What Is The Most Important Thing About Non-standard Automation Design

Theory is the direction indicator to guide practice.

In practice, the theoretical effect is not achieved because the details in the actual situation are not consistent with the theory, so it is very important to do every detail;

it is not denied that some theoretical basis is not perfect, resulting in Unexpected errors, so it is important to improve the theoretical knowledge reserve.


OF week Industrial Control Network: What is the most important non-standard automation design?


Q: Where are the difficulties in non-standard automation design?


A: The plan.

Only by understanding the product characteristics and product processing technology can a feasible and reliable implementation plan be proposed.

Only under the guidance of the blueprint drawn by the designer can the project be implemented in an orderly manner and achieve the final result.


Q: What is the most important non-standard automation design?


A: Nothing is not important.

The large-scale design is as small as a screw that is not tight, and every factor that affects the final acceptance is important.


Q: Which one is better for dead positioning and adjustable mechanisms?


A: The position that can be dead is determined to be dead, and it needs to be positioned and positioned.

The error will be concentrated, the adjustable mechanism will be reduced as much as possible, and the multiple adjustments of the equipment can be adjusted to achieve the final debugging effect.

The adjustment mechanism is fine and fine. .


Q: What issues are you paying attention to in mechanical design?



First, positioning.


1, The positioning of the processing object is related to the determination of the big blueprint and solves the customer’s demand problem;


2, The docking position between the single machine and the single machine determines the reliability of the connection production;


3, The positioning of the components in the stand-alone device determines the matching between the functional modules;


4, The positioning of the part in the component determines the certainty of the action of the mechanism;


5, Clear positioning and locking concepts, to prevent less positioning, to avoid over positioning;


6, Positioning solves the problem of functionality, meeting the functional requirements is the premise of the design;