Design #1

Unique, low profile design.

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Design #2

Say hello to my big chamfered edge.

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Design #3

Bold yet sophisticated. 

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Design #4

Classic retro. 

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Design #5

Fully rounded. 

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Design #6

Low-poly design poised to turn heads.

Print settings for frame:

• 0.40mm nozzle for high detail & good fit
• print frame separately by itself for best mechanical properties
• ensure lines on same layer melt well together (no gaps between lines) as well that layers themself melt well together to ensure good mechanical properties
• 0% infill
• 1.2mm (minimum) wall thickness
• 1mm top &bottom layer (minimum)
• print without support
• print without brim/skirt/raft (mini-brim modeled into 3D model)

Print settings for speakers housings, covers and remote parts:

• 0.40mm nozzle for high detail & good fit
• speaker housings, covers and remote parts can be printed together
• 35% infill (you can play with this amount to see what it does to sound)
• 1.2mm wall thickness
• 1mm top & bottom layer
• print without support (support modeled into 3D model -3D files without modeled in support will be added soon)
• print without brim/skirt/raft

Extensive print and assembly instructions will be added soon

Additional Files