3D printed catapult


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Gambody STL files of MWO Catapult for 3D Printer

This 3D model consists of files in StereoLithography (. Stl) format that have been optimized for 3D printing.

Before printing the files, we strongly recommend reading the PRINTING DETAILS section.

Version 4 and Version 5 are the new files for Catapult MWO 3D Model optimized for 3D printing, the preview pictures of which you see above.

It is recommended:

  • Version 1 STL files on FDM/FFF 1.0 3D printers - old version with old joints;
  • Version 2 STL files on FDM/FFF 2.0 3D printers - old updated version;
  • Version 3 STL files on FDM/FFF 3.0 3D printers - new version with new scale and new joints;
  • Version 4 STL files on FDM/FFF 3.1 3D printers - new version of knee joints;
  • Version 5 STL files on DLP/SLA/SLS 1.0 3D printers - new version with new scale and new joints.
version: FFF/FDM 1.0 version: FFF/FDM 2. 0 version: FFF/FDM 3.0 version: DLP/SLA/SLS 1.0 version: FFF/FDM 3.1
File Name File Size Time / Filament Object Size
(x/y/z mm)
G (repaired).stl
0.42 MiB 30 min
53 x 12 x 21
LL_2 (repaired). stl
4.53 MiB 6 h 54 min
4 m
38 x 87 x 56
LL_3 (repaired).stl
4.15 MiB 4 h 2 min
2 m
29 x 73 x 39
LL_5 (repaired). stl
0.36 MiB 19 min
19 x 19 x 10
LL_6 (repaired).stl
0.45 MiB 33 min
27 x 27 x 9
LR_2 (repaired). stl
4.53 MiB 6 h 54 min
4 m
38 x 87 x 56
LR_3 (repaired).stl
4.15 MiB 4 h 1 min
2 m
29 x 73 x 39
LR_5 (repaired). stl
0.36 MiB 20 min
19 x 19 x 10
LR_6 (repaired).stl
0.45 MiB 33 min
27 x 27 x 9
ML_1 (repaired). stl
8.23 MiB 15 h 19 min
10 m
45 x 72 x 75
ML_4 (repaired).stl
0.60 MiB 31 min
23 x 23 x 11
MR_1 (repaired). stl
8.23 MiB 15 h 20 min
10 m
45 x 72 x 75
MR_4 (repaired).stl
0.60 MiB 31 min
23 x 23 x 11
T_2 (repaired). stl
3.97 MiB 8 h 49 min
5 m
66 x 65 x 38
T_4 (repaired).stl
1.58 MiB 4 h 35 min
3 m
39 x 41 x 46
T_5 (repaired). stl
3.99 MiB 2 h 39 min
2 m
48 x 49 x 45
T_6 (repaired).stl
3.99 MiB 2 h 40 min
2 m
48 x 49 x 45
LL_4 (repaired). stl
0.68 MiB 29 min
17 x 17 x 33
LR_4 (repaired).stl
0.68 MiB 29 min
17 x 17 x 33
T_1 (repaired). stl
6.97 MiB 8 h 13 min
4 m
68 x 59 x 54
T_3 (repaired).stl
7.23 MiB 17 h 53 min
10 m
76 x 67 x 122
LL_1 (repaired). stl
2.03 MiB 5 h 37 min
3 m
55 x 90 x 37
LR_1 (repaired).stl
2.03 MiB 5 h 37 min
3 m
55 x 90 x 37
ML_2 (repaired). stl
0.81 MiB 1 h 37 min
1 m
39 x 51 x 17
MR_2 (repaired).stl
0.81 MiB 1 h 37 min
1 m
39 x 51 x 17
ML_3 (repaired). stl
0.45 MiB 25 min
8 x 56 x 8
MR_3 (repaired).stl
0.45 MiB 25 min
8 x 56 x 8

Version 1

Mech Warrior Catapult 3D model is a fictional combat vehicle that is extremely popular among the gamers fanbase due to the increased popularity of the video game itself. The action takes place in a BattleTech universe, with robotic vehicles taking part in battles. Players are free to customize their battle warrior as the game progresses. The fact that makes the game so interactive is that the player can add more powerful weapons and equipment to its large bipedal combat vehicle. This heavy warrior is known to hold the enemy far by raining down fire from its blistering amount of missile.

This MWO 3D print model for printing features all the game graphics, but with the 3D modeler’s own approach to the design. It consists of two arms, 1 mech module slot, 2 weapon module slots and 2 consumable module slots. The model is fully movable with articulated arms and legs. 2 missile launchers are positioned to the left and right of the warrior’s torso. The torso of our 3D model twists at 360°.

