Oxy-Acetylene Brazing 3D
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- Опубликовано: 3 июн 2024
- This 3D video demonstrates how we do oxy-acetylene brazing for residential HVAC equipment. We show how to braze copper at both the air handler and the outdoor unit, and we cover some considerations when brazing and soldering other metals.
Start by removing Schrader cores, which can cause pressure to build up in the system when you flow nitrogen. If you’re working on a system that already has refrigerant in it, you will need to use proper recovery practices.
Before cutting copper, be sure to clean it. Then, ream or deburr the copper tubing to remove the burr. Cutting copper causes a burr to form on the rim of the tubing, which can cause turbulence or deform your flared connections if it stays in the tube. Make sure the burr doesn’t fall in and that you don’t over-ream your copper.
Fit the tubing together and ensure that there isn’t too much of a gap between the male and female ends. If the gap is too large, you risk making a weak connection and ought to consider using reducers or bushings.
First, purge the air from the system with nitrogen. Then, flow nitrogen at 3-5 SCFH, which is a very tiny amount. Before brazing, make sure you have your PPE and a fire extinguisher. Protect components with a wet rag or a heat-blocking putty, like Refrigeration Technologies WetRag.
Your oxy-acetylene torch rig should NOT have any oil on the threads. First, connect the oxygen regulator to the oxygen tank, and then do the same for the acetylene tank. Connect and tighten your hoses to the regulator and torch handle assembly. Make sure you use the appropriate torch tip, including specialty tips in special applications.
Then, close off the regulator adjustments and open the tanks. Bubble-test the connections and hoses to check for leaks in your torch rig. Set the pressure at the regulator with open torch handles, which may vary. Use a proper striker to light the torch; you may light it with acetylene first or with oxygen and acetylene already mixed.
You will want a flame that’s as close to neutral as possible. Carburizing flames have large secondary feathers and have too much acetylene, and oxidizing flames have no secondary feathers and have too much oxygen.
Heat your copper to a dark cherry red color, moving your torch to conduct heat into the joint. That will allow the alloy to be drawn into the joint. You’ll want to make sure you’re flowing nitrogen when you’re brazing copper, as cupric or copper oxide can build up on the inside otherwise. When you’ve finished, shut off oxygen first and then acetylene. In the field, you might shut them off simultaneously as quickly as possible.
Copper is the most common brazing metal, and it can be annealed. It’s also easy to estimate its temperature by color, and it can be fluxed with phosphorus-bearing alloys. However, some “copper” components are actually copper-plated steel, so you have to treat those components as steel when you reach the steel. Brass is softer and often used for cast parts like valves. It has a lower melting temperature and doesn’t conduct heat as well as copper. It’s best to use a high-silver rod with a paste flux (or a flux-coated high-silver rod). Steel is common in compressor stubs. When working with steel, avoid phosphorus-bearing rods. Stick with a high-silver flux-coated rod or a high-silver rod with a paste flux. Aluminum has a low melting temperature and doesn’t give you temperature indicators, so it can be tricky. You will also not use the same alloys or flux you’d use for the other metals. Usually, the flux will be your temperature indicator.
When patching an evaporator coil, you will have to solder aluminum. It’s a good idea to use an air-acetylene torch or MAPP gas torch. Repairs can be done within the coil pack or on the U-bends. Heat the tip of your rod and dip it in the flux. Heat the base material and melt the flux on top of it. Heat the flux until it goes clear and quiet, add the alloy, heat the alloy until it goes clear and quiet, and then pull the torch back. Then, clean off the flux to prevent corrosion.
You can also use an indirect heating method with a separate flux. Heat the base material, apply the flux, heat the flux until it bubbles, and back off and apply the alloy. Pressure-test and bubble-test your system to check for leaks.
When you’ve finished brazing, allow your connections to cool for a bit before cooling them with a wet rag. Inspect your connections with a mirror. If everything looks good, you can add your core remover tools and do your pressure and bubble test in preparation for your vacuum. Again, check your connections with a mirror. You don’t want to see bubbles or microfoam, and you don’t want a pressure drop.
Read all the tech tips, take the quizzes, and find our handy calculators at www.hvacrschool.com/.
Great video and animation!!!!! 👍🏻👍🏻👍🏻👍🏻👍🏻
Yet another reason why I love this channel. No-nonsense, practical instruction. Really appreciate the "this is the theory, but this is common field practice" parts especially!
I've see a lot of good brazing vids on youtube but this is the best by far... super comprehensive. Should be required viewing for all techs.
I've been brazing since I was around 7 years old... this is awesome. Saved and sorted for later use in teaching!
👍🏾👍🏾👍🏾
The most informative and professional video I have ever watched. Thank you
Excellent presentation in 15 minutes. Right on the point! This is what you show a newbie how to do it right!
A rose bud tip is also really good for valves. You want to heat the fitting up as fast as practical so that the heat doesn’t have a chance to conduct through the valve body and dry out your rags/heat blocking putty.
yes sir rose bud R Great ..& its quick indeed .be prepared .... we all here use them on most all 3/8 - 1-1/4 "
Acetone tanks are backwards threaded. They did this to sailor proof the regulators. So one does not mix up the gauges.
