crafthub.tokyo
This is a 1/10 scale version of the construction safety fences often seen in Japan. STL data for FDM.
material: PLA
infill: 15%
support: no
perimeters 2
You can Download this model`s Full STL data from crafthub.io
This kit is a chassis to use the Superscale2020 active suspension unit effectively. It features a compact package that combines torsion bars and active suspension in the size of the Tamiya M chassis (wheelbase 239mm).
This model also uses gripped tires for a more realistic scale appearance. We recommend using a DC motor for the crawler or a multi-pole brushless DC motor to enjoy realistic behavior at very low speeds.
The drivetrain of this kit is designed to maximize the use of Sakura D5 parts available to everyone. As a result, it is possible to use active suspension at a lower cost than collecting the necessary parts individually.
A steering gyro is not necessarily required, as the tires provide some grip.
The list with active links can be downloaded from Google drive.
The Superscale2020 “SS” unit is a key component of this chassis and should be purchased here.
Torsion bars are printed with PETG. Please check the print settings.
Insert the torsion bar into the suspension arm. Use a rubber hammer or similar tool to gently drive it in; use a Zig to drive in the appropriate amount. Do not install the servo horn at this point.
Install 9*17*5 bearings and spring bars as for the front side. The spring lever is different from the front side, so be sure to check that it is springlever_R.stl and that the installation orientation matches the diagram.
First, use arduinoIDE on your PC to connect to SS unit. Make sure you have the latest version of the firmware. The latest version is Ver1.22 (13 Sep 2022).
You can check the version on the serial monitor. Then turn the potentiometer to adjust the offset value to 0, and turn off the power once it is done.
Due to the space limitations of this chassis, it is necessary to connect each servo and SS unit as follows in order to reverse the servo rotation direction.
After connecting all servos, place the SSunit on a flat surface, turn on the power, and in a few seconds, all servos are in a neutral position and stable. Turn down the power.
Adjust the neutral position and the axle position with reference to the figure. The servo horn is tightly engaged with the servo output shaft when the screw is tightened.
Then connect the front and rear frames.
Use standoffs and gearbox braces to ensure frame plate rigidity.
The gearbox brace is also used as an ESC mount.
You can Download this model`s Full STL data from crafthub.io
This is a scale model of 1/200 Hindenburg airship. The unique stringer rib construction reproduces the realistic skeleton of the Hindenburg, as well as the passenger cabin and gondola, and engine car are also incorporated.
It can also be used as a beautiful interior light by incorporating LED tape lights.
Please scale the data according to the size of the build plate of your 3D printer.
Example
prusaMk3s 98%. Length 1200 mm
Active link list on google drive
Active link list on google drive.
The STL data in this kit must be uniquely sliced. For this reason, we have included data that has already been Gcode-ized.
To slice STL data properly, CURA is required, so please download CURA if necessary. Detailed configuration profiles for Cura’s PLA filaments are also included in this kit.
When slicing with Cura, please use the profile data included in the kit.
The airship is divided into 17 frames, each of which is pre-built with ribs every 10 degrees. By slicing this data in spiral vase mode, a stringer rib structure is formed.
Because of the small footprint of the build plate, the adhesion of the first layer is very important. Both the inside and outside brim should be set.
After molding, the outer brim is removed cleanly with a design knife or similar tool. The inner brim is used to join the other frames, so it should be left in place.
This section describes the process of attaching the Stringer to the FN4. Slide the Stringer from the bottom of the frame to the top, making sure it is flat at the very top, and secure the Stringer with CAglue. Use the minimum amount of CAglue necessary to avoid discoloration to white.
Install the STRINGER on all 17 frames in the same manner. The correspondence between frames and stringers is as follows.
FN3>Stringer2
FN4>Stringer3
FN4>Stringer4
FN5>Stringer5
FN6>Stringer5
FN7>Stringer6
FN8>Stringer7
Caution
FN9> bottomside>Stringer8
FN9> upside> Stringer10
FN10>Stringer11
FN11>Stringer12
FN12>Stringer13
FN13>Stringer14
FN14>Stringer15
FN15>Stringer16
FN16>Stringer17
The structure of FN6 is slightly different from other frames. Windows that allow you to see the ground from the lounge and the two-story guest room, and an aluminized grand piano placed in the lounge.
The front side is assembled from FN2 to FN9, and the rear side from FN10 to FN17.
The assembly of the frame will be stopped here in order to install the LED lights in the airship.
This is a suspension Conversion kit. To use SuperScale2k20 SS Unit, This kit can use the full potential of the SS unit instantly. And you can get the realistic motion for your Yokomo YD-2E/S chassis.
You have to print out all parts by yourself. The material you should use is ABS or ColorFab HT, etc. otherwise the parts don’t have enough rigidity.PLA is not recommended
Nozzle Dia. 0.4 infill rate 30% vertical perimeters 3
Digital servo required
For Drift Car, Don’t need so much torque. 5-10kg may be enough, However, a metal-geared servo is required.
YD2E/YD2S Both types of data are included.
Only for this part, you have to use M3*6 screw, instead ofM3*10 screw to avoid not interfering with fixing the screw.