The assembly 3D model consists of 27 parts. The largest part is 90mm long/wide. All parts are no more than 122mm tall and designed to fit 18*19cm print bed. The model is optimized to be printed on all types of 3D printers: SLA/SLS and FFF. It is a High-Poly model made up of 741506 polygons, creating an accurate surface detailing.

The 3D printable files are available in STL file format. They have been thoroughly checked in Netfabb and have been created in CURA 15.06 and Repetier Host. All files measure 72.7MB.

Size of 3D printed MWO Catapult 

The size of the model in assembly form is 143mm deep, 176 mm wide, and 250mm tall. The 3D modeler spent more than 100 hours to design this BattleMech Catapult model to perfection.

Buy Catapult 3D model for printing. Hit the “Buy” button; provide your PayPal account or credit card information at checkout and download one of the most accurately designed 3D models of Catapult battle warrior.

Bring the BattleTech universe into the real world with the Catapult 3D print model! 

Version 2

We optimized and upgraded Mech Warrior Catapult 3D model as follows:

  1. All articulations have been modified, to ensure greater workability of the model.
  2. Torso has undergone several design modifications, to facilitate mounting of weapon add-ons which are available for download.
  3. Cabin has a new look now, featuring a front nose.
  4. The foot pedals have been made articulated as well. 
  5. The upgraded Mech Warrior Catapult 3D model consists of 36 parts, as compared to the previous one, which was made of 27 parts.

Read the detailed description of the upgraded MWO 3D model, with pictures and tips about assembling. 

Update 20.07.2016: The articulation mechanism for the Catapult joints has undergone some new modifications. Click HERE to see it and read how to assemble it correctly.

On 26.12.2016 the model files have been optimized and made solid. They now are adapted to be 3D printed using any slicing program. 3D model files are already available for purchase and download. 

Version 3,4
On 01.
11.2017 new scale and new version of joints have been added.
 

Now, the 3D Model of Catapult is available in two scale: 1/60 for Version 3 (FDM/FFF) and 1/100 for Version 4 (DLP/SLA/SLS).

There are 36 parts in Version 3 (FDM/FFF) and 8 parts for Version 4 (DLP/SLA/SLS).

Version 3 (FDM/FFF):
- Is 1:60 scale and after being printed will stand 257 mm tall, 172.5 mm wide, 149 mm deep;
- Made with new joints;
- All movable elements of the Mech were saved.

Version 4 (DLP/SLA/SLS):
- Is 1:100 scale and will stand 167 mm tall, 106 mm wide, 88 mm deep;
- Made with new joints;
- All movable elements of the Mech were saved;
- Has as few details as possible to keep printing costs down.

With new joints from Version 3 and Version 4 you will get next advantages:
1. Increases frictional force;
2. Possible to up scale or down scale the whole model;
3. Printable from any type of material;
4. Higher strength;
5. Material shrinkage does not affect at strength and friction.

STL files with new scale and new joints are already available for download in “Source files” tab for:
- Version 3 - STL files on FDM/FFF 3D printers;
- Version 4 - STL files on DLP/SLA/SLS 3D printers.

Watch the tutorial video on how to assemble Catapult MWO 3D Printing Miniature at Gambody YouTube channel. 

________________________

On 21.09.2018 new
knee joints have been added.

Now the Catapult 3D model has new, more durable knee joints to improve the model’s stability. They reliably fix and allow changing the model’s pose. Due to the improved durability, the joints do not wear off because of frequent changes in the model’s pose. The new knee joints are simpler to print and better fit the overall design and appearance of the model. They are also completely replaceable, and you don’t have to reprint the whole model to replace one of these parts.

Now this model contain parts of Locks. One part of Lock (37_Ge_lock_10H_(x4)) you need to print 4 times.

STL files with new joints are already available for download in “Source files” tab FFF/FDM 3.1 Version.

_______
FAQ: 

Where can I print a model if I have no printer?
How to get started with 3D printing?
How to set up my 3D printer?
How to choose right 3D model print bed positioning? 
How to paint printed figurine?

This model was tested in Cura 3.4.1 and printed on an Ultimaker 2 in PLA material.  Below you can find printing recommendations for Cura, Simplify3D and Slic3r softwares.

Cura printing recommendations:

Note:

- You can print new joints from Version 3 and Version 4 with 20-30% infill. 
- With the new joints from Version 3 and Version 4 you can up scale or down scale the whole model.