Great video, good resource for new techs and refresher for the experienced
Thank you so much for posting a clear, concise and easy to follow video with awesome narration.
Great tips Bryan . Thank you.
Thanks ....Love it The information & the animations were off the chain just dang awesome ..
WOW. That is a REALLY good animation.
Lots of education boiled down into a 15 minute video - nice job
Awesome class! Thanks!
Many great tech tips here.
Safety first. Use flashback arrestors in eyery case, or you may start a chemical process in the acetylen cylinder and this can explode. Next first fuel off, then oxygen is a must . The oxygen push the flame away from the tip, without oxygen pressure, backfire may happen or fire inside the handle.
The 3D animation is very easy to wrap one’s head around👍👍
Excellent video great animation!
Simple and to the point. Thank You!
I Agree!!
That's a pretty cool 3D video very informative thanks. 👍
Outstanding video and animation
Thanks for this so well done
Hi Sir Bryan , maybe you know me. But I want to say thank you to you. You demystify refrigeration system in a very simple way that allows us to understand it vividly and to excell in HVACR field, from Philippines " WILNAR "... Thankyou sir,
this looks awesome
1 missing point is before attaching regulators to crack the bottle open for a split second to force any foreign material out that may have entered unknowingly.
These videos are awesome!
Great video
very useful video! Thank uou sir.
Amazing video 👍… But, I remember it being that the fuel is shutoff first, then oxygen… As I recall, it prevents any flashback and avoids that loud pop… Also, just a tiny bit of oxygen when first lighting to avoid that carbon soot that occurs when there is no oxygen in the mix…
You are correct, turn off the acetylene first and then the oxygen
This is awesome 👏🏻
Excellent video 👍💯💥
great info thanks.
This Is A Very Helpful and Informal Video On Brazing! The Main Part Of The Video That Stood Out And What I Just Learned Is How The Brazing Rod Actually Works To Produce A Strong Braze! The Brazing Rod, As The Animation Shows Us, Is A Filler For A Complete, Tight, And Solid Seal! I Feel More Confident Looking Forward To Practice Brazing And Brazing For Work In Future Projects To Work On From This Observation In This Video!!
Informal? Maybe... I think you may have never "informational"? If not, I apologize for being"that guy"
@@c-daddy3129 shut the hell up
Wow amazing visuals and explanation. These type of videos you produce make me want to work for Kalos just to be trained by you 😅
amazing teaching video to learn!!! thanks
Great animations!
Great animations!
Couple of the charts a bit fuzzy but may have been old eyes on tiny phone!
Badass video!
Bry that's amazing
Enjoyed video.
Thank u so much for share your video .😎👍✅️✅️
Nice, a german fire extingusher :D
btw: great video
hey, I really love this 3D animation. Makes understanding SO MUCH easier. Keep it up!
Great video do you have more on trouble shooting electrical components.
did you make these animations?? theyre really detailed and would of taken a long time.
This is good stuff
3D video is very helpful than explaination video
Why there isn’t any video about how to properly flush the lines when you go from R22 to 410A? Or there is no need to flush it or you must replace the line-set for a new one which in some cases is impossible
@4:18 the wrench in right holds the part from the round part that means impossiblew to hold the part tight
This is showing simple brazing locations, please explain how to braze in less access areas
That’s field experience, can’t teach that
what is the unit comes with refrigerant
Was this made using Adobe Substance 3D?
Bravo.......hot tip........acetylene is expensive.........propane.......cheap..........note get the right hoses......cheers
I feel like you missed a BIG step by just saying both regulators are set to "5". In my opinion that is very vague and false. Back in the day I was always taught acetylene was 3-5 psi and oxygen 10-15 psi
Very informative...thank you
🤦🏽♂️😩 I was setting it like a cutting torch 🤓 I’m used to medal.. I’m starting over tomorrow 😂
No mention of flashback arrestors, was that an oversight or do American oxy/acetylene reguators have them built in?
They're usually in the torch handle at the bottom. Don't want your hoses blowing up...
@@brnmcc01 ahh ok, we fit them seperately to the regulators over here.
@@user-ej3lw6up2j Here too on the bigger setups, we use flashback arrestors on the regulators and backflow preventers at the torch handle. On like manifolded setups at a fab shop, versus these small portable rigs in the video here. Those little tanks aren't for cutting metal or welding just small brazing jobs.
Why NRV Valve missing your Brizing set 🤔
I love the popping noises when I shut it off
Don't. Just one pop fills up your tip and mixing chamber with soot.
Facts
Can we use CO2 instead of Nitrogen ??
How to braze 7/8 in less access places
how can i order hvac tools? pls help me...
👍👍👍👍👍
I'm Pakistan۔ good 👍👍👍👍 good 💯💯💯
I need this animation app please share details.
sir bryan i'm a field technecian and i'll always viewing your video, can you help me to have hvac tools? i hope you can read my messege. GOD BLESS
Copper to other metals how to braze ,
My company policy on de burring method. Lol yeah it's in the handbook nobody reads lol.
Oh wow, wish i seen this before i fucked up a brass valve😂
This is soldering not brazing
Excellent
Why flow with nitrogen rather than argon?