Hi there. I need your help to design three layers helical coils. The value of the design is: Helical Diameter (mm): First layer: 170 mm Second layer: 266 mm Third layer: 362 mm These values indicate the diameter of the helical tubes in each of the three layers, showing an increasing trend from the innermost to the outermost layer. Incline Angle (°): First layer: 6.41° Second layer: 6.15° Third layer: 6.02° These angles likely represent the pitch angle of the helical coils, with slight decreases as the coils expand outward. Pitch (mm): First layer: 60.06 mm Second layer: 90.09 mm Third layer: 120.12 mm The pitch is the axial distance between successive turns of the helix, which also increases from the inner to the outer layers. Height (mm): Consistent across all layers at approximately 900 mm. This suggests a uniform length for the helical coils across all layers. Number: First layer: 2 Second layer: 3 Third layer: 4 This column specifies the number of coils in each layer, increasing as the diameter increases
@@jamilkhan468 Hi there Thank you for your comment and long request. Unfortunately, I have not explored more about multi-layer yet. That is what I have done for now. That is why I stated in the description that multi-layer coil is only for representation. Because in the real case, the purpose of it is only to define the total length. But you can try yourself to design it if there is any interested information you need on the video that you help in your design. If there is any specific need along your design process you might need help, I will answer you.
how you apply that change in "1.40min" of the video? did you use any shortcut key؟
It is "convert entities".
I have assigned shortkey to commands I use often.
mikaiaval.com/design-faster-by-using-solidworks-hotkeys/
Hi there. I need your help to design three layers helical coils.
The value of the design is:
Helical Diameter (mm):
First layer: 170 mm
Second layer: 266 mm
Third layer: 362 mm
These values indicate the diameter of the helical tubes in each of the three layers, showing an increasing trend from the innermost to the outermost layer.
Incline Angle (°):
First layer: 6.41°
Second layer: 6.15°
Third layer: 6.02°
These angles likely represent the pitch angle of the helical coils, with slight decreases as the coils expand outward.
Pitch (mm):
First layer: 60.06 mm
Second layer: 90.09 mm
Third layer: 120.12 mm
The pitch is the axial distance between successive turns of the helix, which also increases from the inner to the outer layers.
Height (mm):
Consistent across all layers at approximately 900 mm.
This suggests a uniform length for the helical coils across all layers.
Number:
First layer: 2
Second layer: 3
Third layer: 4
This column specifies the number of coils in each layer, increasing as the diameter increases
Can you please upload a video about that?
@@jamilkhan468 Hi there
Thank you for your comment and long request.
Unfortunately, I have not explored more about multi-layer yet. That is what I have done for now. That is why I stated in the description that multi-layer coil is only for representation. Because in the real case, the purpose of it is only to define the total length.
But you can try yourself to design it if there is any interested information you need on the video that you help in your design.
If there is any specific need along your design process you might need help, I will answer you.
@@cad4ts bundles of thnx for your valuable time