- All parts of connectors should be printed at 100% infill.

Recommendations: For all parts of Locks you need to change "Brim" type to "Skirt" in Build Plate Adhesion section.

To avoid printing problems, we recommend the following settings:

Quality
Layer Height: 0.1 mm
Initial Layer Height: 0.3 mm
Line Width: 0.4 mm
 Wall Line Width: 0.4 mm
   Outer Wall Line Width: 0.4 mm
   Inner Wall(s) Line Width: 0.4 mm
 Top/Bottom Line Width: 0.4 mm
 Infill Line Width: 0.4 mm
 Skirt/Brim Line Width: 0.4 mm
Support Line Width: 0.4 mm
 Initial Layer Line Width: 100%

Shell
Wall Thickness: 0. 8 mm
    Wall Line Count: 2
Outer Wall Wipe Distance: 0.2 mm
Top Surface Skin Layers: 0
Top/Bottom Thickness: 0.8 mm
   Top Thickness: 0.8 mm
      Top Layers: 8
    Bottom Thickness: 0.8 mm
      Bottom Layers: 8
Top/Bottom Pattern: Lines
Bottom Pattern Initial Layer: Lines
Top/Bottom Line Directions: [ ]
Outer Wall Inset: 0 mm
Compensate Wall Overlaps: Check
    Compensate Outer Wall Overlaps: Check
    Compensate Inner Wall Overlaps: Check
Fill Gaps Between Walls: Everywhere
Filter Out Tiny Gaps: Check
Horizontal Expansion: 0 mm
Initial Layer Horizontal Expansion: 0 mm
Z Seam Alignment: Sharpest Corner
Seam Corner Preference: Hide Seam
Ignore Small Z Gaps: Check
Extra Skin Wall Count: 1

Infill
Infill Density: 20%
Infill Line Distance: 4.0 mm
Infill Pattern: Grid
Infill Line Directions: [ ]
Infill X Offset: 0 mm
Infill Y Offset: 0 mm
Infill Overlap Percentage: 10%
    Infill Overlap: 0. 04 mm
Skin Overlap Percentage: 5%
    Skin Overlap: 0.02 mm
Infill Wipe Distance: 0.1 mm
Infill Layer Thickness: 0.1 mm
Gradual Infill Steps: 1
Gradual Infill Steps Height: 1.5 mm
Infill Before Walls: Check
Minimum Infill Area: 0 mm2
Skin Removal Width: 0.8 mm
    Top Skin Removal Width: 0.8 mm
    Bottom Skin Removal Width: 0.8 mm
Skin Expand Distance: 0.8
    Top Skin Expand Distance: 0.8
    Bottom Skin Expand Distance: 0.8
Maximum Skin Angle for Expansion: 90˚
    Minimum Skin Width for Expansion: 0.0

Material
Initial Layer Flow: 100%
Enable Retraction: Check
Retraction Extra Prime Amount: 0 mm3
Retraction Minimum Travel: 0.8 mm
Maximum Retraction Count: 90
Minimum Extrusion Distance Window: 6.5 mm
Nozzle Switch Retraction Distance: 16 mm
Nozzle Switch Retraction Speed: 20 mm/s
    Nozzle Switch Retract Speed: 20 mm/s
    Nozzle Switch Prime Speed: 20 mm/s

Speed 
Print Speed: 45 mm/s
    Infill Speed: 45 mm/s
    Wall Speed: 22. 5 mm/s
      Outer Wall Speed: 22.5 mm/s
      Inner Wall Speed: 45 mm/s
    Top/Bottom Speed: 15 mm/s
Travel Speed: 45 mm/s
Initial Layer Speed: 22.5 mm/s
  Initial Layer Print Speed: 22.5 mm/s
  Initial Layer Travel Speed: 30 mm/s
Skirt/Brim Speed: 30 mm/s
Maximum Z Speed: 0 mm/s
Number of Slower Layers: 2

Travel 
Combing Mode: All
Avoid Printed Parts when Traveling: Check
Travel Avoid Distance: 0.625 mm
Layer Start X: 0.0 mm
Layer Start Y: 0.0 mm

Cooling 
Enable Print Cooling: Check
Fan Speed: 100%
    Regular Fan Speed: 100%
    Maximum Fan Speed: 100%
Regular/Maximum Fan Speed Threshold: 10 s
Initial Fan Speed: 0%
Regular Fan Speed at Height: 0.3 mm
    Regular Fan Speed at Layer: 2
Minimum Layer Time: 5 s
Minimum Speed: 10 mm/s

