At SOUTH lathe, our professional team has decades of experiences working with quality desktop swiss lathe. We have dedicated to substantial resources to achieving our many quality certifications. Each product is fully traceable, and we only use materials from sources on our approved vendors list. We’ve taken rigorous measures to ensure that only superior quality material can be put into the production.
SOUTH lathe becomes one of the powerful brands in the industry for several consecutive years. The products are marketed globally to grasp more commercial opportunities, and the sales volume reflects the marketing results. Customers post positive comments via social media, recommending the products to friends and relatives. The product quality is fully evaluated by the customers and satisfies customers' demands for performance. We tend to receive more orders from home and abroad.
Our team of experts will work with you to develop a customized desktop swiss lathe that works best for your business at SOUTH Lathe. We design to fit customers' needs whether online or face-to-face.
CNC machine tools are technology-intensive equipment integrating mechatronics. Whether the machine tool can operate reliably for a long time depends to a large extent on its use and maintenance.
1. Precautions when using CNC machine tools: The entire processing process of CNC machine tools is completed in accordance with digital procedures by a CNC system composed of a large number of electronic components. If the workpiece is scrapped or a safety accident occurs due to the failure of the CNC system or execution components during processing, There is generally nothing the operator can do. Therefore, the requirements for the stability and reliability of CNC machine tools are more important. For this reason, the following issues should be paid attention to when using CNC machine tools.
(1) Usage environment of CNC machine tools: Generally speaking, CNC machine tools have no special requirements for the use environment and can be placed in the production workshop like ordinary machine tools. However, direct sunlight and other thermal radiation should be avoided, and places that are too humid or dusty should be avoided, especially places with corrosive gases. Corrosive gases are most likely to cause corrosion and deterioration of electronic components or cause poor contact. Or it may cause components to short-circuit, affecting the normal operation of the machine tool. Stay away from equipment with large vibrations, such as punch machines, forging equipment, etc. For high CNC machine tools, anti-vibration measures (such as anti-vibration trenches, etc.) should also be taken. For high-precision and expensive CNC machine tools, it is ideal to use them in an air-conditioned environment.
(2) Power supply requirements: CNC machine tools adopt dedicated power supply lines (separate one line from the low-voltage power distribution room for use by CNC machine tools) or add a voltage stabilizing device, which can reduce the impact of power supply quality on machine tools and electrical interference.
(3) CNC machine tools should have operating procedures: Operating procedures are one of the important measures to ensure the safe operation of CNC machine tools. Operators must operate according to the operating procedures. When a machine tool fails, the operator should pay attention to retaining the scene and truthfully explain the situation before and after the failure to the maintenance personnel. This will facilitate analysis and diagnosis of the cause of the failure, troubleshooting in a timely manner, and reduce downtime.
(4) CNC machine tools should not be stored for a long time: after purchasing CNC machine tools, you must make full use of them and try to increase the utilization rate of the machine tools, especially in the first year of use, so that the weak links that are prone to failure are exposed as soon as possible. , the hidden dangers of faults should be eliminated as much as possible within the warranty period. If the factory has no production tasks and the CNC machine tool is not used for a long time, it should be powered on regularly. It can be powered on 1 to 2 times a week and run dry for about 1 hour each time to use the heat generated by the machine tool itself to reduce the humidity inside the machine. This prevents electronic components from getting damp, and at the same time, it can detect in time whether a battery alarm occurs to prevent the loss of system software and parameters.
(5) Work with a certificate: Operators must not only have qualification certificates, but also have to receive special operation training based on the machine tool used by technicians before taking up the job. They must be familiar with the instructions and the structure, performance, and characteristics of the machine tool, and master the instruments and switches on the operating panel. , the functions and instructions of the knobs and buttons, blind operation and misuse are strictly prohibited.
(6) Compressed air meets standards: The pressure of compressed air required by CNC machine tools should meet standards and be kept clean. It is strictly forbidden to use ungalvanized iron pipes for pipelines to prevent rust from clogging the filter. It is necessary to regularly check and maintain the gas and liquid separators to prevent moisture from entering the gas line. Install a gas and liquid separation and filtering device outside the machine tool's air pressure system to increase protection links.
(7) Correct selection of cutting tools: Correct selection of high-quality cutting tools can not only give full play to the processing efficiency of machine tools, but also avoid unnecessary failures. The specifications and dimensions of the tool should meet the technical requirements, otherwise the tool change operation will not proceed smoothly.
(8) Detect each coordinate: Before processing the workpiece, each coordinate must be detected, the program reviewed, and the processing program simulated and tested normally before processing.
(9) Prevent collisions: Before the equipment returns to the "machine zero point", "working zero point...'control zero point" operation, it must be determined that the movement direction of each coordinate axis is free of obstacles to prevent collisions.
(10) Do not dismantle key components at will. The CNC machine tool has a simplified mechanical structure, reliable sealing, and increasingly perfect self-diagnosis functions. During daily maintenance, except for cleaning the exterior and specified lubrication parts, other parts must not be disassembled and cleaned. for key components. Devices such as grating rulers of CNC machine tools must not be collided or dismantled at will.
(11) Do not change parameters at will: The safe storage of various parameters and basic setting programs of CNC machine tools directly affects the normal operation and performance of the machine tool. Operators are not allowed to modify them at will. If improper operation causes a malfunction, the situation should be explained to the maintenance personnel in time. In order to find fault clues and deal with them.
The inclined bed CNC lathe adopts an inclined structure, and the bed is a hollow structure, which greatly improves the bending and torsional rigidity of the machine tool during operation, and at the same time has high stability. The high rigidity and high stability of the inclined bed CNC lathe provide a strong guarantee for the high precision of machine tool processing.
Inclined bed CNC lathes are mainly used for processing complex rotating parts. It can meet the processing of internal and external circles, step surfaces, cones, spherical surfaces, grooves, threads and complex curved surfaces. It can satisfy the rough and finishing machining of copper, aluminum, iron, stainless steel and other casting and forging blanks.
The inclined bed CNC lathe has good reliability, strong rigidity, high precision, long life and high speed. It can reliably and stably complete the rough, fine and finishing processing of various difficult-to-machine materials. The rotary tower knife is used, which has high positioning accuracy and small deformation during heavy cutting.
The impact of cutting processing on workpiece quality includes surface decarburization, residual stress, machining allowance, surface smoothness, removal of carbon-poor layer, etc. This is when the workpiece is in the tempering, normalizing, and annealed state, and the hardness is lower than 45HRC. However, the effect is not significant and will not constitute a change in the potential function of the workpiece.
Hard machining refers to the processing of hardened steel or workpieces. The higher hardness of 50-65HRC, materials such as bearing steel, high-speed steel, roll steel, general quenched steel and quenched mold steel, has a significant impact on the cutting process. . The factors that cause a certain degree of damage to the surface of the processed workpiece mainly include cutting heat generation and conduction, high-speed friction and wear during the cutting process. The integrity of the surface processed by hard cutting mainly includes the surface structure and its thickness, surface roughness, dimensional accuracy, distribution of residual stress and white layer generation.
The surface hardness of the processed workpiece increases with the decrease of feed amount and cutting amount, and increases with the increase of cutting speed. The higher the hardness of the machined workpiece surface, the greater the depth of the hardened layer. The surface of the workpiece after hard cutting is full of residual compressive stress, while the compressive stress of the workpiece after grinding is mainly concentrated on the surface of the workpiece.
The factor that affects the surface integrity of the workpiece is the hardness of the workpiece. The greater the hardness value of the workpiece, the more beneficial it is to the formation of residual compressive stress. The larger the obtuse radius of the tool used in cutting processing, the greater the value of residual compressive stress; the higher the hardness of the workpiece, the greater the value of residual compressive stress.
The formation of the white layer is another important factor affecting the quality of the surface of the workpiece processed by hard cutting. A kind of tissue structure formed along with the hard cutting process is the white layer. The white layer has common grinding characteristics, namely high hardness, good corrosion resistance and high brittleness. Higher brittleness can easily cause early shedding failure, or even cause the workpiece to crack after being left for a period of time after processing.
When operating a CNC lathe, you should first pay attention to how to set the tool. Otherwise, the tool will collide during processing, and the machine tool safety plate will be seriously damaged. The tool setting method is as follows:
1. The tool setting operation process is as follows. First, carve a cylindrical shape on the machine tool. The extended length is slightly longer than the actual processed part. If you want to cut, leave the width of the cutting knife. At this time, the machine tool returns to the origin position.
2. Call up the program of the part to be processed, and then call out the subprogram where the tool number is located. If it is tool No. 5, set its correction parameter to 0 first. At this time, use a single program to start, that is, start once and run one step. Program.
3. when running to the 0 o'clock position of No. 5 tool, the machine chuck rotates, the machine tool is set to manual operation, moves No. 5 tool, and when No. 5 tool touches the cylindrical end face, enter MZ0.00 in the correction number of No. 5 tool , then the tool moves backward, from the side to the cylinder. When the tool tip touches the outer longitude of the cylinder, enter the diameter of the cylinder in the correction number of tool No. 5. If it is 10.32, enter MX10.32. At this time, move the tool out , return the X-axis and Z-axis to their origins. The No. 5 tool is basically aligned.