The Bumper fix screw is used to fix a servo Bracket
Front Strut (Remove the original Strut Tower)
Remove the ball end and fix it in the correct position Use a Tamiya Fluorne coated Stabilizer Ball connector set For the front, use this one.
Assemble the front Strut tower by adding M3*15 screws for the front. Do not over-tighten. Check for minimum play and movement.
The assembled strut tower needs a little bit of friction. If this part is too loose, the SS’s multiplier value can’t increase, and serious oscillation will occur and won’t stop. However, regular suspension linkage parts have to always be very smooth.
Assembling the Rear Strut tower: (Assembled)
Use an M3*12 screw for the Rear. (Do not over-tighten)
Check minimum play (The arms should move easily.)
The assembled strut tower needs a little bit of friction. If this part is too loose, the SS’s multiplier value can’t increase, and serious oscillation will occur and won’t stop. However, regular suspension linkage parts have to always be very smooth. Use a Tamiya Fluorine coated Stabilizer Ball connector set For the Rear, use this one.
Front side
Use the screw that Yokomo original Bumperfix used.
The *Front servo holder has 3 screws. The rear servo holder has 2 screws.
Rear Side
Remove the original bumper and replace it with the Servo holder.
About the Rear screw. Use the screw that yokomo originally used.
You need to install Arduino configuration software. Please download from the link below.
https://www.arduino.cc/en/Main/Software
You may download Arduino IDE software for your suitable platform. macOS or Win
Firmware needed from SuperScale2k20
SUPERSCALE_V1.2.ino.hex
*this firmware is pre-installed
First, connect the SS unit to the PC and set the offset to 0.
Next set BALANCE to 50.
The servo‘s neutral PWM value is almost 1500
FLpos 1500
RLpos 1500
*you should provide the power for SS Unit cause USB doesn’t provide enough power to move the servo neutral position.
Check all 4 servos in a neutral position, and then Set the servo horn like this.
Adjust The turnbuckle length, and then connect the servo and Strut arm.
All about the physical setup is done, please test the sample setting value.
This is the start value to set up the active suspension
For more detail, please refer to SS unit manual.
It will be better to change more high viscosity dumper oil.
Body mount post parts have compatibility with Yokomo Genuine Body mount rod. You can use your suitable third-party body mount. Or make a hole in the body and fix the body using a Body pin.
Do not use this file for commercial purposes without any permission.
This model was made with FDM 3Dprinter, the parts have some additive markings, however, no problem with those parts’ functions.
The product can download from www.crafthub.io
This kit is an STL Data kit for conversion of MSTRMX2.0 chassis with an active suspension system ”SuperScale2k20 SS Unit”.
• Come with All of the printable parts, without SS unit.
• Design for MST RMX2.0
• Active suspension and conventional suspension hybrid.
• Simple and reliable, easy to swap design
• Fully compatible original suspension geometry
Use the M3 screw, M3 Nut, and gently insert to the M3 Nut position.
Use M3*10 CapScrew to screw servos to chassis mount brackets.
The mount screw hole size is 2.8mm and optimizes the tolerance for M3 screws. The Servo’s output shaft should be on the side closest to chassis mount holes.
Remove the original Strut Tower. Remove the ball end and fix it in the same position
Use a Tamiya Fluorine coated Stabilizer Ball connector set For the front, use this one. (partsNo17)
Assemble the front Strut tower by adding M3*15 screws for the front. Do not over-tighten. Check for minimum play and movement.
The assembled strut tower needs a little bit of friction. If this part is too loose, the SS’s multiplier value can’t increase, and serious oscillation will occur and won’t stop. However, regular suspension linkage parts have to always be very smooth.
Assembling the Rear Strut tower: (Assembled)
Using M3*12 screw for the Rear. (Do not over-tighten) Check minimum play (The arms should move easily.)
The assembled strut tower needs a little bit of friction. If this part is too loose, the SS’s multiplier value can’t increase, and serious oscillation will occur and won’t stop. However, regular suspension linkage parts have to always be very smooth. Use a Tamiya Fluorine coated Stabilizer Ball connector set For the Rear, use this one. (partsNo17)
Front
Side screw use 3*15 Countersunk screw. For the center screw. Use the screw that MST originally used.
The *Front servo holder has 3 screws. The rear servo holder has 2 screws.
Rear
Remove the original bumper and replace it with the Servo holder. About the Rear screw. Use the screw that MST originally used.
Firmware needed from SuperScale2k20
SUPERSCALE_V1.2.ino.hex
*This firmware is pre-installed
You need to install Arduino configuration software. Please download it from the link below.
https://www.arduino.cc/en/Main/Software
You may download Arduino IDE software for your suitable platform. macOS or Win
First, connect the SS unit to the PC and set the offset to 0.
Next set BALANCE to 50.
The servo‘s neutral PWM value is almost 1500
FLpos 1500
RLpos 1500
*you should provide the power for SS Unit cause USB doesn’t provide enough power to move the servo neutral position.
Check all of the 4 servos in the neutral position, and then Set the servo horn like this.