Support 
Generate Support: Check
Support Placement: Everywhere
Support Overhang Angle: 45°
Support Pattern: Zig Zag
Connect Support ZigZags: Check
Support Density: 15 %
    Support Line Distance: 2 mm
Support Z Distance: 0. 2 mm
    Support Top Distance: 0.2 mm
    Support Bottom Distance: 0.2 mm
Support X/Y Distance: 1 mm
Support Distance Priority: Z overrides X/Y
Minimum Support X/Y Distance: 0.25 mm
Support Stair Step Height: 0.3 mm
Support Stair Step Maximum Width: 5.0 mm
Support Join Distance: 2.0 mm
Support Horizontal Expansion: 0.2 mm
Support Infill Layer Thickness: 0.1 mm
Gradual Support Infill Steps: 0
Use Towers: Check
Tower Diameter: 3.0 mm
Minimum Diameter: 3.0 mm
Tower Roof Angle: 65°

Build Plate Adhesion 
Build Plate Adhesion Type: Brim (for all parts of locks use "Skirt")
Skirt/Brim Minimum Length: 250 mm
Brim Width: 8.0 mm
    Brim Line Count: 18
Brim Only on Outside: Check

Mesh Fixes 
Union Overlapping Volumes: Check
Merged Meshes Overlap: 0.15 mm

Special Modes
Print Sequence: All at Once
Surface Mode: Normal

Experimental
Slicing Tolerance: Middle
Maximum Resolution: 0. 01 mm
Flow rate compensation max extrusion offset: 0 mm
Flow rate compensation factor: 100%

Disclaimer: This model will look outstanding if printed on SLA/SLS 3D printer. The accuracy of the model printed on FFF printer can vary from the result shown in the pictures.

Simplify3D printing recommendations:

This model was tested with PLA material.

To avoid printing problems, we recommend the following settings:

Extruder
Nozzle Diameter: 0.4 mm
Extrusion Multiplier: 0.97
Extrusion Width: Auto

Retraction Distance: 5.00 mm
Extra Restart Distance: 0.00 mm
Retraction Vertical Lift: 0.08 mm
Retraction Speed: 5400.0 mm/min

Wipe Distance: 5.00 mm

Layer
Primary Layer Height: 0.2 mm
Top Solid Layers: 8
Bottom Solid Layers: 5
Outline/Perimeter Shells: 2
Outline Direction: Inside-Out

First Layer Height: 90%
First Layer Width: 100%
First Layer Speed: 20%

Additions
Use Skirt/Brim: Check
Skirt Layers: 1
Skirt Offset from Part: 6. 00 mm
Skirt Outlines: 5

Infill
Internal Fill Pattern: Fast Honeycomb
External Fill Patern: Rectilinear
Interior Fill Percentage: 10%
Outline Overlap: 22%
Infill Extrusion Width: 100%
Minimum Infill Length: 5.00 mm
Combine Infill Every: 1 layers

External Infill Angle Offsets: 45/-45 deg

Support
Generate Support Material: Check
Support Infill Percentage: 15%
Extra Inflation Distance: 1.00 mm
Support Base Layers: 0
Combine Support Every: 1 layers

Dense Support Layers: 0
Dense Infill Percentage: 70%

Support Type: Normal
Support Pillar Resolution: 5.00 mm
Max Overhang Angle: 60 deg

Horizontal Offset From Part: 0.50 mm
Upper Vertical Separation Layers: 1
Lower Vertical Separation Layers: 1

Support Infill Angles: 45 deg

Temperature
Extruder 1 Temperature: 210
Heated Bed: 60

Cooling
Increase fan speed for layers below: 45. 0 sec
  Maximum Cooling fan speed: 50%
Bridging fan speed override: 100%

Speeds
Default Printing Speed: 4800.0 mm/min
Outline Underspeed: 50%
Solid Infill Underspeed: 80%
Support Structure Underspeed: 80%
X/Y Axis Movement Speed: 10800.0 mm/min
Z Axis Movemen Speed: 1002.0 mm/min

Adjust printing speed for layers below: 15.0 sec 
  Allow speed reduction down to: 20%

Other
Unsupported area threshold: 20.0 sq m

Slic3r printing recommendations:

