Gracias por mostrarnos las herramientas que haces para trabajar de forma precisa en el torno en los cortes de tubos, ejes y otros elementos de sujeción, saludos cordiales.
I'm just wondering which hospital surgical operation room has milling machine and lathe? Never seen so clean machine shop. And great work by the way. Really nice!
Cool. You know it is not much problem to make those hole cutters longer. You cut it up, you get a pipe in same or near similar diameter, you put them in a V block to line them up and weld them together and then face it in the lathe. Much easier than constantly having to turn the material...
I would never do it this way cause it takes too dam long and I would get fired. I get the same result from just using a copping sander and it's way faster, but I still enjoyed watching this video.
Nice job...Now take your hole saw and cut it in to 2 pieces somewhere quite near the base. then weld TIG weld in a piece of tube the same dimensions as the hole saw, you can extend the length of the hole saw as long as you wish. Then you don't need to turn your part around to finish the cut. I have used this many times to drill through car chassis's for roll cages installations etc.
I did this years ago. The clamp was different. The saw can be cut and welded to a pipe and turned smooth. Making it deeper. My clamps are specific to the stock. The stock slide through and then you bolt it tight. Kinda like a seat post. You can also cut off the wast and continue cutting without moving the clamp.
My clamp was a bit of angle migged to a bit of square steel. I clamped it in the tool post[my old lathe was pretty big]. My cutters were bit's of bar close to the desired size, with broken inserts brazed to it.
Articulated tooling. Less overhang th better also for more rigidity fill tubing with dowel. Always tricky with the end of the cut but just a visual check on the carbide holesaw. Versatile & U just make to suit .good idea
This video is more about the cylinder fixture than the pipe cutting. How can we plan, execute and finish it the fixture in one pass and expect the cylinder fixed and precisely aligned with the spindle axis, without take two, three or ... take N? Would appreciate further elaboration into part two of this video on details leading to the finished product.
Thank you for watching. The distance between the bottom of the tool post and the center of the chuck was measured. I cut a groove at that distance and cut it based on that corner.
@@SwaplampJapan May I ask you a question without offending your judgement? Was it finished with few cycles of (verify measure and correction cut)? and what final eccentricity we have in it?
sorry. I'm reading comments using Google Translate, so I can't give an accurate response. The milling machine used has a digital display with a minimum scale of 0.005 mm. Since the end mill is sharp and sharp, it hardly deviates from the target dimension by more than 0.02mm. I made a jig with a scroll chuck attached to the tip of a hexagonal rod and measured the deviation of the core height. It was less than 0.02mm. There was almost no inclination.
@@SwaplampJapan You explanation really helps, thanks. The only piece of puzzle I miss in this video is the final approach V cut, such that the apex line of V groove will meet the center line of the square groove, precisely. Your advice?
@@philoso377 Thank you for your reply. Carefully bring the end mill into contact with the corners of the machined groove. Align the Z axis to 0 when touching. It's 3:57 in the video. Do the same on the other side the moment the Z-axis touches. If the groove is machined to the same depth, the V-groove can be machined to the same center line as the first groove. If there are burrs, it may be better to deburr to the extent that the corners do not disappear.
Por que no hizo en el torno un porta herramienta para montar la copa en la fresadora? tiene mas opciones para realizar cortes de tubos en la fresadora que en el torno
Thank you for watching. This lathe is currently sold by Mori Seiki. At first, it was made under the name of Washino, Amada bought the business, and then Mori Seiki bought it. The name of this lathe is Washino, but the company is a machine made as Amada.
![Noob To Max With DRAGON REWORK In Blox Fruits [FULL MOVIE]](http://i.ytimg.com/vi/LnBMOinoOvA/mqdefault.jpg)
パイプレーザーに発注しないとき、ホールソーとグラインダーでやってたけど、ここまで高精度なら楽でいいですね〜。出てくる道具が全部キレイで凄いです。
一年前まで物が出来ていく面白さのみで
動画を拝見しておりましたが
高専の実習などで旋盤などを扱っていくうちに
最近では実習で学んだ事が出てくる面白さを感じています笑
実習で安全にかつ正確に加工できるよう
この動画を使って復習をしながら
これからも楽しみたいです笑
We definitely need more channels like yours, your videos are second to none. Excellent job.
何か解らんけど最後まで観てしまった そして最後のパイプの重なりを観たとき おぉ〜 と声が出た 本当すげぇ〜
工業高校で旋盤3級取ったけど、まだまだ基礎だったんだなって感じました。
ほんとにすごい技術ですね👏
We need more channels like this… the art, skill and process of machining is amazing 🤩
Как приятно смотреть на чистые но рабочие руки. Ухоженные станки. Не спешную , но качественную работу. Респект!
よくある外国の工作系youtuberのすごいやつ、と思いながら見てたら
日本語でビックリ!