This hone has a tapered servo shaft connection, so any spline servo can perfectly fit this servo horn. so this servo horn material is PETG. Use with Tapered washer like in the photo.
Adjust The turnbuckle length, and then connect the servo and Strut arm.
All about the physical setup is done, please test the sample setting value.
This is the start value to set up the active suspension
For more detail, please refer to SS unit manual.
It will be better to change more high viscosity dumper oil.
Ver 2 servo holder is an integrated body holder
Do not use this file for commercial purpose without any permission.
The product can download from www.crafthub.io
For all 1/10 scale Drift cars and 1/10 4wd crawlers for towing.
Even a very low downed drift car , you can carry on without any slopes.
STL data Realistic full functional model.
•Easy to assemble
•Optimized for 1/10scale RC Drift car. Ex Yokomo,Sakura, MST,etc.
•FDM printer with 0.4φOrifice nozzle.
•PLA or PETG can be used, in however summer season for outdoor use, I recommend
using PETG
•TPU for tires
Yokomo 4.8mmφ Ballend can use a tow vehicle coupler.
Assemble each of 4 axes. For smooth rotation of the tire, you can adjust it with a washer.
Mount the Tire rack use with double side tape.
Take attention to the Tire rack direction.
M3*8 screw
Hangingwire0.8mm
28servohorn.stl
Running the wire like that and adjusting the tension.
Adjust the wire length and fix it.
Do not use this file for commercial purposes without any permission. This model is designed to make FDM 3Dprinter, the parts have some additive markings, however, is no problem with those parts’ functions.
The product can download from www.crafthub.io
This kit is a detail-up kit for RCdriftCar. You can choose RHD/LHD. Connect the servo to the receiver’s unused channel, and mix the steering channel with your chosen channel.LED power is also taken from the receiver.
Note This data is optimized for 1/10Scale drift Car.
You have to print out all parts by yourself. The material you should use depends on the parts. Please choose the correct and affordable material.
0.4mm nozzle All of parts infill rate: 20%or more.
Haltech displays JPG image, Print out with sticker sheet.
Print out all parts with appropriate material. In this kit, we strongly recommend using Colorfabb HT filament.
Install 9g servo on gear holder. Servo comes with self-tapping screws.
Use this screw and assemble.
Check the part’s dimensions
And set the gear with self-tapping screws that come with the servo.
Check output 17T gear and shaft. Gear should apply to the hole side. When assembling them, apply appropriate glue.
With the M3*6Bottun screw, the shaft must spin easily.
Those parts and the Gear frame assemble with glue. When you assemble it, please gear’s backlash and check the gears move smoothly.
Using glue with a screw will be better.
Use pinch,adjust the mounting place and fix with double-side tape
Sample MST RMX2.0
Do not use this file for commercial purposes without any permission.
This model is designed to make FDM 3Dprinter, the parts have some additive markings, however, is no problem with those parts’ functions.
The product can download from www.crafthub.io
The track conditions on the RC Drift Circuit have been very good recently.
In such road conditions, a plastic chassis conversion kit like this is an alternative to
a carbon chassis. This kit is very flexible and properly rigid, allowing for maximum tire grip.
We recommend PETG material. Highly recommend using colerfabb HT.
3Dprint chassis conversion kit for Yokomo YD2-z or Yokomo YD2SX3
This kit is a 3Dprint conversion kit for Yokomo YD2z or YD2SX3.
If you use withYD2z basic kit , you need Yokomo`s Genuine optional parts.
•The lightweight slide rack sets for YD-2Z (item No Y2-202SZ) (recommended) If you use with YD2 SX3kit, you need Yokomo`s Genuine optional parts.
Nozzle 0.4mm
Recommended filament
you use 3Dprinted frame parts only, you can also ride without any problem.
If you can get M3pressfit nut, please use it .otherwise you should use M3pressfitnut.stl
If you can get M3pressfit nut, please use it .otherwise you should use M3pressfitnut.stl
Place a 2 mm spacer between the upper deck and the 30 mm stand-off.
Please check the servo mount tab position.
-Install steering servo on the upper deck in the same orientation as the original chassis.
Install the receiver and gyro on the bottom deck with double-sided tape
( you can install the receiver and gyro on the top deck, but it will limit your placement
options of the battery tray).
-Connect assembled upper deck and side frame to the bottom deck with 6x 3*8 flat head
screws ( make sure your gyro and receiver are installed to the bottom deck before).
Use the service hole to adjust a Gyro
After connecting the upper and bottom deck slightly loosen all the screws and
check that the body doesn’t have any distortion or misalignments, then tighten again.
Adjust the battery mount place where you want.
Do not use this file for commercial purposes without any permission.
This model is designed to make FDM 3Dprinter, the parts have some additive markings, however, no problem with those parts function.
datadownload
https://cults3d.com/en/3d-model/various/n-kay-crafthubio
for a handy vacuum cleaner
Use a plastic disposable bottle.
This is for a handy vacuum cleaner. it can be used as an insect catcher. The collected dust goes to the second bottle, A carbonated water bottle will be better because of its hardness.
STLdata can download from here
https://cults3d.com/en/3d-model/tool/cyclone-dust-separator