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3D printed lathe chuck
▷ 3d print nova lathe chuck 【 STLFinder 】
Nova G3 Lathe Chuck Pen Jaw #1
thingiverse
This is a very accurate model of the #1 jaw from the Nova G3 lathe chuck pen jaws set. ...This should be helpful for anyone wanting to make custom jaws for the chuck, or in my case, making rubber covers for the jaws so they don't scratch the wood.
Nova Lathe Chuck 85mm Soft Jaws
thingiverse
This is a jaw attachment that will fit any 4-jaw Nova lathe chuck. Inner diameter with 4 jaws mounted on chuck is 65mm - 86mm, outer diameter 85mm - 106mm.
As a plastic jaw, it is not strong enough to rough turn heavy stock. I made this soft jaw...
Nozzle on the lathe Chuck NOVA
thingiverse
Nozzle on the lathe Chuck NOVA, allowing you to clamp the workpiece rectangular shape without deformation of the faces. Cartridge removable from any two opposite cheeks, and the remaining two are attached to these nozzles. Before installation, remove...
Nova G3 Lathe Chuck Jaw #1
thingiverse
This is an accurate model of the base jaw of the Nova G3 lathe chuck. This should be helpful for people who want to make custom jaws for the lathe. ...The model does not yet include all of the grooves in the bottom but I may add those in the future.
Lathe chuck 3D model
cgtrader
Lathe chuck
3D Printable Lathe Chuck
grabcad
Simple 3D Printable Lathe Chuck designed in Solidworks.See more on Instagram: @life_of_an_engineer__
Lathe Chuck 3D model
cgtrader
Lathe Chuck, Solidworks 2017 modeled. 3D Studio Max 2018 and also attached 2015 version too. Many file formats are available. ... Polygons: 518228, Vertices: 259120 File formats: 3ds Max SLDPRT, SLDASM 3DS FBX OBJ STL FBX
Lathe Chuck 3D model
cgtrader
This is a realistic 3d model Lathe Chuck.
Lathe Chuck - this accessory is made in accordance with technological standards of copper or steel, designed for fixing parts, pieces on lathes and drilling groups for their subsequent processing. In this...
lathe chuck 3D model
cgtrader
This lathe chuck can be exported to artcam and then made in a cnc
Lathe Chuck Free 3D model
cgtrader
Lathe Chuck
Chuck 3D print model
cgtrader
Young Chuck. .
..3D Print-ready. ...
PRINT A 3D NOVA
cults3d
The blast wave took about 24 hours to print on the Ultimaker 3 (alternatively, it took 9.5 hours to print on a DaVinci 3D printer- results not pictured). The ejected material took 20 hours on the Ultimaker 3 (4 hours on a DaVinci, not shown). The...
3D Printed Lathe Chuck Jaws V2
thingiverse
... from my YouTube video. ...This is compatible with the 3D printed Lathe Chuck. This version has slightly angled plastic to help with the grip on the material. ... https://www.thingiverse.com/thing:624625 https://www.youtube.com/watch?v=ggw8d1vt1C0
3D Printed Lathe Chuck Jaws V2
thingiverse
.
.. from my YouTube video. ...This is compatible with the 3D printed Lathe Chuck. This version has angled plastic to help with the grip strength on the material.
... https://www.thingiverse.com/thing:624625
https://www.youtube.com/watch?v=ggw8d1vt1C0
LATHE CHUCK
thingiverse
3D printable lathe chuck for demonstration purposes. ...
Lathe Chuck
grabcad
Lathe Chuck
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grabcad
Lathe chuck
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lathe chuck
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Lathe Chuck Full Mate
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Lathe Chuck four jaw
lathe chuck
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a lathe chuck
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4 Jaw Chuck
lathe_chuck
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lathe chuck 80 mm
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Lathe chuck for a small lathe
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4 jaw self-centering lathe chuck
Lathe Chuck
grabcad
K11 125mm - 3 Jaw Manual Lathe ChuckBased on remzi inönülathe chuck
Lathe Chuck
grabcad
A Lathe chuck designed in Inventor 2018 and Creo parametric 5.
0
lathe chuck
grabcad
lathe chuck Three-claw self-centering, modeled and assembled in autodesk inventor pro, as part of a didactic lathe project.
Chuck best 3D printer models・Cults
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CNC plastic lathe and lathe chuck......... Almost real.
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And then the smallest lathe with a caliper costs some kind of "horse" money, but it has a bunch of negative reviews.
If you do it right and do not save on plastic, then everything works fine.
