Paige's new 3d printed arm

In May 2016, 3Design was approached by a woman who was searching for a company to 3D print a prosthetic arm for her daughter Paige, who was born without her right hand and forearm. We are a 3D printing studio located in Tauranga, New Zealand, and we had never attempted something like this before. The project was ambitious, and despite our uncertainty over whether we could make the prosthetic, the possibility of helping Paige in any way we could was an opportunity we couldn’t turn away.

Two weeks later, Paige and her mother Genevieve travelled down from Auckland to visit our studio. My business partner and technical director of 3Design, Chad Vorwerk, measured and scanned her left arm and duplicated it into a CAD file so he could start designing her an attachment for her missing forearm and hand on her right arm.

 


designing her an attachment for her missing forearm and hand on her right arm.


Before starting the design, we searched the internet for any files that may be available to download to save time and money. We came across a website called enabling the future that had a number of pre-designed prosthetic limbs ready to download. After spending 80-90 hours printing all the pieces out and assembling it this was the result.





Two weeks ago, we sent Paige’s new arm to her, which was quickly followed by this message from her mother on Facebook.

  

“My daughter was born without her right hand. After my mother in law was just looking online, Rob from 3Design contacted us to arrange a visit/discussion. They were extremely patient while they took measurements & scans of her arm. Not only did they make an amazing arm, they also made it in her favourite colours and at no cost. She is so excited to experience the use of both arms, we cannot thank Rob and Chad enough. A video of what she can do will follow soon. Thank you so much guys, what an awesome company!!!”

We’d like to thank Paige and her family for giving us the opportunity to attempt something we’d never done before. The smile on her face shows how the advancement of 3D printing technology can be life changing.



- Robert Reid, 3Design Managing Director
www.3dinnovation.co.nz

3Design New Zealand secure exclusive 3D printer contract

Creatbot 3D printer manufacture have just signed an exclusive deal with New Zealand Distributor 3Design this week. Creatbot are a manufacture from china who specialize in FDM desk top 3D printers. There solid steel structure 3D printers have proven to be one of the most robust and quality printers coming out of China. 3Design have been retailing Creatbot now for over 2 years, we have been very happy with there Quality and print capabilities.

Creatbot 3d printer have 7 different models available. They are: Creatbot DM, DM Plus, DX, DX Plus, DE, DE plus, DG. They have: 400°C new extruder, 120°C heated bed, metal framework, high precision, single/dual/triple nozzle.

3Design New Zealand steaming ahead
Our team is made up of industry professionals ready to attend our customer’s service requirements. We have over 26 years experience in CAD, Solidworks, Magics, Rino and other software within the industry. 3Design provides 3D training courses for all skill levels from beginner to advanced, and many of our customers have found our teaching methods to be unique and beneficial.

CreatBots build size capabilities are what make these machines stand out from most desk top 3dprinters, with the largest being 600 x 600 x 600. These larger build volumes have given our customers more options to build larger parts when needed.

3Design Website

Contact Details
Technical Director
email: design@3dinnovation.co.nz

Managing Director
email: robert@3dinnovation.co.nz

Showroom hours: Monday to Friday, 8.30am-5.00pm 

Open weekends by appointment only. 

Road front showroom:
74c Maleme Street
Greerton 
Tauranga 3112
New Zealand

Ph: 07 929 7278 
info@3dinnovation.co.nz

Top 10 Benefits of 3D Printing

1. Time-to-Market: 3D printing allows ideas to develop faster than ever. Being able to 3D print a concept the same day it was designed shrinks a development process from what might have been months to a matter of days, helping companies stay one step ahead of the competition.

2. Save Money: Prototyping injection mold tools and production runs are expensive investments. The 3D printing process allows the creation of parts and/or tools through additive manufacturing at rates much lower than traditional machining.

3. Mitigate Risk: Being able to verify a design before investing in an expensive molding tool is worth its weight in 3D printed plastic, and then some. Printing a production-ready prototype builds confidence before making these large investments. It is far cheaper to 3D print a test prototype then to redesign or alter an existing mold.

4. Clear Communication: Describing the product you are going to deliver is often misinterpreted since it leaves construction up to the imagination. A conceptual picture of the product is better than the description since it is worth 1,000 words, but getting to hold the tangible product-to-be, in hand, clears all lines of communication. There is no ambiguity when holding the exact, or at least a very close, representation of the product.

