Code CNC: 2026 Action Plan Of “Improving Quality, Increasing Efficiency And Focusing On Return”

Code CNC: 2026 Action Plan of “Improving Quality, Increasing Efficiency and Focusing on Return”

Competition in the machining industry is intensifying, and the efficiency of batch production directly determines whether an order is profitable. When many factories receive a large number of orders for turned parts, the most difficult problem is that the cycle time is too long and it is difficult to improve equipment utilization. The latest action plan announced by a listed company in April 2026 clearly states that technological innovation will be used to resolve efficiency obstacles in high-precision machining. Behind this solution is actually the urgent need of the entire industry to reduce the production time of a single piece.

How technology upgrades shorten cycle times

The core highlight of this new product is the optimization of the CNC turning batch production cycle of the five-axis horizontal turning and milling composite machining center. Traditional turning processing requires multiple clamping and tool changes, and each tool change and repositioning wastes a lot of time. This new equipment can turn, mill, drill, etc. This process is concentrated on a machine tool, and complex parts can be processed in one clamping. For example, the traditional process of turbine shells in automobile parts requires 3 to 4 clampings, and the cycle time of a single piece is about 8 minutes. After using five-axis turning and milling, the cycle time can be reduced to less than 4 minutes.

The company invested 195 million yuan in R&D work in 2025. Its R&D intensity is 35.43%, ranking high in the industry. High-intensity R&D investment is directly reflected in equipment performance. The five-axis turning and milling compound machining center has a tool magazine capacity of 40 tools, and its tool changing time is only 1.5 seconds. For complex parts that require frequent tool changes, such a tool change speed can significantly reduce auxiliary time. A customer who processes aerospace impellers gave feedback that after the tool change time was reduced from the original 3 seconds to 1.5 seconds, 15 more parts can be produced every day.

Actual benefits brought by R&D investment

R&D expenses of 195 million yuan are not a category that is so small that it can be easily ignored, but has important uses. This money is used in key places. The company has 280 R&D team members, of whom more than 40% have a master's degree or above. They focused on overcoming the two technologies of dual-spindle synchronous control and thermal compensation technology. Both technologies are crucial for the stability of the series production process. The dual-spindle synchronous control can promote the rapid handover of parts between the main spindle and the sub-spindle without the need to stop the machine and re-clamp the operation. Thermal compensation technology successfully solves the problem of thermal deformation of machine tools after long-term continuous operation, and avoids the situation of dimensions exceeding the tolerance range and secondary adjustments caused by changes in temperature.

The evaluation report presented in 2025 shows that the processing accuracy of machine tools using new technologies can still be maintained within 3 microns after 8 hours of continuous operation. This data means that the factory can safely run the equipment through the night without worrying about parts being scrapped in the middle of the night. There is a precision machining factory in Zhejiang. After the introduction of five-axis turning and milling compound equipment, parts that originally required two lathes and a milling machine can now be completed with one piece of equipment. The cycle time of a single piece dropped from 6 minutes and 20 seconds to 3 minutes and 45 seconds, and the equipment footprint was also reduced by 60%.

Diverse markets have different requirements for efficiency

Different industries have different requirements for cycle time, but their core demands are fast. What the auto parts industry pursues is the ultimate cycle speed. Because the order volume can often reach hundreds of thousands of pieces, even if it saves only 1 second, it will add up to huge benefits. Medical implants Although the batch size of the incoming parts industry is small, the processing time of each part is quite long, so the need for cycle optimization is equally urgent. The five-axis turning and milling compound machining center has been optimized for both situations. Roughing and finishing can be continuously achieved on one piece of equipment.

The company's action plan for 2026 specifically mentioned that it will carry out customized development for the two fields of aerospace and medical equipment. The processing of titanium alloy parts in the aerospace field is very difficult. Traditional equipment requires multiple retractions and reversals, and the rhythm is extremely difficult to control. The high-torque spindle and rigid bed design of the new equipment allow heavy chip processing to be carried out smoothly. Code CNC: In the 2026 action plan of "Improving Quality, Increasing Efficiency and Focusing on Return", an aviation parts supplier showed after a trial that the CNC turning batch production rhythm was optimized , and the time to process an engine casing was shortened from the original 14 hours to 9 hours, and the efficiency increased by 35%.

Technical breakthrough points of new products under development

For the five-axis horizontal turning and milling compound machining center and the five-axis turning and milling compound machining center, the biggest breakthrough lies in the degree of intelligence. The equipment has a built-in processing process monitoring system, which can monitor cutting force, vibration and temperature in real time. Once an abnormality is detected, the system will automatically adjust the feed speed or remind the tool to be changed. This function is of particular practical value during mass production, and can effectively avoid the situation where the tool wear causes the cycle time to slow down and the scrap rate to increase. Test data presented in 2025 shows that after using intelligent monitoring, tool life is extended by 20% and unplanned downtimes are reduced by 45%.

Another technical highlight of these two new products is the high-speed spindle and rapid feed system. The maximum spindle speed can reach 12,000 rpm, and the rapid movement speed is increased to 48 meters per minute. For parts that require a lot of drilling and tapping, a high-speed spindle can directly shorten the cutting time. Rapid feed system reduces idle time. A customer engaged in hydraulic valve body manufacturing found through actual measurement that the waiting time from tool change to starting cutting dropped from 8 seconds to 3 seconds, and the single-piece cycle time dropped from 5 minutes and 10 seconds to 3 minutes and 55 seconds.

How does production capacity layout support mass production?

The new base is a production base that the company is expanding and is expected to be put into production in the third quarter of 2026. By that time, the annual production capacity will be increased from the current 200 units to 350 units. The new base has introduced a flexible production line, which can achieve mixed-flow production of different types of machine tools. This means that after confirming the customer's order, the delivery cycle can be reduced from ninety days to sixty days. For those factories that urgently need to expand production or undertake large orders, this delivery cycle is quite critical. There is a factory engaged in the production of new energy automobile parts. Because it could not wait for the 120-day delivery of imported equipment, it switched to this company's products.

There is another benefit of production capacity layout, which is reflected in that after-sales response can be faster. The company has set up three technical service centers in Dongguan, Suzhou and Chengdu, each center is equipped with spare parts warehouses and maintenance engineers. During mass production, the most worrying thing is the sudden shutdown of the equipment. Every additional hour of pause will result in a batch of fewer parts being produced. Due to the localized service network, engineers can arrive at the site within 4 hours, and commonly used spare parts can be replaced on the same day. According to the results of the 2025 customer satisfaction survey, the average equipment fault repair time has been reduced from 48 hours to 18 hours, greatly reducing the loss of production capacity caused by downtime.

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