It all started with printing a 2.5" (63 mm) lathe chuck from a finished Twingi model.
There are two models
I printed and the chuck does not hold the workpiece - in the steel chuck
there is such a part
And it works fine when it is not made of steel, but it is made of plastic.
I printed such a ring on the screws
And the cartridge began to clamp normally. I remade the model for an 8mm axle - there are pulleys for the GT2 ring belt for this diameter. I had these parts.
Well, this .........probably ..
And we look at these toy machines .... People most often change cartridges and engines ....
So you need to the engine is more powerful .... in the nearest DIY store there was one model with a 5 mm shaft - the rest with 3.175 mm shafts .... and my pulley is only 5 mm, and it is more expensive to make an adapter sleeve than to buy an engine with a 5 mm shaft .
I purchased this motor with a 5 mm shaft.
As a result,
turned out to be such a front grandmother
caliper - we put a proven version from the freester ....... and
9000
and from what to make cutters - drill for ceramic tiles they have hard alloy overlays - they cost little compared to cutters and are suitable in size for a very small machine ..... And as a "cutting cutter" we use a replaceable blade from a clerical knife
And the first chip.
X - caliper stroke 100 mm, and the cutter stroke in the current version (the chuck can be machined) - from the chuck jaws to the stroke limit - 60 mm .
.... but if you move the cutter holder to another mount, then all 100 mm to choose but you need to do the tailstock.
According to Y - carriage travel 90 mm - that is, the travel is greater than the distance from the center to the axes - the restriction is only on the diameter of the clamp. Why is such a big move made - so that you can install a milling electric spindle - I just have two different pieces - you can make a dividing head or install a stepper instead of a DC drive motor - the possibility is structurally provided ..
He processes plastic.... And what if you try to grind a nail - weaving?
And it sharpens - extremely slowly, with very little removal, but sharpens.
True, it would have come out faster with a file .... but you can’t do it exactly with a file ... But you can also use a file on the machine - on a clamped workpiece in the chuck .....
CNC-control reflashed an autonomous block from the router ....
But all that remains is to master the program for preparing control codes .....
Block - Arduino NANO 3.0 + shield "Control by GRBL 111330" + MKS TFT2.4 with firmware for CNC (for 3-axis CNC) + power key ....
Here is such a small the lathe turned out .....
Health and good luck to everyone.
Examples of positive and negative applications of the 3D printer
Every year 3D printing becomes more and more popular. The 3D printer, as a tool for turning a digital model into a physical object, is gaining popularity, outperforming other production methods in many ways due to its affordability.
But do not forget that a 3D printer is just a tool. A lot depends on how this tool will be used.
Available 3D printing technologies
All 3D technologies can be conditionally divided into 4 types.
Layer by layer welding with molten material.
The principle of operation is similar to the familiar glue gun.
The print media is melted to a semi-liquid state in the print head and applied with a nozzle to the print surface where it solidifies. This is how the finished 3D model “grows” layer by layer on the printing table. Not only thermoplastics can be used as consumables, but, for example, chocolate, icing, concrete, etc.
This is the most common type of printer. Inexpensive FDM printers are often used as home assistants. This is facilitated by an inexpensive price and a variety of consumables.
Selective curing of resin (photopolymer printers).
The material used is a photopolymer resin that hardens under the influence of UV radiation. As a source of UV radiation, a thin laser beam, a DLP projector or an LCD screen with a UV matrix, or any other design can be used. For example, some industrial 3D printers apply a photopolymer using thin nozzles and immediately illuminate it with a UV lamp.
Previously, these printers were quite expensive.
Today, with advances in technology, photopolymer 3D printing has become affordable and photoresin printers have become popular as home hobby printers.
Selective bonding of powdered material.
On the print head of the printer there are several nozzles through which a binder is supplied, which is selectively applied to the powdered material. Various materials can be used as a material: for example, gypsum or metal powders. But gypsum is most often used.
Since dye can be added to the "glue" during printing, such printers are usually used for the production of color demonstration models or souvenirs.
Laser sintering of powdered materials.
The youngest technology, but with great potential for use in large-scale industries. With the help of a laser or a heated print head, selective sintering of the metal powder occurs in an environment filled with an inert gas.
These are already serious industrial printers that are used for the production of functional metal assemblies and parts.
Currently, such 3D printers are actively used in the aerospace industry.
Unethical use
3D piracy
Where there is duplication of objects, there are always disputes about copyright and piracy.
