Release Date:2023-02-04 11:02:07 Popularity:
Although the non-standard automation equipment industry has a broad market space, the number of non-standard enterprises in my country is large, the scale is small, the technology is backward, and the homogeneity of competition is also an obvious defect.
Since many core technologies are not independent, the main functional components still rely on imports, making the cost of equipment high, and high-end non-standard automation products still rely on imports.
From the perspective of market logic, the growing market space can improve the technology research and development level of enterprises and expand the scale of enterprises, giving enterprises good development opportunities, but the objective situation is the opposite.
The reason is that non-standard equipment cannot be produced in batches, and large enterprises are unwilling to do so, but small-scale enterprises can easily obtain living space.
Under the pressure of shortage of human resources, manufacturing enterprises choose automation. Based on cost considerations, many companies choose semi-automated equipment, and slightly complicated processes are still done manually.
A large number of such low-level automation requirements restrict the development of non-standard industries to a higher level.
The development process of non-standard automation equipment, usually, non-standard equipment needs to be designed and manufactured according to different needs of customers. Despite the diversification of equipment requirements, the development of such products generally goes through the following development process:
1. Determine the product development project and clarify customer needs, such as production technology, production capacity requirements, operating environment, etc.;
2. Analyze and study the product, clarify its production process and size requirements, and understand the technical parameters of the equipment;
3. Preliminarily formulate the equipment plan, obtain the overall and partial schematic diagram of the equipment, each mechanical mechanism, electrical control system, action flow, etc.;
4. Set up a program review team to objectively evaluate the feasibility, manufacturing cost, and production capacity of the equipment;
5. Conduct a joint review with the customer on the plan, and determine the final equipment plan according to the customer's opinion;
6. Organize and implement product design and development, design general assembly drawings, component assembly drawings, and part drawings, and determine the control scheme of automatic machinery, etc.;
7. Quality inspection of components, equipment assembly, online debugging, and pre-acceptance of product proofing.
