In the early 1980s, China began to study and apply mechatronics step by step, which started late. Therefore, facing the competition in the global economic market, China is facing a severe situation in this field. First of all, the traditional industry is facing the difficult problem of transforming with microelectronics technology, and the workload is large; Secondly, there is great pressure to accelerate product upgrading and increase market share by using electromechanical integration technology; Finally, it is of great significance for China's economic development to replace products with low technical content and added value with mechatronics products. Judging from the market demand, due to the short development history and big gap of electromechanical integration in China, many products are difficult to meet the needs of national economic development, and a large number of foreign products need to be imported every year. Faced with this dilemma, China's mechatronics work should start from the following two aspects: on the one hand, microelectronics technology needs to be introduced into traditional industries, which can not only improve the technical level of traditional industries, but also solve the current shortage of resources and energy; On the other hand, we should start with the upgrading of mechatronics products and vigorously develop its automation technology, digital technology, intelligent technology and other related supporting technologies.

China electromechanical design has entered a new stage of PLM, facing unprecedented and unpredictable challenges. One battle-hardened soldier after another is fading the aura of yesterday's hero. Only the camel view can be competent for the military reunification of the three countries and the restoration of old industries. At this time, digital technology and iXtronics GmbH of Germany joined hands to open a new chapter in the field of electromechanical design. CAMEL VIEW, as a mechatronics design system, is integrated, streamlined and standardized from product conceptual design to product performance testing, verification and passing. On the premise of satisfying the user's design, the simulation of the numerical experiment and the verification of the results are accurate, which supports the design of multi-working conditions and multi-coupling fields in complex environment.