The production of any product is a long and painstaking work, and often more than one person. Before you get a finished decorative product, for example, a figurine, you need to think through everything to the smallest detail. Usually, before modeling, the artist draws a lot of sketches, the details of clothing and accessories are thought out. Only after that the 3D modeler gets to work and begins painstakingly recreating the 3D model.
Functional models are often redesigned by engineers after the prototype has been made. There can be a very long way between the initial idea and a stable working mechanism. And it’s very disappointing when such work is simply copied and posted in the public domain.
LEGO
It was one of the first mass manifestations of "3D piracy".
At that time, 3D printing was only gaining popularity, and many users, having printed a dozen figurines, were looking for a useful application for a 3D printer. Given the low plastic consumption, the printed LEGO blocks were very inexpensive.
3D printed LEGO bricks
Despite the far from ideal surface, many were satisfied with such a copy. Some have argued that the accuracy of a home FDM printer is not enough for the bricks to fit well with the original LEGO, but for most users everything fit perfectly.
At the moment, LEGO is actively removing models that copy the original sizes of the famous bricks and men from the network. On popular sites, only custom elements of LEGO-men and LECO are left that are not the original size.
Custom Heads for LEGO Men
Games Workshop
Games Workshop, which produce the most expensive table soldiers in the world, sued Thomas Valenti (USA) back in 2012.
Thomas has modeled, printed and made publicly available several miniatures based on the Warhammer universe. The court sided with Games Workshop and the models had to be removed.
3D Printed Chaplain
Chaplain 3D model from Warhammer 40k
Games Workshop went one step further by banning fans from creating art and other work based on the original settings and characters. As a boycott, users of the Warhammer 40,000 section on Reddit are proposing to abandon the company's products as much as possible - print game figures on 3D printers, use paints from other companies, or switch to other universes.
Hollywood
The production of modern films is not a cheap pleasure, and film companies try to recoup their costs not only by showing them in cinemas, but, for example, by producing souvenirs.
DreamWorks has an entire consumer goods division that helps recoup the cost of a movie if it fails at the box office.
Film companies recognize that fan-made productions often surpass the official "souvenir" in accuracy and detail.
DC Batman fan model
Many film companies are closely following the development of 3D printed merchandise, but do not yet know how to respond. For example, Paramount Pictures, Marvel Studios and Warner Bros. They themselves began to upload models for 3D printing to the network, before the release of new films.
Weapon Seal
Weapon Seal
24-year-old law student Cody Wilson was the first to make a gun on a 3D printer. Cody designed and 3D printed a combat pistol on his own. After 8 years, the idea of making firearms using 3D printing has not only not died out, but flared up with a bright fire.
It started in Texas in 2012. It was there that the company Defense Distributed was registered, the ideology of which was the development of models of firearms that anyone could make on a home 3D printer.
Guns
Liberator
The first “swallow” was the Liberator - a compact plastic pistol printed on a 3D printer from ABS plastic. The only thing that could not be made on a 3D printer was the striker, which was successfully replaced by an ordinary nail. The first printed pistol was made on a Stratasys Dimension SST 3D printer.
Liberator - the name is borrowed from a cheap pistol that was developed in 1942 in the USA.
The Liberator fired a fairly weak .380 ACP round and could only last a dozen rounds at most.
Failed Liberator
Zig Zag
In the spring of 2014, a video appeared on the Internet with a man shooting from a plastic revolver with a huge drum. The video greatly stirred up all of Japan.
Zig Zag
Unknown was Yoshitomo Imura (Yoshitomo Imura) - 28-year-old employee of the Shonan Institute of Technology.
Despite Imuru's claim that he fired blanks on the tape, he was arrested and sentenced to 2 years in prison.
The Zig Zag design was a reimagining of revolvers popular in the 19th century, which used a rotating .38 caliber barrel block mounted on a pistol grip.
Washbear
In 2015, mechanical engineering student James Patrick posted a video online showing a 3D printed PM522 Washbear in operation.
PM522 Washbear
The PM522 visually resembled a children's pistol from a science fiction movie, but at the same time the pistol had a strong and rigid frame. Washbear is also safer than its predecessors. At rest, the firing mechanism was not in line with the primer, so the PM522 was protected from accidental firing, for example, when dropped. The only metal part was the nail that replaced the striker.
Rifle
Grizzly
Canadian with the nickname CanadianGunNut, ThreeD Ukulele or simply Matthew, inspired by the Liberator project, designed and posted his project - Grizzly.
Grizzly is an ABS+ plastic rifle. It took the Canadian 3 days to design the rifle and another 27 hours to manufacture it using a Stratasys Dimension 1200es industrial 3D printer.
