Medical equipment coupling

SolidWorks abbreviation (SW) is a new generation of mechanical 3D design tool for electrical industry design introduced by Dassault. The Chinese version of SolidWorks adopts a brand-new parallel and serial product development environment and enjoys a 3DCAD model, which is widely used in designing parts, mechanical equipment, medical devices, automobiles, aviation and other industries. SolidWorks can meet the needs of users to directly add various auxiliary plug-ins to the software, connect with various NC programming software, and directly print the model. Regarding the power of solidworks, in fact, I believe that many small partners also have a certain understanding, but for the mastery and use of software, many small partners may still be scratching their heads! It doesn't matter. If you want to learn to use solidworks, you have come to the right place. The rich solidworks quality video course will take you from software foundation to advanced operation.

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Software Description: Introduction to Solidworks Mechanical Design

Interior design: Solidworks engineering drawing design course

Software introduction: the use of Solidworks measuring tools

Modeling coupling with SolidWorks, except thread line, other operations are basic.

This picture is modeled by SolidWorks20 15 and rendered by KeyShot8. The above two pictures. The original file is in the folder of 2065438+August 2, 2009, in X-T format.

Modeling steps:

1. Draw concentric circles on the forward-looking datum plane.

2. boss with a stretching depth of 24.8. (Not necessarily the opposite)

3. Draw a rectangle on the right reference plane. (Distance from sideline: 7.265)

4. Intersection after stretching, equidistant: 0.5, direction 1: complete penetration.

5. Use the right observation reference mirror to stretch and cut.

6. Display the temporary observation axis.

7. Linear arrangement, direction: temporary axis, spacing: 3.72, number two.

8. Draw a rectangle on the top datum.

9. Intersection after stretching, equidistant: 0.5, direction 1: complete penetration.

10. The mirror image is stretched and cut.

1 1. Linear array (stretch cutting and mirror image features in the previous step), spacing: 3.72, quantity: 2.

12. Linear array, spacing: 8.46, quantity: 2.

13. It is also a linear array (stretch cutting and mirror image features are on the left), with an interval of 8.46 and a number of 2.

12. Fillet, radius: 0.5. (This step is troublesome, so you need to point out every sideline. )

13. fillet, radius: 0. 1, select the face to fillet.

14. Draw a circle on the right reference plane.

15. Stretch resection.

16. Chamfer.

17. Thread line, (this function is only available after version 20 16)

Cylindrical sideline: inner circular sideline;

Starting position: right viewing datum plane,

Threading method: thread cutting,

Mirror outline: horizontal mirror image.

Trim according to the starting face

Trim according to end face

18. Annular array (3 features), angle: 90 degrees, geometric array checked.

19. Linear array (circumferential array feature of the previous step), spacing: 17.8.

20. it's done. (The following two pictures are version 20 15, without thread function, so they are not drawn. Scan it if you want to draw it)

So, today's "modeling a coupling with SolidWorks, except the thread line, everything else is some basic operations" is over! Everyone must watch more, practice more, think more and learn more. I hope everyone can learn solidworks as soon as possible! ! Here, we also provide you with more courses to learn, click the link: