Machine tool structure
1. Quality and stability of castings
The main components are made of high-quality castings and undergo aging treatment to eliminate internal stress. This structure provides good rigidity and stability, and can resist deformation and ensure machining accuracy during long-term use. For example, when the machine tool works continuously, the machining accuracy can also be maintained at a high level.
2. Structural layout optimization
The overall structural layout is reasonable, and the components are closely coordinated. Key components such as columns and bed frames are designed with reinforcing ribs to increase rigidity and reduce vibration. The design of the heat dissipation channel is reasonable, reducing the impact of thermal deformation on machining accuracy and ensuring stable performance of the machine tool in different environments.
5, Configuration Options
1. Diversity of tool systems
• Compatible with BT30 specification tool system, tools can be selected according to processing technology, such as milling cutters, drills, taps, etc., which can complete various processing procedures and meet the processing needs of different parts. For example, selecting suitable cutting tools for efficient machining based on the material and shape of the parts.
2. Optional automation configuration
Provide options such as automated loading and unloading equipment, automatic tool changing devices, etc. In mass production, the combination of automated loading and unloading equipment and machine tools can improve efficiency and reduce labor costs. The automatic tool changing device can reduce processing assistance time and improve overall efficiency.
6, Quality assurance
1. Strict quality inspection process
Establish a strict quality inspection process during the production process. From raw material screening and inspection, to component processing and testing, to performance testing after assembly of the entire machine, every link is strictly controlled. For example, after spindle assembly, dynamic balance testing and precision testing are carried out to ensure that the quality meets high standards.
2. Comprehensive after-sales service
We have a professional after-sales service team that provides comprehensive technical support and after-sales service. On site guidance during the installation and debugging phase to ensure the normal operation of the equipment, as well as providing operational training. Timely respond to maintenance needs during use to ensure production. Regularly follow up to collect feedback and improve products and services.
7, Application Fields
The ZD-400 machining center is widely used in industries such as mechanical manufacturing, automotive parts processing, electronic equipment manufacturing, and mold manufacturing due to its performance. In the field of mechanical manufacturing, it is used to process the planes, contours, and hole systems of mechanical parts; In the processing of automotive parts, it is suitable for the processing of parts such as engine cylinder blocks and transmission housings; In electronic device manufacturing, circuit boards and casings can be processed; In the field of mold manufacturing, it can process small mold cavities, cores, and hole systems. Whether it is the high-precision mold manufacturing and electronic equipment industries, or the efficient production oriented mechanical manufacturing and automotive parts industries, the ZD-400 is an important equipment for improving processing capabilities, product quality, and market competitiveness.
The ZD-400 machining center has become an ideal choice for high-precision machining in modern manufacturing due to its advantages in machining capacity, machining accuracy, CNC system, machine tool structure, configuration options, quality assurance, and application fields. It can bring users a good machining experience and economic benefits.
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