Luisyun

Solidworks

Introduction

38 STEPS – Interlinked Star is a complex interesting geometry model in Solidworks.
This 3D model is designed based on a dodecahedron in which each face consists of a star and supports each other


Feature

Revolve / Split Line / Dome / Loft / Circular Pattern / Cut-extrude / Shell / Body-move/copy

Step 1  Top Plane

Draw a construction pentagon and a centerline

Step 2 In the same sketch

  Draw another construction pentagon.
Add equal relation to the centerline and bigger pentagon
(Light blue line)

Step 3  Front Plane

Draw two construction line and
add coincident relation on the previous pentagon

Step 4  Insert a new plane (A)

Select the pink and purple construction line in the picture 

Step 5  Plane(A)

  Draw a pentagon and add coincident relation to the existing sketches

Step 6  Insert a new Axis(1)

 Select the top plane and blue point

Step 7   Insert a new Axis(2)

Select the blue point and plane(A)

Step 8 Insert a new Point

From Axis(1) and Axis(2)

Step 9 Insert a new Point

Add the coincident relation

Step 10  Front Plane

Draw a R 70mm arc as shown picture

Step 11  Surface revolve

Select Axis(1)

Step 12 Top Plane

Draw a Φ40mm circle as shown in the picture.

Step 13 In the same sketch

Offset entities and assign an inward distance of 3mm

Step 14   In the same sketch

Draw two splines as shown in the picture

Step 15 In the same sketch

 Circular pattern;Change the number of instance to 5

Step 16  Trim Surface

Remove the purple surface

Step 17  Insert a new plane(C) 

Select three point as shown in the picture

Step 18  Insert a new plane(D)

Flip offset 5mm form plane(C)

Step 19  Plane(D)

Draw a sketch as shown in the picture

Step 20  In the same sketch

Assign offset value of 3mm

Step 21  In the same sketch

Draw two splines as shown in the picture

Step 22  Circular pattern

Change the number of instance to 3

Step 23 Planar surface

Fill the selcted sketch

Step 24  Move/Copy/Body

X axis – 0 deg, Y Axis -18 deg, Z Axis 0 deg

Step 25  Sketch on the planar surface

Draw a sketch as shown in the picture

Step 26  Trim Surface

keep the purple surface

Step 27  Circular pattern

Change the number of instance to 5

Step 28  Surface Loft

Start/end face with tangency Tangency to face 3

Step 29 Circular pattern

Direction-Axis 1, Rotation-360 deg
Change the number of instance to 5

Step 30 Knit Surface

Merge the selected surface

Step 31 Thicken

Assign a thickness of 3mm

Step 32 Fillet

Assign a Fillet radius of 2.4mm

Step 33 Shell

Select the blue surface and
assign a shell thickness of 1.3mm

Step 34 Fillet

Add a Fillet radius  of 0.75mm

Step 35 Body-move/copy

Assign a rotation value  of 120 deg

Step 36 Circular Pattern

Change the number of instances into 
with equal spacing 360 deg

Step 37 Combine

Select all the bodies

Step 38 Body-move/copy

Select the centre point as rotation reference
X- 0 deg, Y – 0deg, Z – 180 deg

Step 39 Combine

Select all the bodies

評分:5 分,滿分為 5。

Congratulations, you just finished this 3D modeling tutorial !

Introduction

13 SETPS – Create a circular spiral by swept twist surface. Then, apply circular spiral as the path to sweep the model.


Feature

Swept surface / 3D Sketch / Sweep

Step 1  Top plane

Sketch a Φ200mm circle 

Step 2  Front plane

Sketch a line and make coincident with the circle

Step 3  Swept surface  

set twist control – Revolutions;20;select merge tangent faces

Step 4 Convert Entities

Step 5   Sweep

Circular profile;7.5mm

Congratulations, you just finished this 3D modeling tutorial !

Introduction

19 STEPS – Pepper & Salt shaker is designed by Zaha Hadid who is also known as the “Queen of the curve, they are playful,
architecturally-inspired with a soft-touch material that invites reconfiguration.


Feature

Loft / Cut-extrude / Boss-extrude / Shell /Circular pattern

Step 2 In the same sketch
Draw a spline and the dimension as provided picture
circular pattern – change the number of instance into 3

Step 3 Insert a new plane(A)
Offset from Top plane and assign an offset value of 150mm

Step 4  Plane(A)
Draw a polygon from sketch entities;set the number side to 3
assign a vertical relation to the side of the triangle

Step 5  Insert a new plane(B)
offset from Plane(A) and assign an offset value of 35mm

Step 6  Plane(B)
Convert entitiesselect chain

Step 7  Loft
Start / end constraint
(Normal to Profile)
Note: three green dots must be placed as provided picture

Step 8  Fillet – 2mm

Step 9  Front Plane
Draw a centerline and assign the length of 150mm
draw a centre rectangle and change the dimension as provided picture

Step 10  Cut-extrude
Through all-Both;All bodies

Step 11  Top Plane
Draw a Φ30mm circle

Step 12  Cut-extrude – 5mm

Step 13 
Select the blue surface to make a new sketch  

Step 14  Boss-extrude
Draw a Φ15mm circle and assign a extrude value of 5mm

Step 15  Fillet – 0.75mm

Step 16  Shell
Select the blue line;2mm

Step 17  Front Plane
Draw a Φ200mm construction circle;
draw a Φ1mm circle on the circle. Copy 8 circles by circular pattern.