Layer height
  Layer height: 0.1 mm
  First layer height: 90%
Vertical shells
  Perimeters: 2
Horizontal shells
  Soid layers: 
              Top: 8
              Bottom: 5
Quality
  Detect thin walls: Check
  Detect bridging perimeters: Check
Advanced
  Seam position: Random
Infill
  Fill desity: 20%
  Fill pattern: Honeycomb
  Top/bottom fill pattern: Rectilinear
Reducing printing time
  Combine infill every: 1 layers
Advanced
  Solid infill every: 0 layers
  Fill angle: 25 deg
  Solid infill threshold area: 0mm
Skirt
  Loops: 2
  Distance from object: 6 mm
  Skirt height: 1 layers
  Minimum extrusion length: 4 mm
Brim 
  Brim width: 10 mm
Support material
  Generate support material: Check
  Overhang threshold: 45 deg
  Enforce support for the first: 3 layers
Raft
  Raft layers: 0 layers
Options for support material and raft
  Contact Z distance: 0. 1 mm
  Pattern: Rectilinear
  Patter spacing: 2 mm
  Pattern angle: 0 deg
  Interface layers: 2 layers
  Interface pattern spacing: 0.2 mm
Speed for print moves
  Perimeters: 60 mm/s
  Small perimeters: 20 mm/s
  External perimeters: 20 mm/s
  Infill: 60 mm/s
  Solid infill: 60 mm/s
  Top solid infill: 30 mm/s
  Support material: 50 mm/s
  Support material interface: 100%
  Bridges: 30 mm/s
  Gap fill: 50 mm/s
Speed for non-print moves
  Travel: 60 mm/s
Modifiers
  First layer speed: 30 mm/s
Acceleration control
  Perimeters: 800 mm/s
  Infill: 1500 mm/s
  Bridge: 1000 mm/s
  First layer: 1000 mm/s
  Default: 1000 mm/s
Autospeed
  Max print speed: 100 mm/s
  Max volumetrix speed: 0 mm/s
Extrusion width
  Default extrusion width: 0.42 mm
  First layer: 0.42 mm
  Perimeters: 0. 42 mm
  External perimeters: 0.42 mm
  Infill: 0.42 mm
  Solid infill: 0.42 mm
  Top solid infill: 0.42 mm
  Support material: 0.42 mm
Overlap
  Infill/Perimeters overlap: 20%
Flow
  Bridge flow ratio: 0.95
Other
  XY Size Compensation: 0 mm
  Threds: 8
  Resolution: 0 mm

Top 20 3D printed toys

Why 3D print toys? What toys can be 3D printed? 1. Mini monster truck 2. Surprise eggs 3. Gliders with elastic band 4. Folding sword 5. Micro catapult 6. Spinning top 7. Moving animals 8. Spirograph 9. Transformers 10. Toy tool set 11. Castle 12. Lego bricks 13 14. Edible toys 15. Anti-stress keychain 16. Chunky Trucks set 17. Sword rattles 18. Vikings Squigglepeeps 19. Math Spinner 20. Jumping Turtles Results

Today, 3D printing is developing and spreading very rapidly, gaining more and more popularity. And no wonder, because 3D printing is an invaluable tool for prototyping designs, creating mockups, fabricating parts, and more. At the same time, it is no longer difficult to buy a 3D printer at an affordable price even for home use. However, a 3D printer is not only a tool, it is also a kind of toy. A toy capable of creating other toys! Using a 3D printer to make toys gives you control over the material, color, size and other components, so the models you create with 3D printing will be unique!

But what if you don't have your own 3D printer and you need to print a toy or some part of it? It doesn't matter, in this case our 3D printing studio will help you! You only need to place an order by uploading the file of the desired finished model, after which our specialists will contact you to calculate the cost and resolve other possible issues.

Why 3D printed toys?

This is probably the first question that comes to mind, and it is not surprising, because often 3D printing can cost you more than the cost of such a toy in the store. But there are also a number of advantages of 3D printing, as well as cases when it would be more profitable and appropriate to turn to creating models on a 3D printer.

  • As already mentioned, a toy printed on a 3D printer can be absolutely unique due to the ability to give it exactly the shapes, sizes and colors that you and your child want.
  • Some toys can be difficult to find in the store, and their cost may exceed the cost of their printed copy.
  • Sometimes you only need to replace one or a few broken or missing parts of a toy, such as a building toy. In this case, it will be much more profitable and more expedient to use a 3d printer than to buy a whole set for a high price.
  • An important factor is, of course, the impressions of the 3d printing process itself, which will captivate both a child and an adult. And the positive emotions of your child from the toy you created will be the best reward!
  • And for those who are just getting acquainted with their printer and 3d printing in general, the process of creating toys will be an excellent, exciting simulator to improve their skills and gain experience.

