Robbins & Lawrence Rifling Machine

I always wondered how they rifled barrels...this is an excellent video, thanks!

I watched guys do this by hand at Williamsburg. They pulled and pushed a rod, the handles of which rode between guides that established the twist of each cut. They said the old octagonal barrels established the “indexing.” Cut one groove to satisfaction, lock the barrel into the vise on the next flat sides, and cut another groove. Octagons always have two flat (parallel) faces on opposing sides.

This machine made the USA into the leading arms manufacturer in its day and was far ahead of its time in design. It also helped the North in civil war to beat the South. The south did however get hold of a number of these machines that the North tried to destroy to prevent them from falling into South hands. The design of this machine was so far advanced that it is still valid today as a cut rifling machine.

amazing video, no audio needed, but shows you exactly in detail how the process is done.

There is a really primitive rifling machine at the John M Browning museum that he used. It was made from a log with rifling type notches cut on the outside of it and a steel rod with a cutter attached to the end. He just pushed and pulled the log back and forth with a handle and the cuts in the log made it twist. Pretty neat stuff.

Seldom I have seen a more sophisticated animation film of a machine. Great job!

Has anyone out there thaught about the fact that Pratt and Whitney made a copy of this very machine and that this design is still used today for cut rifling. What does that say about the intelligence of our fore fathers?

You have broaching, in which all groves are cut at the same time with a broach; button rifling, in which a button is pushed/pulled trough the barrel, pressing the grooves and lands into the inside; hammer forging, in which a mandrel with the "inverted" rifling is used to forge the barrel and flow forming, in which extreme pressures force the metal to "flow" around a mandrel with the reverse rifling.

This is a fascinating animation of how rifling used to be cut into firearm barrels providing the necessary twist for bullet stability.

The only exceptions are: in the inset it shows the barrel turning rather than the cutter. This is so you can see the cutter cutting, which would be difficult if the cutter were shown turning. The indexing gear on the bump stop shows to turn on each stroke. The wedge should drop the cutter on the return stroke to prevent galling, it hits the bump stop to return it to the raised position for the next cut. The index pawl should index the bump stop only once in a complete rotation of the barrel.

Very fascinating illustration of what was possible even in old times!

Extremely important! Machines must be created so that they can never ever be regulated by any gov. This is going to be my main goal from now on. I hope it is yours as well. My so-called gov. In Sweden tried to regulate the machines used in the manufacture of guns. And guess what. Seconds after writing this I found a way to make rifling an integral part of a lathe which can never be regulated.

wow, wow, wow, that was a great visualization of the 1853 technology. Wow, how in the world did they think that bit of machinery up...

Thank you for your video it's really interesting I've always wondered how this was done especially years ago it's like a lost art to me

Incredible explanation/animation!

will have to stop by and see this museum this spring. :D

ingenious
Those old geezers really knew their stuff

Really an ingenious design for the time.

Watch the machine before the close up pictures. The cutter spirals within the barrel. When the closeup is shown further on in the film, the cutter slides back and forth and the barrel rotates. One or the other is incorrect.

That's just cool! Explains alot. Thanks for sharing. Earl

At 28 seconds the cutter spirals within the barrel. At 1:28 the barrel revolves around the cutter. Watch the cutter, the position remains the same, always at top center.

The animation is not wrong, that is what the machine did and how it worked. Yes the final cut will be slightly deeper than the others but only slightly as it takes many many strokes to complete the rifling and the advance on the cutting tool is very, very small. Certainly not "five times as deep".

very cool and complete illustration... Thanks.

This is a very nice video that shows how to rifle a barrel, another way is to insert a shaped rod and hammer the outside of the barrel while the metal is hot, this will rifle and also harden the barrel at the same time

こうっやってライフリングを刻むんですね。
わかりやすい動画で良く理解できました。
ありがとう。

A very clever little machine!

it might be to press the wedge further back to make the cutter cut deeper, like on a second rotation you adjust the machine and make it bump. As for what it actually does, I might be close or I might be no where near on my assumptions.

Incredible! Just a bit confused that the bump stop advances on every stroke. I would think the bump stop would only advance once for every 360 degrees of revaluation of the barrel
.

Why is the cutting blade in line with the barrel and not rotated slightly to be in line with the groove it's cutting? Wouldn't this have resulted in a smoother cut?