Step 18  Cut-extrude – 14mm

Step 19  Fillet – 0.75mm

Congratulations, you just finished this 3D modeling tutorial !

Introduction

6 SETPS – A reversible dome example, apply the dome feature on the front and end of bullet.


Feature

Revolve / Dome 

Step 1  Front Plane

Sketch as the provided picture 

Step 2  Revolve

Step 3  Select the blue plane

Select the blue plane as sketch plane 

Step 4  Sketch  

Sketch a Φ20 circle

Step 5   Dome

20mm;click the selection(Elliptical dome)

Step 6   Dome

1mm;Reverse the direction

Congratulations, you just finished this 3D modeling tutorial !

Introduction

18 STEPS – A simple practice for the feature of a chamfer.


Feature


Boss Extrude / Cut Revolve / Revolve / Cut-Loft

Step 1  Front Plane

sketch as provided picture 

Step 2  Boss Extrude

60mm

Step 3  Create a new Axis

Top and Right plane

Step 4  Right Plane

sketch as provided picture

Step 5   Cut Revolve

use the asix form step3

Step 6   Right Plane

sketch as provided picture

Step 7  Revolve

use the axis form step3

Step 8  Create a new plane

offset 30mm from the pink plane

Step 9  New Plane

sketch as provided picture 

Step 10

Sketch from previse pink plane – sketch as provided picture

Step 11 Cut-Loft 

Step 12 Circular Pattern

360deg; the number of instance:4

Step 13   Right Plane

sketch as provided picture

Step 14   Cut Revolve

use the axis from step3

Step 15   Fillet

4mm

Step 16   Boss extrude

Φ18.5mm; Thickness: 2mm

Step 17   Fillet

0.5mm

Step 18   Chamfer

1mm

Congratulations, you just finished this 3D modeling tutorial !

Introduction

14 SETPS – 修剪相交曲面中較有據的案例,以四個曲面相交修剪成風扇外殼的雛型,
修剪完成後即成為不需縫織的曲面,最後透過旋轉及陣列完成風扇薄殼的模型


Feature

投影曲線 / 3D草繪 / 疊層拉伸曲面 / 鏡射 / 縫織曲面 / 旋轉填料 / 結合

Step 1  前基準面 

草繪線段如圖所示 

Step 2  旋轉填料

Step 3  在藍色基準面上做圖 

Step 4  上基準面

草繪圖形如圖所示;後續投影曲線使用

Step 5   伸長除料 

貫穿

Step 6   在底面草繪

投影曲線 – 投影草圖至草圖

Step 7  伸長除料 

貫穿

Step 8  在底面上草繪

中間三條建構線等長

Step 9  分割

Step 10  圓角

每個邊緣0.2mm;上下同色,中間不同色

Step 11 移動複製本體

  Z軸旋轉180度

Step 12 移動複製本體 

Y軸旋轉90度;Z軸旋轉90度

Step 13   移動複製本體 

X軸旋轉90度;Y軸旋轉90度

Step 14   移動複製本體 

X軸旋轉90度;Y軸旋轉90度

Congratulations, you just finished this 3D modeling tutorial !

Introduction

20 SETPS – 修剪相交曲面中較有據的案例,以四個曲面相交修剪成風扇外殼的雛型,
修剪完成後即成為不需縫織的曲面,最後透過旋轉及陣列完成風扇薄殼的模型


Feature

投影曲線 / 3D草繪 / 疊層拉伸曲面 / 鏡射 / 縫織曲面 / 旋轉填料 / 結合

Step 1  前基準面 

草繪線段如圖所示;後續投影曲線使用

Step 2  上基準面 

草繪圖形如圖所示;後續投影曲線使用

Step 3  投影曲線

投影草圖至草圖:不選擇任何面

Step 4  前基準面

草繪線段如圖所示;只需要草繪半邊但注意左端需相切

Step 5   右基準面

兩端貫穿曲線;圓弧與點重合

Step 6   新建基準面A

偏移至Step 4草繪圓心

Step 7  基準面A  

兩端貫穿曲線;圓弧與點重合

Step 8  3D草繪

在端點設一個點,後續供疊層拉伸使用

Step 9  3D草繪

只需要擷取左半邊

Step 10  3D草繪

只需要擷取右半邊

Step 11  疊層拉伸曲面

輪廓為點與Step 5.7草繪;其餘用selection manager點選

Step 12 前基準面  

草繪線段如圖所示;注意左端需相切

Step 13   疊層拉伸曲面  

輪廓為點與Step 5草繪;垂直於輪廓

Step 14   鏡射 

Step 15   縫織曲面

產生實體
 


Step 16   前基準面

草繪線段如圖所示

Step 17   旋轉填料

不合併結果

Step 18   鏡射


Step 19   結合


Step 20   圓角

 0.2mm

Congratulations, you just finished this 3D modeling tutorial!

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