5. Feedback: With a prototype you can test the market by unveiling it at a trade-show, showing it to potential buyers or investors, or raising capital by pre-selling on Indiegogo or Kickstarter. Getting buyers response to the product before it actually goes into production is a valuable way to verify the product has market potential.

6. Get the Feel: One thing you can’t get from a picture or virtual prototype on the computer screen is the way something feels in your hand. If you want to ensure the ergonomics and fit of a product are just right, you must actually hold it, use it and test it.

7. Personalize It: With standard mass-production, all parts come off the assembly line or out of the mold the same. With 3D printing, one can personalize, customize and tweak a part to uniquely fit their needs, which allows for custom fits in the medical and dental industries and helps set people apart in the fashion and jewelry world.

8. Build your Imagination: In the modern boom of digital art and design, the possibilities are not only accelerating but limitless. One can now 3D print almost anything they imagine after drawing it up virtually. In a relatively short time, an idea, concept, dream or invention can go from a simple thought to a produced part that you can hold.

9. Square Holes?… No Problem: The limitations of standard machining have constrained product design for years. With the improvements in additive manufacturing, now the possibilities are endless. Geometry that has been historically difficult or impossible to build; like holes that change direction, unrealistic overhangs, or square interior cavities, is now possible and actually simple to construct.

10. Fail Fast, Fail Cheap: Being able to test ideas quickly and discover what doesn’t work accelerates discovery leading to an ideal solution. 3D printing allows a product developer to make breakthroughs at early stages that are relatively inexpensive leading to better products and less expensive dead-ends.

For more information on 3D printing call us today 

www.3dinnovation.co.nz

Road front showroom:
74c Maleme Street
Greerton
Tauranga 3112
New Zealand

Ph: 07 929 7278
info@3dinnovation.co.nz

Cubicon plug n play 3D printer review

Here is a video review on the cubicon single 3d printer

Source 3design New Zealand 

3Designs new look trade me store

3Design New Zealand have been selling 3d printers on Trade me for over four years now and it still accounts for a large percentage of our company sales,In the early days of setting up our business it was very hard for us to determine which direction we needed to go as 3D printing in general was very new.Trade me gave us the ability to expose our brand and services nationally while we developed our brand behind the scenes. The great thing for us was being able to sell our products through a trusted channel for an affordable price while we found our feet. Four years on and 300 reviews later our business on trade me is still growing,

Check out our all new trade me store!

Click here

New 3D printer farm being build in New Zealand

Most people think of 3D printing as a prototyping technology rather than a production technology. That is, they would never think to use it for making large batches of end use parts. And most of the time they’d be completely right.

However, there are some interesting circumstances when the most common and cost effective method of 3d printing (fused deposition modelling) is actually the best choice of production technology.

Of the dozen common methods of plastic manufacturing, 3d printing offers its own unique set of advantages and disadvantages.

Products produced from 3Designs 3D printer farm 

3Design has set up New Zealand's first 3D printer farm to accommodate businesses who want small runs of custom made products with out the large price tag. They have set out to create a mini factory that with the goal to have 30 x 3d printers by mid April next year. ( 2017 )  ential testing has taken place over the past few months with amazing results.

3D printing favors customization and is excellent for small quantity batches. It allows you to make parts with as much variety and complexity as you want at no additional cost. It allows you the flexibility of changing a product after production has started, also at no extra cost.

For More information on 3Design please see details below 

Technical Director
email: design@3dinnovation.co.nz

Managing Director
email: robert@3dinnovation.co.nz

Showroom hours: Monday to Friday, 8.30am-5.00pm

Open weekends by appointment only.

Road front showroom:
74c Maleme Street
Greerton
Tauranga 3112
New Zealand

Ph: 07 929 7278
info@3dinnovation.co.nz

3D printer maintenance

• Maintenance. A well treated 3D printer should give you years of trouble-free printing. Here are some suggestions on how to keep your pet 3D printer well maintained.

