Guangdong JSWAY CNC Machine Tool Co., Ltd. since 2004.
The main reason for the CNC lathe attack knock against
CNC lathe knock against attacks on the precision of the machine tool, there is a lot of damage of different types of machine tools influence is different also, in general, about greater influence on the rigidity is not strong of machine tools, such as horizontal lathe, knock against, once the machine attack effect on the precision of the machine tool can be deadly. So on high precision CNC lathe, knock against certain to eliminate, just the operator master certain way to prevent knock against, attentive and is able to guard against and prevent knock against. Knock against the main reason for the CNC lathe attack analysis is as follows: 1, of the diameter of the cutting tool, and the length of the input fault. 2, the size of the workpiece and other related input fault and initial position of the workpiece geometry scale fault. 3, numerical control lathe workpiece coordinate setting fault, perhaps machine zero point in the process of machining is reset, and change, machine knock against most of the attacks in the process of fast moving machine tool and knock against the dangers of the night attack is the largest also, should be sure to prevent. So the operator should pay special attention to numerical control lathe in the initial stages of execution in the replacement tool and machine tool, the fault once the program editor at the moment, the diameter of the cutting tool and the length of the input fault, it is easy to knock against. Stage, the completion of the program of CNC axis of the blade action sequence fault, then may knock against. In order to prevent the knock against, the operator in the operation of the CNC lathe, to give full play to the function of the facial features, observe the machine with and without abnormal movements, presence of spark, there is no noise and abnormal noise, presence of vibrations, presence of caramel flavour. Metal processing WeChat content is good, it is worth attention. Found anomalies shall suspend the program, namely after being machine problem solving, machine ability continues to work.
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Methods to Reduce the Impact of Force-Induced Deformation
To minimize the impact of force-induced deformation on the stability of Swiss-type lathes and enhance machining accuracy and stability, the following measures can be taken:
JSWAY Company’s Professional Team Performance
As one of the exhibitors, JSWAY Company showcased the excellence of its professional team at this Jakarta Industrial Week. The team members of JSWAY Company, with their enthusiasm and professional knowledge, actively engaged in exchanges with customers from all over the world, providing them with detailed product introductions and technical support. They not only demonstrated JSWAY Company's advanced technology and high-quality products in the fields of CNC machines, milling and turning centers, and Swiss-type lathes, but also left a deep impression on customers with their enthusiastic service.
The booth of JSWAY Company attracted the attention of many professional visitors. Through professional explanations and demonstrations, the team members successfully conveyed to customers JSWAY Company's technological advantages and innovation capabilities in the field of CNC machines. Their positive performance not only enhanced JSWAY Company's brand image but also laid a solid foundation for the company's further expansion in the Southeast Asian market.
Compare manual mills and CNC machine advantages, costs, precision, and applications to choose the right technology for prototyping, job shops, or production.
Improving Precision and Service Life through Fixture Adjustment and Maintenance
Fixture Adjustment Methods:
Fixture Maintenance Methods:
By properly adjusting and regularly maintaining fixtures, the machining accuracy and service life of Swiss-type lathes can be effectively improved, ensuring efficient and stable production processes.
The stress in a machine tool bed can influence machining quality in several ways:
Machining Accuracy
Deformation and Displacement: Stress in the bed can cause structural deformation, which in turn affects the positional accuracy of various machine components. For example, insufficient rigidity at the tailstock support of the bed may lead to positional deviations of the tailstock center, with maximum displacement deformation reaching up to 0.13465 mm. Such deformation directly impacts the relative positioning between the tool and the workpiece, resulting in machining errors.
Differences in Machining Effects with Different Power Head Configurations
Single Spindle vs. Dual Spindle: Single-spindle Swiss-type lathes usually come with one side power head and are suitable for machining relatively simple parts. In contrast, dual-spindle lathes can be equipped with more power heads and can even perform simultaneous machining on the main and secondary spindles, significantly improving machining efficiency and complexity.
Side Tool Post vs. Horizontal Tool Post: Power heads with a side tool post structure perform better when machining difficult-to-chip materials, while those with a horizontal tool post structure are more efficient for machining easy-to-cut materials.
In summary, the power heads of Swiss-type lathes offer significant advantages in machining accuracy, efficiency, complexity, and adaptability. Different power head configurations can be selected based on specific machining requirements to achieve the best machining results.