4. In actual machining, there is an error between the size of the part processed by No. 5 tool and the drawing size. At this time, tool compensation is required. For example, if the outer diameter is 0.05 larger and the length is 0.1 longer, you have to make corrections with No. 5 tool. Enter U-0.05 and W-0.1 respectively on the number, then the No. 5 knife is really correct.
5. Pay special attention to it. If the tool is worn and the machining dimensions are out of tolerance, tool compensation must be performed. Pay special attention to this.
CNC (Computer Numerical Control) Lathe is a type of machining tool that is used to perform various operations such as cutting, drilling, and turning on a workpiece. It is a highly versatile machine that can be used to produce complex and precise parts with high accuracy. One of the popular manufacturers of CNC Lathes is SOUTH LATHE, a company known for its advanced technology and efficient machines.
The manufacturing process comprises several steps, including design, material selection, production, assembly, and quality control.
Design:
The first step in the manufacturing process of a CNC Lathe is the design phase. A team of experienced engineers and designers who use specialized software to design the machine. They take into account various factors such as the type of material the machine will work with, the size and shape of the workpiece, and the desired level of accuracy.
Material Selection:
After the design phase, the next step is material selection. We uses only high-quality materials for the production of their CNC Lathes. This ensures that the machines are sturdy and can withstand the rigors of continuous use. The most commonly used materials are cast iron and steel, as they provide the required strength and stability for the machine.
Production:
Once the design and material selection are finalized, the actual production of the CNC Lathe begins. We has a state-of-the-art manufacturing facility equipped with the latest machinery and tools. The production process involves multiple steps such as cutting, drilling, and milling, to create the various components of the machine. Computer-controlled machines are used for high precision and accuracy in this process.
Assembly:
After the production of individual components, the assembly process begins. Here, all the components are put together to form the final product – the CNC Lathe. As the name suggests, this is a computer-controlled process, where each component is assembled in a specific sequence to ensure proper functioning of the machine.
Quality Control:
The final step in the manufacturing process is quality control. Each CNC Lathe undergoes rigorous testing to ensure it meets the company's high-quality standards. The machine is put through various tests to check its accuracy, precision, and durability. Only after passing the quality checks, the machine is deemed ready for shipment to the customer.
Let us have a deeper understanding of CNC lathes through Maximum Turning Diameter, Maximum Turning Length, Spindle Bore Diameter,Spindle Nose Type,Spindle Speed Range,Rapid Traverse Rate,Tool Changing System,Tool Size Compatibility:
Maximum Turning Diameter:
One of the key features of a CNC lathe is its ability to handle different sizes and shapes of workpieces. The maximum turning diameter of CNC machines ranges from 150mm to 3000mm, making it suitable for a wide range of industrial applications.
Maximum Turning Length:
In addition to diameter, the maximum turning length of a CNC lathe is also an essential aspect. We offers machines with a maximum turning length of up to 10 meters, providing flexibility for machining long and complex components.
Spindle Bore Diameter:
The spindle is the heart of a lathe machine, and its size determines the maximum diameter of the workpiece that can be accommodated.The machines have a spindle bore diameter ranging from 30mm to 400mm, allowing for the production of various-sized parts.
Spindle Nose Type:
The spindle nose is the front end of the spindle that holds the workpiece securely in place during the machining process. We offers a range of spindle nose types, including A2-8, A2-11, and A2-15, to meet different machining requirements.
Spindle Speed Range:
The speed of the spindle rotation is a crucial factor in achieving desired surface finish and cutting efficiency. We have a spindle speed range of 15-1500 RPM, giving operators the flexibility to adjust the speed according to the requirements of the workpiece.
Rapid Traverse Rate:
The rapid traverse rate refers to the maximum speed at which the cutting tool can move across the workpiece during rapid movement. Lathes offer a high rapid traverse rate of 15m/min, significantly reducing the idle time and increasing productivity.
Tool Changing System:
The machines are equipped with an automatic tool changing system, allowing for quick and efficient tool changes during the machining process. This feature eliminates the need for manual intervention and saves time, making the machining process more efficient.
Tool Size Compatibility:
CNC lathes require compatible tool sizes to ensure accurate and efficient machining. The machines are designed to accommodate a wide range of tool sizes, from 20mm to 50mm, making them versatile for various machining operations.
CNC Machining Center:
SOUTH LATHE also offers CNC machining centers, which combine the capabilities of a lathe and a mill, allowing for both turning and milling operations on a single machine.
Heavy-Duty CNC Lathe:
The heavy-duty CNC lathes are designed to handle heavy and large workpieces with high precision and reliability. These machines are built to withstand heavy loads and can be used in industries such as aerospace, oil and gas, and heavy equipment manufacturing.