アブソルート プロフェッショナル。👍
Видно сразу что не ученик ,а мастер с большим стажем ,дай ему бог здоровья и побольше!
素人でよくわかりませんが、環境動画として見ています
落ち着きます
I should thank you for letting us watch you do these jobs. Your V block system is very useful.
This is such a good machining channel, thank you swamplamp keep it up
コレ、絶対一般人は理解出来ない範囲じゃね?
てか、マジで旋盤欲しくなったよ。
レベルも芯出しもして無いから心配しましたが!あっぱれでした!
Those indexing holes really do serve a purpose. Well done
Oh man , you live in a perfect world. Appreciate your work.
Gracias por mostrarnos las herramientas que haces para trabajar de forma precisa en el torno en los cortes de tubos, ejes y otros elementos de sujeción, saludos cordiales.
エンドミル、フライスで、やってますが。この方法もありですね。試してみます👍
発想が面白いと思いました!
あと、工具や機械が綺麗で使いやすそうで羨ましいです!
旋盤をノッチング台にしてしまうとは…天晴ですね
watching your video really make me feel beauty and peace, thank you.
Il video è MOLTO interessante, non si finisce Mai di imparare, chissà, quante altre cose si possono fare al tornio!!!
😲👍👍👍👍👍👍👍
I really enjoy your problem solving skills in your videos. Keep up the good work!
Wow his hands and machine is absolutely clean, and his work is a masterpiece
Руки золотые, с правильного места растут
フライス盤と旋盤はセットですね。
これさえあれば金属加工はたいていできそうです。
あとは溶接機と焼入れ施設...
Ich bin echt erstaunt von deinen persönlichen Leistungen auf solche Ideen zu kommen ist eine starke Leistung Grüße aus Deutschland 🇩🇪 👍🏼
You are Sensei Sir 🙏 No words can describe your superior skills 🙏
Чем больше смотрю , тем больше хочется к нему в ученики ! Класная работа , как всегда .
Amazing how you can get the chuck to move left and right.
Because cam at the carriage, that why when carriage move it looks like the carriage is static and chuck is moving left and right.
前職で金属加工にてパイプえぐりをワイヤーカットでしていましたが旋盤でもする方法があったんですね!
Bravo you are an original Japanese person.👍
хорошая приставка/державка для резцедержки👍чет на Али экспресс таких не видать😅😅😅 по заказу не готовите?)))
That is such a clever jig, your lathe is bigger than mine but Im sure I can make something similar that will fit my tool post. Brilliant thank you
(パイプえぐり、、)
この製法を応用したら、、超精密なロールバーが出来そうですね!
Vraiment stylé ! Outillage maison, pas besoin d'ajustage en fraisage tout en tournage la grande classe !
SWAP LAMP ça dechire 😄
治具作る手間かけてまで旋盤使いたいのね👍
You are one HELL of genius!!!
So amazing your tools working so well
Fantastische Arbeit, viele Grüße aus Deutschland 👍🏻
That is really nice.
Only thing missing is height adjustment for offset notches
Nicely done sir, I liked the little tool for radiusing all the edges and wiping the lathe chuck.
Where
Machinist level: 100. Congrats!
Thank you for a great tool and more ideas.
こんな穴開けの仕方あるんですね。真ん中以外は縦マシン使ってました。
I'm just wondering which hospital surgical operation room has milling machine and lathe? Never seen so clean machine shop. And great work by the way. Really nice!
これはナイス アイデア!!
Ótimo trabalho, ficou muito bom, suas ferramentas são muito boas.
👍🏾
Good idea! Nice quality work!
какие чистые руки и рукава, молодцы японцы
Cool. You know it is not much problem to make those hole cutters longer. You cut it up, you get a pipe in same or near similar diameter, you put them in a V block to line them up and weld them together and then face it in the lathe. Much easier than constantly having to turn the material...
すごい‼️もはや芸術
Very nice. Thank you from Portugal
発想力の化身!!
謝謝教授影片。旋床&治具達人。
Awesome 😎 build and work ❤️
Takumi, Thanks i learn a lot from your video.
I would never do it this way cause it takes too dam long and I would get fired. I get the same result from just using a copping sander and it's way faster, but I still enjoyed watching this video.
Even the background music was satisfying. Which always is quite a gamble...
FELICITACIONES !!!! Meticuloso y preciso...
FANTASTIC camera work. Beautiful. Like art - not engineering! Thank you.
Nice job...Now take your hole saw and cut it in to 2 pieces somewhere quite near the base. then weld TIG weld in a piece of tube the same dimensions as the hole saw, you can extend the length of the hole saw as long as you wish. Then you don't need to turn your part around to finish the cut. I have used this many times to drill through car chassis's for roll cages installations etc.
Attention to detail makes the difference.
