piece of steel. It's very clever and it works really well 00:04:36.620 --> 00:04:39.660 Also simplifies not having an injection molding shop in your backyard 00:04:40.620 --> 00:04:44.060 How's it compared to your metal screwdriver here? 00:04:46.060 --> 00:04:50.940 It's a lot this is a lot heavier. I have a feeling a good chunk of the inside of this is 00:04:51.820 --> 00:04:57.500 Actually, I think this entire thing might just be stainless. Yeah, so I suspect this entire driver is stainless steel 00:04:57.500 --> 00:05:01.340 Whereas a good chunk of this is made out of aluminum with some brass 00:05:02.220 --> 00:05:08.780 so this is probably Two to three times heavier than this metal driver 00:05:09.100 --> 00:05:15.340 Which is again like two times heavier than our normal driver, but this is a this is a work of art 00:05:16.060 --> 00:05:21.820 For sure me and the engineering team are looking forward to taking it apart and seeing how they made all of these work 00:05:22.300 --> 00:05:26.780 100% going to contact for disassembly. I am far too curious to not 00:05:29.900 --> 00:05:34.860 Currently I think this one is Cooler that being said if I took both of them apart 00:05:35.180 --> 00:05:37.740 I have a feeling my opinion would change and I'd want to see 00:05:38.540 --> 00:05:43.740 This more I suspect this would be cooler because it seems as though they've reworked 00:05:44.460 --> 00:05:48.620 More of the overall mechanism whereas this was trying to 00:05:48.860 --> 00:05:54.060 Take our design and give it a reskin. These were sent to us by I apologize in advance 00:05:57.420 --> 00:06:00.540 But these are fantastic and And 00:06:00.540 --> 00:06:04.540 Yeah, I look forward to being able to take either or both of these apart if it's possible 00:06:04.940 --> 00:06:08.700 We're here with the engineering team to unbox this fun little ticket 00:06:13.100 --> 00:06:17.260 Perhaps Oh, it's heavy. It's very heavy 00:06:20.220 --> 00:06:22.220 That one's stainless the ratchet size 00:06:23.260 --> 00:06:26.140 The two ratchets are very different. It's way too good to fit on this 00:06:26.620 --> 00:06:30.300 Air pressure as I push it in. I wasn't expecting the notches to go in 00:06:32.380 --> 00:06:36.700 And they're sharp also How does it screw on? 00:06:36.700 --> 00:06:38.700 Yeah 00:06:39.820 --> 00:06:44.140 Speaking of real fine threads It's almost playing with magnets in the end cap. That's 00:06:45.020 --> 00:06:50.940 Yep Yep, so that's how they close it down. They say uh contact us for breakdown instructions 00:06:51.740 --> 00:06:55.900 So I will be doing that shortly I want to see the insides of these 00:06:57.100 --> 00:07:01.420 It's not consistent They did say that 00:07:01.420 --> 00:07:03.420 It was a manufacturing defect 00:07:04.460 --> 00:07:11.420 Which fair enough you've already compared it to ours, right? Yeah. Yeah. Yeah. Is this a soft closing bit storage? 00:07:15.500 --> 00:07:18.860 It's like soft closing girls on a car air pressure. Yeah. Yeah, pretty much 00:07:20.300 --> 00:07:27.260 My intrusive You could yeah, you could definitely hurt something. I did the same thing. I'm like, oh boy. This thing is 00:07:27.820 --> 00:07:31.260 Such a freaking weapon. You think this is game pass tsa? No