Which toys can be 3D printed?

In the context of constant development and increase in the possibilities of 3D printing technology, you can create almost any toy on a 3D printer, but the result largely depends on the capabilities of your device, your abilities, as well as the time, resources and effort that you are willing to devote to this process. Therefore, more or less simple projects are most often created on a 3D printer. But the relative ease of manufacture does not mean boring finished products! Below we will give you a list of 20 interesting 3D printed toys that are not particularly difficult to create. Among these crafts you will find toys for children of all ages, including the smallest: mechanical products, motion figures, building blocks and even rattles! For each toy from the list, we leave a link to the finished model so that you can try them yourself. So let's get to know them better!

1. Mini monster truck

Two monster trucks. Source: Thingiverse

Not everyone can afford a monster truck, but if you have a 3D printer, you can print yourself a mini copy of it... which is almost as cool. Thanks to the all-printed suspension and removable discs that attach easily and without the aid of glue to the body, this truck is perfect straight from the printed surface.

You can even choose from a variety of body styles and wheels. And for a two-tone tire, stop printing the wheel at 19.8 mm and replace the filament.

Model files for download can be found here.

2. Surprise eggs

Surprise! Source: Twitter

Bigger is not always better. And often the most interesting thing is just a small size, and these 3D printed eggs with a surprise are an example of this.

These tiny cars with moving wheels and other accessories are amazing! Plus, you have plenty to choose from, as you can print surprise eggs with just about anything inside, be it a fire truck or even a fighter plane!

No support required for these models. We advise you to use at least 40% infill to make sure that small elements are both beautiful and durable. Given the number of such tiny parts these machines have, be prepared that printing them can be a real challenge for you, but with good calibration and fine tuning of your machine, everything will work out in the best way!

3. Elastic Gliders

Get ready to take off! Source: Thingiverse

With 3D printed gliders you will be able to “pull out” even more fun from ordinary rubber band ! Just 3 simple steps, and your glider will take off: hook it with an elastic band, pull it towards you and release it.

With this model on Thingiverse, you and your friends can take to the skies a whole fleet of these rubber gliders!

100% infill and a layer height of 0.1 mm are recommended for greater aircraft strength and longer life for thin wings.

4. Folding sword

Telescopic pirate sword. Source: Thingiverse

This toy may not be best given to a child when there are breakable items nearby. But in the right environment, telescopic swords will bring tons of fun and enjoyment to kids! From the designer of this folding pirate sword, you can also find models of telescopic katana, daggers and even lightsabers!

This Telescopic Pirate Sword is designed for printing at low speed using a 0.4mm nozzle. Also, successful printing requires a printer with a good retract and precise settings for Coast (turning off extrusion at the end of the layer print) and Wipe (“wiping” the nozzle at the end of the layer).

5. Micro Catapult

Hit all your enemies (or at least your deskmates). Source: Thingiverse

This little catapult is a great toy for kids and bored office workers alike. She can throw small crumpled pieces of paper and any other small things that will fit in her. Selected ammunition can fly about 2 meters, which is enough to hit unsuspecting victims at another table!

This model is an all-printed prefabricated assembly that does not require any supports or special adjustments. A minimum filling and layer height of 0.25 mm is sufficient.

Despite the fact that many catapults are made from PLA plastic, the author of the design still insists that this model is not for PLA, but for ABS plastic. We can also recommend PETG filament for this printing, which has the best qualities of PLA and ABS.

6. Top

The oldest toy for the whole family. Source: Thingiverse

As far as we know, the spinning top is one of the oldest toys in the world. In ancient times, tops were made from almost any material: from stone and wood to fruits and nuts. And now additive technologies allow you to make your own spinning top using a 3D printer! All you have to do is print this model, glue the pieces together and have fun with this simple yet fun toy!

Offered 0.2 mm layer height and 20% infill.

7. Moveable animals

Cute articulated octopus. Source: Thingiverse

Making flexible prints with a 3D printer has become completely affordable and common practice thanks to special filaments such as TPU. But what if we said that you don't have to use flexible plastics to create flex parts?

Using excellent hinges that are printed in one piece with the entire model, you can create movable flexing toys even from plastics such as PLA, ABS and PETG, without any additional settings and adjustments.

The standard specifies a layer height of 0.2 mm and an infill of at least 15%.

