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Blender Motor Factory

This is an blender addon which can create motor. We parameterized many features of a motor and so user can generate various model in same type but different parameters.

There is an extended version of this Addon blenderMotorFactory2.0.

Related publications:

  1. MotorFactory: A Blender Add-on for Large Dataset Generation of Small Electric Motors
  2. SynMotor: A Benchmark Suite for Object Attribute Regression and Multi-task Learning

1. Installation

Requirement:

  • This addon only support blender version 2.90.1. Other version may cause unpredictable falier.
  • Blender Bolt Factory should be enabled. It is a default addon in blender, you can enable it in Edit > Preference > Install > Add Mesh: Bolt Factory.
  1. Download the project
    • Clone project via git clone https://github.com/cold-soda-jay/blenderMotorFactory.git , then pack folder src into a zip file or
    • Download zip file from realese.
  2. In Blender, go Edit > Preference > Install and find the zip file. After installing make sure it is activated.
  3. Now you can find the Addon in Add >Mesh >Motor

2. Advanced

2.1 Save model

This Addon allow user generate various model and save the parameter as well as model as .stl file. To save the model, you can run the command in blender Console (Shift + F4 to open it): bpy.ops.mesh.add_motor(save_path="Path of folder")

The model will be saved as a whole entity and seperate parts

Image
Image

Save Model in Blender

When you modified some motor manually and want to save the model and property value part by part, you can choose Save the model and then give the loaction where you want to save the model. Then the model you created will be saved.

Image

2.2 CSV data

The parameters of generated model will be saved into a csv file when save_path setted. Every model will be saved in a separate folder with a number as name. This number represent the Id of the model. The parameters of this model can be found in csv file.

Bolt Positions

The position of all bolts will also be saved as a list in the file. The order of bolt position is from bottom to top. See picture below for more details.

Image
Top Type A with extension 1.
Image

Top Type A with extension 2.

Image

Top Type B with extension 1.

Every bolt will have a vector to store its position and orientation. In CSV the last colum stores all bolts positions. The result is a [3*2*n] list. Each bolt position will be represented as a vector [ Top_position(x,y,z), Bottom_position(x,y,z) ].

 E.g.: [
       #Bolt 1
       [
           [x1,y1,z1],
           [x2,y2,z2]
       ],
       #Bolt 2
       [
           [x3,y3,z3],
           [x4,y4,z4] 
       ],
       .....           
   ] 

2.3 Auto generation

To generate more models at once, you can use script ./src/auto_generate.py. In the script you can set the number of generated models and define several parameters when generating. Here are all parameters:

!!Units are cm, degree

Variable Explain
mf_Top_Type Head type of motor: Value can be ('mf_Top_Type_A', 'mf_Top_Type_B')
mf_Extension_Type_A Extension Type for Type A: Value can be ('mf_Extension_Type_1', 'mf_Extension_Type_2', 'mf_None')
mf_Extension_Type_B Extension Type for Type B: Value can be ('mf_Extension_Type_1', 'mf_None')
mf_Gear_Orientation_1 Orientation of top part for extension type 1: Value can be ('r0', r90', 'r180', 'r270')
mf_Gear_Orientation_2 Orientation of top part for extension type 2: Value can be ('r90', 'r180', 'r270')
mf_Flip Wheather the top part ne flipped: Value can be (True, Flase)
mf_Bottom_Length Length of bottom part: Value can be floate in range [4, 8].
mf_Sub_Bottom_Length Length of sub bottom part (Small cylinder under): Value can be floate in range [0.6, 2].
mf_Lower_Gear_Dia Diameter of lower gear: Value can be floate in range [3.5, 4.5]
mf_Lower_Gear_Position Position of lower gear respect to the top of the bottom part: Value can be floate in range [3.6, 4.2]
mf_Upper_Gear_Dia Diameter of upper gear: Vaule can be floate in range [5, 6.5]
mf_Bit_Type Type of bit in bolts: Value can be ('mf_Bit_Torx', 'mf_Bit_Slot', 'mf_Bit_Cross', 'mf_Bit_Allen')
mf_Bolt_Orientation Orientation of bolts: Value can be ('mf_all_same', 'mf_all_random')
mf_Lower_Gear_Bolt_Random Wheater postion of bolts on lower gear(Type A) should be random: Value can be (True, False)
mf_Lower_Gear_Bolt_Position_1 The position of bolt around lower gear: Value in range [190, 230]. Unit degree
mf_Lower_Gear_Bolt_Position_2 The position of bolt around lower gear: Value in range [320, 350]. Unit degree
mf_Gear_Bolt_Random_B Wheater postion of bolts on gear(Type B) should be random: Value can be (True, False)
mf_Gear_Bolt_Nummber_B Number of bolt around gear. Can only be modified when mf_Top_Type = 'mf_None'. Value can be 2 or 3
mf_Gear_Bolt_Position_B_1 The position of bolt around gear: Value in range [210, 225]. Unit degree
mf_Gear_Bolt_Position_B_2 The position of bolt around gear: Value in range [70, 110]. Unit degree
mf_Gear_Bolt_Position_B_3 The position of bolt around gear: Value in range [130, 190]. Unit degree
mf_Gear_Bolt_Right_B The position of bolt in right side of gear(Type B). Respect to the top of bottom part: Value in range [1.7, 4]. Unit cm
mf_Upper_Bolt_Nummber Number of Bolts on upper gear (Type A): Value can be 1 or 2 or 3
mf_Upper_Gear_Bolt_Random Wheater postion of bolts on upper gear(Type A) should be random: Value can be (True, False)
mf_Upper_Gear_Bolt_Position_1_1 The position of bolt Nr.1 around upper gear when only one bolt: Value in range [0, 210]. Unit degree
mf_Upper_Gear_Bolt_Position_1_2 The position of bolt Nr.1 around upper gear when two bolts: Value in range [0, 100]. Unit degree
mf_Upper_Gear_Bolt_Position_1_3 The position of bolt Nr.1 around upper gear when three bolts: Value in range [0, 65]. Unit degree
mf_Upper_Gear_Bolt_Position_2_1 The position of bolt Nr.2 around upper gear when two bolts: Value in range [110, 210]. Unit degree
mf_Upper_Gear_Bolt_Position_2_2 The position of bolt Nr.2 around upper gear when three bolts: Value in range [75, 135]. Unit degree
mf_Upper_Gear_Bolt_Position_3 The position of bolt Nr.3 around upper gear when three bolts: Value in range [145, 210]. Unit degree
mf_Type_B_Height_1 Height of Extension left relative to the top of the bottom part (mf_Sub_Bottom_Length + mf_Bottom_Length). Value can be in range [1.7, 4]
mf_Type_B_Height_2 Height of Extension right relative to the top of the bottom part (mf_Sub_Bottom_Length + mf_Bottom_Length). Value can be in range [5, 6.5]
save_path Path of folder when saving the module.

After setting the parameters, you can run the script in command line with following command:

path/of/blender -b -P path/of/auto_generate.py 1> nul

See more details in auto_generate.py