Light-Duty CNC Lathe:
The light-duty CNC lathes are more compact and cost-effective, making them suitable for small to medium-sized production runs. These machines are commonly used in industries such as automotive, electronics, and medical equipment manufacturing.
Manual Lathe Machine:
Manual lathe machines are suitable for simple and less complex machining tasks. These machines are manually operated but still boast high precision and accuracy, making them suitable for small workshops and production units.
The manufacturing process of CNC lathe involves advanced technology and techniques to produce high-quality and versatile machines. From heavy-duty to light-duty, CNC to manual, we offers a wide range of options to cater to the diverse machining needs of different industries. With its commitment to innovation and customer satisfaction, SOUTH LATHE has established itself as a leading manufacturer in the CNC machine industry.
Swiss lathe, also known as a Swiss screw machine or Swiss automatic lathe, is a highly sophisticated and versatile machine that is widely used in the manufacturing industry for producing small, precise and complex parts. In the world of manufacturing, Swiss Lathes have revolutionized the production process. These high-precision machines have the ability to produce complex and intricate parts with utmost accuracy, making them a go-to for many industries. SOUTH lathe is a professional CNC machine manufacturer of turning-milling drilling, tapping and carving combined machine tool.
In this article, we will discuss the precautions and suggestions for a quality inspection process for Swiss Lathe production equipment, with a focus on design and manufacturing.
● Raw Material Inspection: The first step in ensuring high-quality components is to inspect the raw materials before the production process. Quality checks must be done for dimensions, surface finish, and composition, along with material certification to ensure consistency in the production process.
● Maintenance of Machinery: Regular maintenance of Swiss Lathes is essential to ensure the quality of components produced. Any wear and tear or malfunction in the machine can result in inconsistencies in the finished product. Hence, regular maintenance checks must be carried out to keep the machine in excellent working condition.
● Operator Training: Swiss Lathes require skilled operators to run them effectively. Training operators on the machine's functioning and standard operating procedures is crucial to ensure the production of high-quality components. Any errors or mishaps due to untrained operators can be costly and can lead to significant delays in the production process.
● In-process Inspections: Implementing a process of in-process inspections, where components are checked at various stages of production, can help identify and fix any potential issues in the early stages. This way, any defects or deviations from the specifications can be detected and corrected before the production process is completed.
● Accurate Programming and Set-up: The quality of the final product also depends on the accuracy of the programming and set-up of the machine. Any mistake in the program or set-up can lead to deviations in the shape, size, and dimensions of the parts. Hence, it is essential to follow the appropriate guidelines and standards for programming and set-up to produce accurate and consistent parts.
Analyze the Design
The design of a component is critical in determining its quality. Swiss Lathe technology enables the production of intricate parts, but a poorly designed component can lead to a flawed end product. Hence, before starting the production process, it is crucial to analyze and optimize the design for efficient production and high-quality components.
Use Quality Measuring Instruments
To ensure the accuracy and precision of components, it is essential to use high-quality measuring instruments during the inspection process. These instruments must be calibrated regularly to maintain their accuracy. Using inferior quality instruments can lead to incorrect measurements, resulting in a faulty production process.
Conduct 100% Inspection
It is recommended to conduct a 100% inspection of components before they are sent for further processing or assembly. This will help identify and isolate any defective products, preventing them from reaching the customer's hands. In the case of high-volume production, a sampling inspection can also be conducted, but it must be done with a statistically significant sample size.
Document the Inspection Process
Proper documentation of the inspection process is crucial for tracing any defects or quality issues. It also helps in identifying any patterns or trends in the production process that can be rectified to improve the overall quality of the components. Documenting the inspection process also helps in maintaining consistency in the quality of components produced.
Implement a Quality Management System
To ensure a smooth and efficient quality inspection process, it is recommended to implement a Quality Management System (QMS). A QMS provides a framework for managing and improving the production process, ensuring the production of high-quality components consistently. It also helps in identifying and addressing any non-conformities and implementing corrective measures.
Multiple Quality Checks
Apart from a final inspection of every part before release, it is also essential to perform intermediary quality checks during the production process. This process involves checking the parts at different stages to ensure that they meet the required specificatio
Manufacturing components using Swiss Lathes requires attention to detail and strict quality control practices. Any deviation from the specifications or defects in the components can result in costly delays and affect the company's reputation. Hence, it is crucial to follow the recommended precautions and suggestions for a smooth and efficient quality inspection process.
Contact Us
+86 13928187729
+86 13928187729
manager@jeasoncnc.com / js_john@vip.163.com
No.3 Huafu Road, Bianjiaojuweihui, Ronggui town Shunde Foshan City, Guangdong Pronvice China.