Grizzly 9 Rifle0183
The first version of the Grizzly had a smooth and straight .22 barrel. But this turned out to be not a very good decision, and the barrel cracked after the first shot. Subsequently, Matthew replaced the barrel with a tapered barrel with rifling inside.
Plastic “cutting” could not affect the ballistics of the bullet in any way, but added strength to the barrel.
Shotgun
Liberator 12k
The Liberator 12k is a 12-round shotgun made by a well-known, in narrow circles, enthusiast in the world of 3D printing - Jeff Rodriguez.
Liberator 12k
Rodriguez managed to create a simple and at the same time reliable design, "mixing" a pistol and a pump-action shotgun in the design of the Liberator 12k.
A huge plus for manufacturing and reliability was the absence of small parts in the shotgun mechanism.
Since the plastic was not strong enough, Rodriguez reinforced the design of the Liberator 12k with metal pins and added metal tubes inside the barrel and drum. The metal parts were purchased from a regular hardware store, so anyone could easily make a Liberator 12k with their home 3D printer.
Semi-automatic weapons
Shuty-MP1
The first sign was the Shuty-MP1, a semi-automatic pistol made by an amateur gunsmith with the nickname Derwood, in April 2017.
Shuty-MP1
Shuty AP-9
The Shuty AP-9 still uses a pistol barrel, but the trigger and return spring are taken from the civilian version of the M16. This improved the reliability of the rifle.
Ethical use
Despite the negative examples of application, 3D printing is actively used in many areas, helping to save time and create products that cannot be produced by other methods.
Medicine
Implants
Metal-printing 3D printers are actively used in medicine for the manufacture of titanium implants. For example, a patient needs to have a hip joint implant made. According to the results of CT, the necessary area of bone tissue replacement is agreed with the doctors and a prosthesis model is created that is ideal for this patient. After all approvals, the finished model is sent for printing.
3D model of implant
The main areas of 3D printing of implants in medicine are maxillofacial surgery, traumatology, orthopedics, oncology and veterinary medicine. A big advantage over classical methods of manufacturing implants is the ability to create a cellular or porous structure. This allows for better integration of the prosthesis into the bone tissue.
Samples of printed implants and pins
Dentures
The manufacture of even a relatively simple traction prosthesis is a rather laborious and lengthy process.
3D printing has reduced costs and accelerated the production of prostheses. In addition, it became possible to customize the prosthesis.
Customized child prostheses
Some enthusiasts are modeling and posting models and detailed instructions for assembling traction prosthetic hands and fingers in the public domain so that any user can print and make a prosthesis at home.
Simple Traction Hand Model
Production
Building custom drones
Aerialtronics is a small Dutch company that specializes in building unique, customized drones. Aerialtronics manufactures and develops unique drones, the characteristics of which can vary depending on the needs of the customer.
Initially, a basic concept model was designed, which consists of a platform and a set of elements that can be changed at the request of the customer. Changes can affect almost any part of the drone.
The customer can choose the number of motors and their power, payload, flight time, supported software and much more.
Aerialtronics base model
But any, even minor changes in the characteristics and design of the drone required the manufacture of new elements and design changes. Classical manufacturing methods turned out to be quite laborious and long. To save time and money, a Stratasys uPrint SE Plus 3D printer was purchased.
Drone Assembly
Thanks to 3D printing, it was possible not only to speed up production, but also to devote more time to improving individual components, because the finished model is ready the next morning. Rapid manufacturing allows you to print a part, test it, make the necessary changes to the 3D model and make a new sample. Aerialtronics engineers manage to manufacture and test 8-10 variants of a part in a few days in order to achieve maximum quality.
Prototyping
Gas turbine prototyping.
Prototyping by traditional methods is often time consuming and expensive. Because of this, the price of an error in calculations and 3D modeling can be very expensive.
For example, the production of turbine engine parts is usually based on careful preparatory calculations, but even this does not always prevent errors in the production of a test prototype. After all, even the most modern software methods cannot replace physical tests. But due to the high cost (over $20,000), it becomes impossible to produce multiple prototypes for testing.
Turbine Technologies (Wisconsin, USA) and its subsidiary Kutrieb Research have found a way out - 3D printing. Thanks to the 3D Systems ProJet 3D printer, it was possible to reduce the cost of prototyping by about 10 times to $2,000.
3D model and printed part of turbine
A turbine model is printed on a wax 3D printer, tested and then cast from metal. In addition to the cost, it was possible to significantly speed up production.
