How to Transition from General Mechanical Field Technician to Mechanical Designer 10

To ask this question, I first assume that you know CAD and another 3D software. You'd better carefully study the properties of commonly used and special mechanical materials, get in touch with the transmission of various types of equipment, as well as the mechanical structure (sealing method, transmission method, etc.), and be familiar with general standard parts. Have the ability to analyze and dialectically the mechanical properties of parts.

Finally, try to make some simple equipment out, and slowly become a mechanical designer after accumulating time and experience! In short, watch more and learn more, and accumulate slowly!

Designers need a lot of on-site experience, and people who don't understand the scene won't be good designers, so settle down and cherish the opportunity.

Learn 3D software, finite element analysis software, engineering materials, material mechanics, theoretical mechanics, mechanical principles, mechanical design, mechanical manufacturing engineering, related knowledge, learn more, and the rest is more practical learning on site.

It is recommended that you go to a small non-standard equipment manufacturing factory that urgently needs designers to exercise for a few years.

First, it is better to find a business, a lot of work, but not a single product. There are more opportunities to exercise in this way.

Second, it is relatively difficult to find a job, because it is not like this**There will be a chance for a new hand like you?

Third, if you can find the boss who is an old expert, it is more ideal to be able to take you.

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric traction and control systems;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive performance measurement plan and specification of mechanical equipment, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric drag chain concealment and control system;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive width of mechanical equipment Kaihe performance measurement plan and specification, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric drag chain concealment and control system;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive width of mechanical equipment Kaihe performance measurement plan and specification, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.

1.Proficient in drawing product design drawings and process drawings (tooling, fixtures, etc.) that meet national standards.

2.Proficient in the use of mechanical principles, mechanical mechanisms, mechanical design and national standards and international standards, according to the requirements of the design task: creative design effect is good, low cost products.

3.Proficient in the use of computer-aided design: 2D software engineering drawings, 3D software design products and modeling renderings.

4.Able to draw renderings, can correctly express the overall sense of coordination, texture, color change, subjectivity of the equipment, and the overall effect and harmony of the product.

5.Familiar with various materials (material properties, characteristics, size, color and lustre, etc.) and heat treatment methods, in order to correctly select materials and appropriate heat treatment methods.

6.Proficient in the correct use of typical mechanical mechanism types, especially the advantages and disadvantages of each mechanical mechanism, commonly used structural methods, methods, etc.

7.Improve the knowledge and cultivation of various aspects of machinery, and be familiar with various basic characteristics and variants. Learn about the historical development and adoption of various devices. Mechanical mechanism, structural mode, method.

8.Possess the knowledge and skills of surveying and mapping (measurement methods and accuracy), and be able to correctly make on-site surveying and mapping sketches and improve design related information.

9.Familiar with various processing technologies and assembly processes, and be able to correctly compile processing and assembly processes. Correct selection of processing equipment and various tools.

10.Have a wide range of cultural knowledge and accomplishment (the development status of various types of equipment). This is beneficial to the design of products with stable performance, beautiful appearance and a sense of the times.

11.Will be good at the collection and accumulation of design data, such as reference books (manuals, standards, etc.), new methods of surveying and mapping, photography, copying and recording, etc., and constantly accumulate useful design data. and process drawings (tooling, fixtures, etc.).

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric drag chain concealment and control system;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive width of mechanical equipment Kaihe performance measurement plan and specification, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric traction and control systems;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive performance measurement plan and specification of mechanical equipment, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.

The main tasks he is engaged in include:

1) Research and design of machinery and equipment;

2) research and design of mechanical parts;

3) Research and design fluid transmission and control systems;

4) Research and design of electric drag chain concealment and control system;

5) research and design of mechatronic systems;

6) Research and design of complete sets of mechanical engineering design;

7) Formulate the overall comprehensive width of mechanical equipment Kaihe performance measurement plan and specification, determine the main technical parameters of the test, test and test;

8) Promote and apply new technologies;

9) Compile and promote standards.