Most popular models:

  • Octopus
  • T-Rex
  • Lizard

8. Spirograph

Convenient case for creativity at any time. Source: Thingiverse

Everyone knows the children's toy spirograph, which allows you to easily draw masterpieces with repeating geometric patterns. But this model has gone a little further and is a whole case containing a platform for drawing and a compartment for storing gears and paper. It fits easily into your pocket, backpack and bag, so you can take it with you and paint whenever you want!

The case has several levels. The lower level holds slips of paper for notes, drawing gears and, if desired, a small pencil or pen, if, of course, you can find one. The next level provides a secure, flat drawing surface so you can make art while walking! The top level has fixed gear teeth and holds the piece of paper in place.

A layer height of 0.2 mm and an infill of 20% or more is recommended. As a loop, a regular straightened 1.75 mm filament thread is used.

9. Transformers

Toys from the planet Cybertron. Source: Thingiverse

Transformers are a hugely popular children's toy to this day, so these Optimus Prime and Megatron are sure to please your kids.

This printed Optimus Prime transforms from a classic Optimus truck into a fully functional standing robot. And it's amazing, considering that you immediately get a ready-to-use all-printed model right from the printing platform, which does not even require supports!

But, of course, every Optimus needs an opponent to fight. Therefore, you can also print Megatron, but it should be noted that his model is more difficult to print and consists of two parts.

10. Set of toy tools

The first tools for little craftsmen. Source: Thingiverse

The Toy Tool Set is a great way to introduce kids to basic tools, their appearance, purpose, and how they work. Print your child's first hammer, screwdriver and pliers and he'll feel like a real craftsman!

The hammer is modeled to fit two pieces together with a screw, but some users simply glue them together, which is just as pretty. You can also use a hammer to assemble pliers: just lay the two pieces on a flat surface with the screw down and tap lightly a couple of times.

Model can be found here.

11. Castle

Build your own medieval world! Source: Thingiverse

This medieval castle playset is meticulously designed for 3D printing. Walls and towers are easily attached to each other with a simple connection. You can make as many details as you want to create a large or small original castle layout of your own! The set contains walls, towers, houses, characters, animals and a variety of props to add to the fun of this medieval set.

All parts are small enough to be printed comfortably even on 3D printers with a small printable area: 140x140x140mm. For such purposes, the Flashforge Creator Pro 2 3D printer is perfect, equipped with two independent extruders and has excellent printing accuracy. This printer will cope with the study of small details, and two extruders will help you print several parts at once or one part in two colors!

12. Lego bricks

Your favorite constructor is now more accessible! Source: Pinterest

LEGO is one of the most popular toys for children. At the same time, the cubes of this designer are made of ordinary ABS plastic. So, having your own 3D printer, you can print the missing/lost Lego bricks yourself or even some of your author's design of the details of this amazing designer! At the same time, you can use not only ABS, but also other 3D plastics: PLA and PETG are also great.

Thingiverse has a lot of Lego models, and we'll take a look at one of them. It's customizable model of several different LEGO and LEGO DUPLO pieces. These bricks are not completely identical to real Lego, but they are compatible in every way.

13. Ballista

Fire! Source: Thingiverse

Introducing a fully printed ballista model, ready to use right out of the box. One has only to set the string and load the projectile, and this ballista will impress you with its simplicity and good range of the arrow. As a bowstring, you can use several layers of thread or ordinary stationery gum.

Recommended to print in PLA or PETG with 90% coverage and 0.2mm layer height.

14. Edible toys

The Open Toys project turns ordinary vegetables into toys. Source: Thingiverse

The project was originally envisioned as a way to turn commonly discarded residual materials such as wood and cork into toys: helicopters, planes, cars and so on. But soon, wood and cork were replaced by more accessible and easily pierced materials: fruits and vegetables. With this project, you can turn ordinary food items into fun personalized toys.

15. Anti-stress keychain

Entertaining keychain. Source: Thingiverse

Add some flair to your keychain with this cool little toy. She will entertain you wherever you are!

This model is not the easiest, but try it and you will definitely succeed! Important print quality settings are "Outer Walls Before Inner Walls" and being extra careful with temperature. It is printed with supports and requires a certain, sometimes lengthy, post-processing. Remove not only supports, but also make sure that the surface of the part is smooth, otherwise it will cling and stutter. A scalpel or a 1 mm drill will do. Periodically rotate the gears to see where it still sticks, which is especially true when using PLA.

16. Chunky Trucks set

Two models from the fun and cute Chunky Trucks set. Source: Thingiverse

The adorable Chunky Trucks collection includes various unique models of small trucks, fun builders and even a movable barrier. The cars are specially designed so that even the smallest children can play with them. Unlike builders, who are not recommended to be printed for toddlers so that they do not try to put them in their mouths, but which will greatly amuse older children.

All models can be printed without supports. And for long truck life, at least 25% infill and three-wall use are recommended.

17. Rattleswords

Arm your warrior! Source: Thingiverse

Rattles are an integral part of all babies. But what if we move away from banal and boring designs and build a rattle in the form of a sword for your little warrior? This fun design will not only amuse your baby, but also you, as this rattle will be a lot of fun to print!

All corners of the model are rounded for safety. There are also two versions of the tip. Initially, a gem was attached to the tip, but after some concern that the stone could slip off the tip and be swallowed by a child, a second version was created that did not include a gem.

Print two sets of peas first. Then, while printing the sword, throw them inside the blade. This will ensure that the peas stay inside the rattle forever. After printing all the elements, simply fasten them with superglue.

As with any printed toy, parental guidance is required. Be sure to throw away the toy if it breaks.

18. Viking Squigglepeeps

Three Viking Squigglepeeps set sail. Source: Thingiverse

Squigglepeeps is another kid-safe toy, this time with absolutely no glue required. These fun chubby Vikings and their boat are too big to choke on, making them suitable for kids of all ages. They look funny even in one color, but they will be even more beautiful if you paint them with child-safe paints! The model also absolutely does not require supports.

19. Math Spinner

A great way to have fun learning math! Source: 3Dtoday

This math spinner is the perfect companion for learning math. Moreover, it is suitable for all ages, because it is never too late to brush up on your arithmetic knowledge! You can print this finished model or customize it for yourself by removing or adding rings. This advanced design contains all the signs of addition, subtraction, multiplication, division, equality and inequality, plus a pointer to the string to be solved! On the central insert there are special grooves for fixing. For this version, you will need to print 2 caps and 8 rings of numbers, the rest of the details are printed in a single copy.

Recommended coverage 25% and layer height 0.2 mm.

20. Jumping turtles

The variety of these turtles is amazing! Source: Thingiverse

Last but not least, jumping turtles! Agree, even the name sounds fun! And a variety of shell design options will give each turtle its own uniqueness. This model uses the same flex concept as the Mini Monster Truck above, making the Turtles bounce when you tap on the body. Also in this turtle, the head can be drawn into the shell.

The model is assembled with printed H-clamps and does not require glue. All parts are printed without supports. Also note that using the raft (rafts) and brim (margins) options can have a negative effect on the results if you don't then take the time to sand and clean the edges at the base.

If you have problems with head slip, you can try to print 1 of the 3 narrower shaft head files that the author has specially uploaded for this case.

Results

We hope you enjoyed this selection of toys for 3D printing, and you will definitely choose some option for yourself, because 3D printing of toys is not only fun and interesting, it is also a new experience and knowledge for both you and and for the child. But we have considered only some entertaining options from the many existing ones. And, of course, you can create your own unique designs and implement them on your 3D printer or contact our 3D printing studio for this. And toys printed by you can serve as a great unique gift, which is also one of the reasons to buy a 3D printer for your home.

3D printed drone takes to the air

July 28, 2011 14:52

Scientists from the University of Southampton in the UK have successfully launched the world's first 3D printed unmanned aerial vehicle. He managed to stay in the sky for ten minutes. Only five thousand pounds sterling was spent on the creation of the UAV.

Scientists from the British University of Southampton were able to launch the world's first unmanned aerial vehicle into the air, "printed" on a 3 D printer. He managed to stay in the sky for ten minutes. Only five thousand pounds sterling was spent on the creation of the UAV, writes NewSceintist .

The 3D printing process begins with the development of a virtual model of the object. It is then "cut" into hundreds of easily printable layers and then layer-by-layer produced from plastic or metal using an ultraviolet laser. Due to the modest budget of researchers, some design restrictions were imposed on the creation of the UAV - the device lost its chassis (therefore, it should be launched only with the help of a catapult) and was equipped with an electric motor.

In addition, the UAV received a V-shaped tail instead of the standard inverted T shape.

The UAV was created in just one week - it took two days to develop parts of the device, and another five days to print them. Project leaders Andy Keene and Jim Scanlan emphasized that thanks to the 3D printer, it is no longer necessary to produce the same aircraft design according to the established drawing.

For each specific case (be it crop pollination, reconnaissance or infrared imaging) a new UAV model can be printed.


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