In recent years, with the continuous development of the dynamic balancing machine industry, its application areas have also been expanding. However, it is worth noting that although many companies are developing intelligent high-precision dynamic balance correction for automatic positioning and balancing machines. But in fact, there is still a certain gap with truly intelligent dynamic balance correction.
The issue of repeatability in the measurement accuracy of dynamic balancing machines has become a hot topic in the market, and it has not been taken seriously when new enterprises flock to it. On the one hand, due to the different starting points of balancing machine manufacturers, some newly transferred manufacturers will pay more attention to how to make dynamic balancing machines measure more accurately, or how to develop new technologies that seem to attract customers, and how to minimize costs. On the other hand, most application companies do not have sufficient understanding of dynamic balancing machines, and may prioritize "price" when purchasing equipment.
The hard support automatic positioning balance machine and soft support automatic positioning balance machine developed and produced by Huake Zhichuang Dynamic Balance Machine. It can balance the rotor of a micro motor with a weight of 5 kilograms and a diameter of 260mm, which is easy to operate. It adopts a servo drive device to achieve stepless speed regulation of parameters, smooth acceleration and deceleration, and automatically stops when measured to be qualified. If not qualified, it automatically stops at the unbalanced point.
With the further development of the industry, various industries have gained a certain understanding of the application characteristics of dynamic balancing machines, and have placed product measurement repeatability in a more critical position. After all, if measurement repeatability cannot be guaranteed, efficiency, return on investment, and other factors will not be improved.
In most cases, balancing machines are used to improve product quality or measure whether the mass of rotating objects (rotors) meets the range of balancing accuracy. How to ensure the reliability of the measurement repeatability of the balancing machine is one of the most critical issues in human-machine cooperation.
The issue of repeatability in the measurement accuracy of dynamic balancing machines has become a hot topic in the market, and it has not been taken seriously when new enterprises flock to it. On the one hand, due to the different starting points of balancing machine manufacturers, some newly transferred manufacturers will pay more attention to how to make dynamic balancing machines measure more accurately, or how to develop new technologies that seem to attract customers, and how to minimize costs. On the other hand, most application companies do not have sufficient understanding of dynamic balancing machines, and may prioritize "price" when purchasing equipment.
The hard support automatic positioning balance machine and soft support automatic positioning balance machine developed and produced by Huake Zhichuang Dynamic Balance Machine. It can balance the rotor of a micro motor with a weight of 5 kilograms and a diameter of 260mm, which is easy to operate. It adopts a servo drive device to achieve stepless speed regulation of parameters, smooth acceleration and deceleration, and automatically stops when measured to be qualified. If not qualified, it automatically stops at the unbalanced point.
With the further development of the industry, various industries have gained a certain understanding of the application characteristics of dynamic balancing machines, and have placed product measurement repeatability in a more critical position. After all, if measurement repeatability cannot be guaranteed, efficiency, return on investment, and other factors will not be improved.
In most cases, balancing machines are used to improve product quality or measure whether the mass of rotating objects (rotors) meets the range of balancing accuracy. How to ensure the reliability of the measurement repeatability of the balancing machine is one of the most critical issues in human-machine cooperation.
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