1. Oil your X, Y, and Z rods.  I do this about once a month.  
2. Periodically tighten nuts and bolts.  Again, monthly.
3. Periodically test and tighten belt tension.  I check and adjust belt tension rarely – usually only after I see a printing problem develop.
4. Periodically test your filament tension.  Too tight and you’re putting extra strain on the extruder motor.  Too loose and you’re not really getting the best extrusion possible.  As plastic filament actually has a slight variation in its diameter, this is something I monitor whenever I am printing.  It’s partially a way for me to fuss over my robot as it is happily printing away.  If I notice that the extrusion is suddenly too thin, a quick adjustment to the filament tension screw will fix this.  I’ve heard that adding a second nut to the filament tension screw prevents the screw from loosening slightly over time.
5. Repair or replace.  Having a 3D printer means that if a part breaks or wears out you can actually replace it.  Just accept the fact you’re going to bend, pop, snap, crackle, or pop a part.  When that happens you’ll need to rig or hack a temporary solution while you print up a replacement part.  One benefit to a solid plastic replacement part to a component that’s assembled out of layered plastic and/or plywood is that there are no parts to loosen over time.
6. Floss extruder gear.  Use something soft-ish like a toothpick to pop the plastic bits out of the gear’s teeth.
7. Keep firmware updated.  firmware has come a long way and I’m pretty sure it to go even further. 
8. Keep software updated. Software is constantly under development.
9. Replace warped build platforms or build surfaces.  A flat even build surface will ensure nice flat builds without having to worry about the extruder head crashing into the platform.
10. Keep your plastic in a cool, dry place.  As mentioned above, the filament’s diameter can very slightly.
11. Check wire connections on any moving axes.  The cable clips attaching motors, endstops, and various other bits to the XY stages can work themselves loose after time.  I check these whenever I see that a cable might be working itself loose.

3Design specialise in high quality Servicing and Repair of 3D Printers via our Tauranga 3D Printer Service Centre.

We have many years experience in 3D Printer Service and Repair and have used this expertise to set up the Tauranga 3D Printer service center capable of servicing up to 25 machines a week.

We specialise in, and stock parts for

Createbot , Mankati,Wanhao,Cubicon.

Getting your Machine to us

DROPPING OFF YOUR MACHINE
You can drop your machine off at our shop (Note: Machines must be booked in)

Road front showroom:
74c Maleme Street
Greerton
Tauranga 3112

COURIER COLLECTION
We can also arrange collection (via NZ couriers), and return delivery. Costs are usually $50 for Nationwide, Contact us for a full quote and PACKING INSTRUCTIONS - Proper packing is important to ensure your machine does not suffer expensive damage during transit 

SERVICE COSTS
We charge a $115 initial inspection and service fee (per machine). Cost may vary depending on machine type and complexity. This includes initial diagnostics, and a clean, alignment, lubrication and general service. 

for information contact us here  

10 free 3D printing software downloads

3D print models are typically distributed in a file format called STL. 3D printer slicer software is needed to convert an STL file into G-code, language which can be understood by a 3D printer. It’s called a slicer because that’s literally what it does; it chops up the 3D model into thousands of flat 2D layers that the 3D printer can fabricate as a physical object.

Cura is the standard slicer software for all Ultimaker 3D printers, but it can also be used with most other 3D printers, including RepRap, Makerbot, Printrbot, Lulzbot, and Witbox. It’s fully open source and can be extended via a plugin system.

This 3D printing software is very easy to use and allows you to manage the most important 3D print settings in a clear interface. Start in “Basic” mode for rapid onboarding, where you can choose reconfigured printer quality settings. When you need more precise control over the print quality settings, switch to over “Expert” mode.

You can also use Cura as 3D printer host software for direct control over your machine, but the 3D printer needs to be connected to the PC for the duration.

10 free 3D printing software downloads # 1  Cura

10 free 3D printing software downloads # 2 Craftware

10 free 3D printing software downloads # 3 1233D

10 free 3D printing software downloads # 4 3dslash

10 free 3D printing software downloads # 5 Tinkercad

10 free 3D printing software downloads # 5 3Dtin

10 free 3D printing software downloads # 6 sculptris

10 free 3D printing software downloads # 7 viewstl

10 free 3D printing software downloads # 8 repetier

10 free 3D printing software downloads # 9 FreeCad

10 free 3D printing software downloads # 10 sketchup

For information on 3D printing see 3Designs details below 

Contact Details

Technical Director

email: design@3dinnovation.co.nz

Managing Director

email: robert@3dinnovation.co.nz

Showroom hours: Monday to Friday, 8.30am-5.00pm 

Open weekends by appointment only. 