So the the cutter is wedged deeper with every stroke, the barrel is indexed with every stroke and thus with every stroke a new groove is cut slightly deeper than the one before. How come all the grooves end up the same depth?

VERY cool mechanic i love it :) .....nice Regards from north Germany

" Now, here my quest comes to an end ".
Thanks buddy.

Really awsome!! always wondered how they made such a difficult cut, it shure as hell cant be dont on a lathe of any kind

the state of art before cnc era... gret video !

This is similar to how threads used to be cut for screws but not as complicated.

If the sine bar had a curved shape, then the speed of rotation of the bullet could be increased along the barrel, which would have ballistic advantages.
One could try for example a parabolic or exponential curve, in both cases starting with a zero slope.
What do you think?

if the cemera is lock to the cutter then the close up is correct.. BUT the rifled pistol barrel is not

Your close up is incorrect. The barrel does not rotate around the cutter to cut the rifling. The cutter spirals within the barrel.

It's amazing how much simpler servos can make a mechanical machine lol

could you do the same with cold forging machine for barrels

It should cut each groove with one depth until barrel has made one full turn and only then the depth of a cut should increase.

Forgot the where the rifling bites the bullet and leaves grooves behind.

Another way is to push a button through, much simple but it has it's limits.

so how many cycles does it generally take to finish 1 barrel? Also is the inside of the barrel polished after cutting?

This may be the most ineffecient way.. but for a basement DIY guy this is prob. the easiest way to make a rifling machine by yourself. =)

can someone explain the bump stop to me as this is the part that i cant figure out its purpose

Fantastic

The bump stop pushes the wedge deeper into the rotatating cutter extending the cutter out to cut the groves deeper, but the animation is wrong. It shows the bump stop advancing the cutter with every stroke of the cutter, when it should only vadvance the cutter once every five advances of the barrel, otherwise the cut would be five times deeper on the fith groove as the first.

Hi from france, great vid ! Thanks . Wow !!!!

Good, is it possible to get the blueprints of this design? I am a fan of weapons and also a student of Inventor, the program with which these designs are made and I would like to be able to recreate the drawing. Thank you

Would it be possible to get the cad files for this machine?

No, but I am thinking of building one of these machines and I will correct the problems and post the results someday.

Very, very very interesting this video. This is old mechanism.

Great video mate well made!

I'm looking for the plant this machine can help me?
thank you for your help
Didier of France
bonjour
je recherche les plant de cette machine qui peux m'aider ?
a les trouver merci a tous
cordialement
didier

How can I buy an Android app version of this video?

V nice....plz make a video how rifling done using mandrel....

Hi do u have plans si I can build one of these or can I buy your 3d modelling

can you recommend a site that i could learn more about this process?

اريد شراء الماكينه اين توجد

amazing!!!

Buenas, es posible conseguir los planos de este diseño? Soy un aficionado a las armas y también estudiante de Inventor, el programa con el que se hacen estos diseños y me gustaría poder recrear el dibujo. Gracias

yeah i'll give you that much and its not letting me post the link ???

Нарезы должны быть в 3-4 раза шире.

what if i wanted to rifle a barrel with length of 30cm??

Today modern gun barrels are rifled exactly the opposite , it's the small vortex teeth that pop out not the big ones....

rifling like a BOSS.

Now, all I need to know is where do I get one?

رائع جدا السهل الممتنع

Cool video what program animated it. Well made.

very cool

how many hours does this process take?

the bullet spins in the other side than the rifling was

nope... imagine yourself locked to the cutter. then the barrel would seems to rotate but in reality its the cutter turning.. so its right. part from the pistol

terrific viedo！
like it :D

I'm more interested in removing the riifling in my barrel

every day I'm rifling!

very appoporate names for each part.

I want one

Nice

Josiah Locks

Fadel Rapid

Shannon Groves

cheers =)

Germans developed spiraling tech .

Ava Ridge

Rene Orchard

Olson Crescent

Barrows Oval

hammer forging for the win!

Mitchell Cape

this is the most innefficient way to rifle a barrel there are a couple of other ways

Hodkiewicz Square

Kamron Ports

genius!!

Well I'll be dipped in dog shit!

Virgie Parks

Aiden Rapids

Karlee Canyon

Macejkovic Ford