Excellent - Japanese precision
こんな動画見せられたら
嫁より旋盤欲しくなるぜ。
どんだけだよ…凄すぎんか…?
何年機械触ったら出来んのよそれ…
Very good. For the 45s tho a band saw or a drop saw is just às efficient
Great video! You are very talented😀Great skills👍👍👍
I did this years ago. The clamp was different.
The saw can be cut and welded to a pipe and turned smooth. Making it deeper.
My clamps are specific to the stock. The stock slide through and then you bolt it tight. Kinda like a seat post.
You can also cut off the wast and continue cutting without moving the clamp.
My clamp was a bit of angle migged to a bit of square steel. I clamped it in the tool post[my old lathe was pretty big]. My cutters were bit's
of bar close to the desired size, with broken inserts brazed to it.
Absolutely Brilliant, I am very impressed, Great job
WOW! Awesome idea!
I like the sound of it starting to spin
切れ味と精度が凄いデスネ。美しいずっと見てられるワ😃
Fantastic well done.
Very good idea
切削の際の倍速が64倍とか本来とてもゆっくりなことに驚き
밀링가공이내요 대단해요 영상감사합니다
G01 x좌표하고 수치
Go2 y좌표하고 수치 등이고요
끝나되에은 m02로 끝나요 차트가요.
영상감사합니다
Articulated tooling. Less overhang th better also for more rigidity fill tubing with dowel. Always tricky with the end of the cut but just a visual check on the carbide holesaw. Versatile & U just make to suit .good idea
tolle Idee mit dieser Vorrichtung die Rohre auszuklinken...
職人!👍🏻👍🏻👍🏻
Thank you for giving me such an awesome idea!
Круто. Приспособление для решения огромного спектра задач.
какие приспособления? На стойке за 800 рублей дрелью так же просверлишь.
@@Sevunions ну конечно, напильник же всегда в заднем кармане :)
Поражает чистота поверхностей
This video is more about the cylinder fixture than the pipe cutting. How can we plan, execute and finish it the fixture in one pass and expect the cylinder fixed and precisely aligned with the spindle axis, without take two, three or ... take N?
Would appreciate further elaboration into part two of this video on details leading to the finished product.
Thank you for watching.
The distance between the bottom of the tool post and the center of the chuck was measured.
I cut a groove at that distance and cut it based on that corner.
@@SwaplampJapan
May I ask you a question without offending your judgement?
Was it finished with few cycles of (verify measure and correction cut)? and what final eccentricity we have in it?
sorry. I'm reading comments using Google Translate, so I can't give an accurate response.
The milling machine used has a digital display with a minimum scale of 0.005 mm. Since the end mill is sharp and sharp, it hardly deviates from the target dimension by more than 0.02mm.
I made a jig with a scroll chuck attached to the tip of a hexagonal rod and measured the deviation of the core height. It was less than 0.02mm.
There was almost no inclination.
@@SwaplampJapan
You explanation really helps, thanks.
The only piece of puzzle I miss in this video is the final approach V cut, such that the apex line of V groove will meet the center line of the square groove, precisely. Your advice?
@@philoso377
Thank you for your reply.
Carefully bring the end mill into contact with the corners of the machined groove.
Align the Z axis to 0 when touching.
It's 3:57 in the video.
Do the same on the other side the moment the Z-axis touches.
If the groove is machined to the same depth, the V-groove can be machined to the same center line as the first groove.
If there are burrs, it may be better to deburr to the extent that the corners do not disappear.
創意工夫を超越していますね・・・
いったい・・・何歳なのだろうか?
Very clever, nice work. Thanks you. Is that an Okuma lathe?
Thank you for watching.
The lathe is Wasino LR-55A.
凄すぎ。
Por que no hizo en el torno un porta herramienta para montar la copa en la fresadora? tiene mas opciones para realizar cortes de tubos en la fresadora que en el torno
This guy is crazy 😆 amazing video dude
美しい…
旋盤なんでも出来スギィ!
使いこなせて誇らしくないのかよ?(上から目線)
You are genius man bro..
Woow que gran trabajo 💪😎
Saludos desde PARAGUAY 🇵🇾🇵🇾🇵🇾
You're a genius.
Отлично поработал, залипательное 🎥
Wow I like your style and your idea.
Tell me what camera do you use for the video.
Thank you 👍
Thank you for watching.
The camera I'm using is a NIKON COOLPIX B500.
@@SwaplampJapan excelent video mate 👍
wonderful.......cheers from USA
Beautiful work..I'm guessing your lathe is a Mori Seiki.
Thank you for watching.
This lathe is currently sold by Mori Seiki.
At first, it was made under the name of Washino, Amada bought the business, and then Mori Seiki bought it.
The name of this lathe is Washino, but the company is a machine made as Amada.
hate/love perfectionist 👍👍👍👍👍👍
Very peacefull video!!!
Absolut professional.👍👍👍