Road front showroom:

74c Maleme Street

Greerton 

Tauranga 3112

New Zealand

Ph: 07 929 7278 

info@3dinnovation.co.nz

How to make ABS juice for your 3D printer bed

1. Use a small glass jar with an air tight lid. You can find these at most hobby shops. Empty nail polish bottles also work by they are small.
2. Fill about half way with straight acetone (or however much you’d like if you’re using a larger jar).
3. Add ABS. ABS takes time to completely dissolve in acetone, so the smaller amount you use the quicker the results. We like to simply print a one-layer thick square sheet (or just start any print and stop it after the first layer), and then cut it into pieces. Snipping small pieces off the end of your filament works too, but it’ll just take more time to dissolve.
4. Wait and stir. Repeat until all the ABS is dissolved.
5. There’s no perfect ratio of ABS to acetone. Just use less ABS to make a thinner solution (great for surface finishing), or more ABS for a thicker solution (great for bonding or mending parts).
6. Bonding small parts together to create larger or more intricate ones (it’s just a bit easier to apply than straight acetone).
7. Improving the surface finish of your part (simply paint it on or dip your part into it).
8. Mending cracks in your parts (if you don’t feel like reprinting/redesigning them).
9. Use it as an adhesive on your heated bed plate to prevent lifting/shrinkage of your ABS part.

View our you tube video tutorial here

for more tips and tricks on 3d printing view our website tips and tricks here 

Contact Details

Technical Director

email: design@3dinnovation.co.nz

Managing Director

email: robert@3dinnovation.co.nz

Showroom hours: Monday to Friday, 8.30am-5.00pm 

Open weekends by appointment only. 

Road front showroom:

74c Maleme Street

Greerton 

Tauranga 3112

New Zealand

Ph: 07 929 7278 

info@3dinnovation.co.nz

Cheap 3D printers good or bad for the industry?

Another cheap 3d printer is set to be released on the market in October retailing for a low price of $249 USD The new Da Vinci Mini is another 3d printer targeting the rapidly growing 3d printer market. XYZ are well known in the 3D printing industry for their low cost 3d printers. Personally my experience with these printers has not been very pleasant but there affordable price tag makes their 3d printers appealing to consumers. I often ask myself is this doing more damage to the industry then good? Are consumers expectations in line with the current technology available at this price?

Last year our company tested 6 or more 3d printers that were in the price range of $300 to $800, they all claimed to be plug & play consumer ready products, however after weeks of testing we thought differently. Two of the six (M3D, ICEMAN 3D) printers produced a number of Quality prints then soon started failing and eventually ended up  in the bone yard with the others.As a 3d printer retailer I'm always hunting for new products to offer my customers if a printer doesn't work for me then it's going to work for them! The larger retail chains are offering cheap printers but are they really worth buying?

The trouble is that people who don’t understand all of the common problems most cheap printers have, think that price point for a decent machine is too high, but for small production runs, there really isn’t any comparison.I hope that as the consumer market matures, customers will look to higher quality machines that may be a little more expensive, but will save them huge amounts of time and stress.

In Conclusion…

Before buying a cheap 3d printer always ask yourself these questions! 

1: What type of support are you getting? 

2: Does it come with a warranty? 

3: Ask to view Sample Prints, Print Quality, and Capabilities

4: look at Specs, Construction,

5: build size ( most cheap printers have a small print volume does this suit what you will be using it for?

For more information on Cheap 3D printers see details below 

Road front showroom:
74c Maleme Street
Greerton
Tauranga 3112
New Zealand
Ph: 07 929 7278 

www.3dinnovation.co.nz

info@3dinnovation.co.nz

Premium 3dprinting filament New Zealand

Premium Quality 3D Printer filament

New zealand based 3d printing company 3design sell some of New zealand's best premium quality 3d filaments. This innovative company is leading the way by supplying consumers with the best products possible and are getting a reputation for doing so.

PLA is made from renewable natural resources, making it the most environmentally friendly 3D printing material available. It also has one of the most appealing printing profiles allowing for printing at low temperatures and high speeds while maintaining a high level of detail and exceptional print quality.Our PLA complements its favorable material profile with more than 10% higher tensile strength than other leading brands. Additionally, our material maintains our quality-first approach with consistent best-in-class cpk’s, meaning less troubleshooting and more printing.

Available in 1.75mm or 3mm 1kg (2.2lb) spools

ABS is a multipurpose material that is great for printing functional parts that require durability and moderate heat resistance. It is less brittle than PLA and is very tolerable to post-processing for smooth and glossy finishes. Our ABS possesses industry leading impact strength that is ideal for use when a rigid material with impact strength is mandated. Suggested Applications: parts requiring structural integrity and detail, parts requiring rigidity and impact resistance.

Available in 1.75mm or 3mm 1kg (2.2lb) spools

Please state what size and type of filament you are after upon purchase.

For more information on the filaments visit:

Www.3dinnovation.co.nz