Which industries are the Follow Type CNC Crankshaft Grinding Machine mainly suitable for?

The Follow Type CNC Crankshaft Grinding Machine are widely used in industries with strict requirements on crankshaft processing quality due to their high precision, high flexibility and intelligence. Its core advantages are:

High-precision grinding: The CNC system accurately controls the grinding wheel feed and workpiece rotation to ensure that the roundness, cylindricity and surface roughness of the crankshaft main journal and connecting rod journal reach micron-level accuracy.

Follow-up tracking technology: The servo drive or hydraulic follow-up system is used to adjust the relative position of the grinding wheel and the workpiece in real time to meet the grinding requirements of the eccentric and non-circular profiles of the crankshaft.

Intelligent processing: Integrate online measurement, automatic compensation, grinding wheel dressing and other functions to reduce manual intervention and improve processing consistency.

Follow Type CNC Crankshaft Grinding Machine play a key role in the processing of traditional fuel vehicle crankshafts. Fuel engines have extremely strict requirements on the accuracy and surface quality of crankshafts. Through advanced CNC systems and follow-up tracking technology, this equipment can ensure that the processing accuracy of the crankshaft main journal and connecting rod journal reaches the highest industry standards.

For engines with different structures (such as inline four-cylinder, V-type six-cylinder, etc.), the equipment can automatically adjust the grinding parameters to meet the processing requirements of various eccentric distances. The use of special grinding wheel materials and optimized grinding processes significantly improves production efficiency while ensuring processing accuracy.

With the development of new energy vehicle technology, hybrid systems have put forward new requirements for crankshaft processing. This type of crankshaft usually needs to integrate the motor rotor function, so the requirements for dynamic balancing performance are more stringent. At the same time, the trend of lightweight design makes the crankshaft structure more complex and the processing difficulty increases.

The follow-up CNC crankshaft grinder can effectively control the deformation during the processing process through a high-rigidity structure and an intelligent control system to ensure the precise matching of the crankshaft and the motor. According to the characteristics of different materials, the equipment can automatically optimize the grinding parameters to avoid processing defects.

The crankshaft of a ship engine is large in size and heavy in weight, which puts special requirements on the processing equipment. The follow-up CNC crankshaft grinder adopts a specially designed support system to effectively prevent the deformation of large workpieces during processing.

In view of the special material characteristics of marine crankshafts, the equipment is equipped with a special grinding process database, which can automatically select the optimal processing parameters. The application of constant linear speed grinding technology ensures the stability of grinding conditions throughout the entire processing process, thereby ensuring the consistency of processing quality.

Medium and high-speed marine engine crankshafts have more stringent requirements on surface quality. The follow-up CNC crankshaft grinder can achieve ultra-high precision surface processing through a precise grinding wheel dressing system and an online measuring device.

In view of the particularity of the ship's operating environment, the equipment can be combined with a special cooling process to effectively prevent the corrosion of the crankshaft during subsequent use. The intelligent processing system can automatically compensate for the impact of various environmental factors on processing accuracy.