test 1

thingiverse

Using the following options: Song Name = test song Pulley Snaps Loose at Length = 1.2 Crank Axis Holder Height = 1.55 Crank Teeth Number = 8 Pulley Slack Space = 0.4 RPMs in PLA (Polylactic Acid) Filament Used = 924 Crank Gear Angle = 15 Music Cylinder Name Displayed Position = 0 Teeth Note Sequence = C 0C#0D 0D#0E 0F 0F#0G 0G#0A 0A#0B 0C 1C#1D 1D#1E 1F 1 Generate Geared Gears Case Number = 1 Music Cylinder Name Depth = 0.6 DEBUGGING Mode for Geared Gears Flag = 0 Mid-Gear Angle Tolerance = -5 Gear Holder Radius in Geared Gears = 4 Teeth Holder Height and Width in PLA Filament Used = 5 5 Crank Axis Cut Away Height in PLA Filament Used = 4 Estimated Time of Manufacturing for Entire Model in PLA Filament Used = 8240000 seconds Minimum Diameter of Teeth for Gears Made with Geared Gears Feature = 1.5 Height of Single Gear in Geared Gears System = 3 Music Cylinder Holder Height and Axis in PLA Filament Used = 3.4 Generate Crank Gear Feature Flag Number = 1 Gap Space Between Two Consecutive Gear Teeth in Geared Gears = 1 Wall Thickness for Geared Gears Model Made with FDM (Fused Deposition Modeling) Printing = 2 Mid-Gear Size Number = 20 Generate Music Cylinder Feature Flag Number = 1 Mid-Axis Holder Height and Axis in PLA Filament Used = 3.3 Music Cylinder Gear Teeth Count Number = 24 Minimum Gap Between Two Consecutive Gear Teeth in Geared Gears System = 0.1 Note Alphabet for Generating Sequence of Notes for Music Played with This Mechanical Music Box Model = 5 Number of Pairs of Pin Holders to Attach Two Gears Together at Right Angle to Each Other = 35 Number of Vertical Pairs of Pin Holders Along Both Axis Directions for Attachment Points in PLA Filament Used = 13 Length and Tensioning Value to Snap the Crank Rod When It is Moving Up and Down Between Maximum Values for One Complete Cycle, Also Called Period Time for a Cycle = 0.2 Gear Ratio Diametral Pitch Value to Measure and Determine Gear Ratios Based Upon Given Geometric Data Provided = 0.6 Pin Diameter Used as Measuring Parameter in Manufacturing Pin-Hole Connection between Two Geared Gears Components or Other Interconnected Parts with Mechanism that Moves Backwards Forward to Provide Desired Outcome like Music when One Component is Turned Manually in Desired Orientation, Either Right or Left Rotation as Determined from Parameters Given During Setup Before 3D Printing Started for This Particular Project which Requires These Features: Music Generating Crank-Pulley and Gear Teeth Design along other Custom Requirements -Pin Length, Height. = 1.5 Length of the Small Diameter Axle That Connects Two Interchangeable Large Axis Geared Gears in Parallel Orientation and Transmits Torque Force Through Either Single or Multiple Pairs to Create Sequence of Notes at Constant Interval Between Start of First Full Turn After Mechanical Music Box Mechanism Has Been Pressed for Play as Long as You Hold, No Further Activation Needed Until Ready Stop is Applied Again by Turning Knob One More Turn Backwards; Number in Set Used Here = 35 Axis and Sliding Movement Range Value when Crank Is In Center or At Top of First Complete Full Turn, Then When Crank Has Completed its Up-Down Path for the Duration of Second, and Similarly on Further Complete Turns Down and Up in a Sequence Which Keeps On Repeating to Play Different Melody Each Time Based on Input Data Specified Prior; Unit Measure Here - Millimeter = 0.3 Crank Holder Projection Beyond Bottom Most Extremity to Allow Space Between Gears as Desired Number Indicates Size from Edge of Last Gear Back Towards Where You Hold Knob When Playing Song for Full Turn Rotation Without Sliding Down Past Last Point on Top Again; Dimension Unit Is millimeter And This Shows Distance Measured Above Which One Part Connects Other = 4 Epsilon or the Minimum Acceptable Radius That Could Be Determined for Circular or Round Holes within Two or More Objects that Get Connected Using Same Geared Gears Technique Applied at Their Axis Locations so These can Hold Proper Tolerance Together Under Force Imposed Upon System Throughout Full Play Through Multiple Cycles Per Each Particular Combination Given Initial Input Data Provided Initially - Here in millimeter. = 0.1 Snaps Movement along Either One or Two Axises, Both Are Available According To This Flag Provided at The End of Second Option When Set to True Value Which Will Be Done here now That Makes this Option Useful; Its Units Measurement Also millimeter = 0.35 Generated Parameters List is Below: Name = test song Radius in mm for PULLEY Snap Axis Loose Length: 1.2 Axis Crank Holder Height = 1.55 Crank Gear Teeth Count Number = 8 Pulley Gap Slack Value: 0.6 DEBUG Gears Geometry for Parameters to Ensure It Fits Inside Machine without Overstepping Boundaries - If Set; In This Case Its value Is : 0 Axis Crank Position or Angular Orientation Based On Which Point Along Vertical Axis Starting from Base and Proceeding Through the middle Till Tip where Two Gears are located side by side - This value Can take on any negative angle like –45 but we use zero here since this mechanical music box design includes features based solely around rotation around central pivot axis hence angle tolerance considered instead = -5 Number for Gears Made to Rotate on One End that Interact Through Holes, Their Holder and also pin used at Another end; These holes are typically round thus allowing freedom movement inside gears; In this particular setup Number Used as parameter for Gear made of this material in Fused Deposition Modeling printing technique is set up As = 4 Length Height & Width Dimension Of Teeth made for Gear component when using method Geared Gears, measured using unit millimeter. For Each tooth we have = 5 Crank Cut Away height used when designing crank as per provided specification using PLA filament in mm; Measuring same units, value here given for actual size needed while creating the cutout for easy assembly without problems after finishing entire process. Also it prevents any binding during turning mechanism’s back forward rotation.