Nanjing Jitermai Intelligent Equipment Co., Ltd. was established on July 7, 2023 (the head office was established on December 8, 2016). It is located in Lishui District, Nanjing City, with superior geographical location and convenient transportation. 25 km drive. We focus on the R&D, manufacturing and sales of intelligent mechanical equipment, and have a strong R&D team and a number of patented technologies.

With our professional technical team and in-depth understanding of the industry, we continue to develop products that meet market needs. Our advantageous products include flexible intelligent bending center, ultra-large-format high-power laser cutting machine, large-scale laser cutting machine, single-table laser pipe cutting machine, electro-hydraulic servo CNC bending machine, and pure electric single-axis and double-axis bending machine. These devices adopt advanced scientific research technology, high precision, fast speed, energy saving and environmental protection, which can greatly improve production efficiency and meet various large-scale production needs.

Jitermai Intelligent Equipment Co., Ltd. always adheres to market-oriented, technology-driven, quality as life, and service as guarantee. We are committed to providing the best quality equipment and services to help customers improve production efficiency, reduce costs and create greater value.

Our goal is to build Jidemei into a world-leading supplier of intelligent equipment, through technological innovation and service upgrades, to continuously meet customer needs and create greater value for customers.

Nanjing Jitemai Intelligent Equipment Co., Ltd. creates an industry benchmark for intelligent equipment with professionalism and quality.

The laser cutting system is composed of several key components:

Laser and External Optical Path: The laser generator produces a high-energy laser beam, which is transmitted and focused by an optical system. The power and trajectory of the laser can be precisely controlled to meet different cutting requirements.

Machine Host: The machine host is the core of the laser cutting system and includes several sub-systems such as the bed, crossbeam, worktable, Z-axis system, gas control system, electrical control system, drive system, protective cover, and safety system. These sub-systems work together to enable the laser cutting machine to operate normally.

Numerical Control System: The numerical control system controls and adjusts the laser cutting process, including parameters such as cutting path and speed. It is composed of a computer, input/output devices, servo motors, and control software. The computer is responsible for processing and storing various data such as cutting path and speed. Users can easily input the required shape and size into the computer through the control software, which generates specific control commands for the servo motors. The servo motors then accurately control the movement of the laser based on these commands. The numerical control system also monitors the entire cutting process and issues alarms and stops the cutting process if any abnormalities occur to ensure the quality and safety of the cutting process.

Operator Interface: The operator interface provides a convenient interface between the operator and the machine, enabling the operator to easily control and adjust various parameters of the laser cutting machine. It is equipped with various control buttons, switches, and displays, allowing the operator to control parameters such as laser power, cutting speed, and depth. The display also provides real-time information about the working status, fault messages, and cutting progress to facilitate the operator's understanding of the machine's status.

Laser Cutting Auxiliary Equipment: In addition to the aforementioned components, there are also several auxiliary equipment that cooperate with the laser cutting machine to ensure accurate and efficient cutting. These equipment include a voltage stabilizer to maintain a stable operating voltage for the laser cutting machine, a chiller unit and a drying unit to control the cooling water circulation system of the laser to ensure stable operation and prevent moisture from affecting cutting quality, filters to filter out exhaust gas emitted from the laser to avoid pollution and affecting operator health, gas cylinders and air compressors to provide gas power for the laser cutting machine to provide gas protection and slag removal functions, a gas cylinder to store large amounts of gas to ensure stable gas supply for long-term operation of the laser cutting machine, a dust collector to remove waste matter and smoke generated during the cutting process to maintain a clean working environment, and a slag collector to collect and remove slag and dust reducing operator workload and improving work efficiency. These equipment cooperate with the laser cutting machine to complete the cutting process ensuring accurate and efficient cutting quality.

Waste Collection and Disposal System: This system is responsible for collecting and disposing of the waste generated during the laser cutting process. It typically includes a suction device that collects the waste generated in the cutting process and transfers it to a container or dumpster for later disposal. This system helps to maintain a clean and tidy working environment, prevent blockages in the cutting path, and ensure the smooth progress of the cutting process.

Air Conditioning System: The air conditioning system maintains a stable and comfortable working environment for the operator. It controls the temperature, humidity, and ventilation in the operating area, providing a suitable working environment for the operator and ensuring the stable operation of the laser cutting machine.

Error Detection and Fault Diagnosis System: This system monitors the operation of the laser cutting machine and automatically detects any errors or faults that occur during the cutting process. It typically includes sensors and monitoring devices that monitor key parameters such as laser power, cutting speed, temperature, and pressure, sending real-time data to a control system or computer for analysis. When any abnormalities are detected, the system can issue alarms to alert operators, and can sometimes automatically take corrective action to minimize downtime and prevent damage to the machine. The fault diagnosis system can help operators identify the cause of any issues quickly and take appropriate action to resolve them, ensuring uninterrupted operation of the laser cutting machine.

Safety Protection System: The safety protection system is designed to ensure the safety of operators and personnel in the surrounding areas during the laser cutting process. It typically includes interlocking devices, safety guards, and other safety features to prevent operators from coming into contact with the laser beam or hot components of the machine. The system can also include emergency stop buttons and warning lights to allow operators to stop the machine quickly in case of any hazards or malfunctions.

Environmental Control System: The environmental control system is responsible for regulating the temperature, humidity, and cleanliness of the operating environment to ensure the stable operation of the laser cutting machine and maintain good cutting quality. It may include air filters, dust collectors, temperature and humidity sensors, and other related equipment to maintain the desired environmental conditions for the operation of the laser cutting machine.

Power Supply System: The power supply system provides stable and reliable power to the laser cutting machine, including the main power supply, backup power supply, and distribution board. The main power supply converts the input AC power into DC power required by the laser cutting machine, while the backup power supply ensures uninterrupted operation of the laser cutting machine in case of power failure or maintenance. The distribution board distributes the power to different components of the laser cutting machine, controlling the operation of the machine.

Water Cooling System: The water cooling system is responsible for cooling the laser cutting machine during operation. It typically includes water pumps, radiators, cooling pipes, and other components to cool down the temperature of the laser generator and other key components during the cutting process, ensuring stable operation of the laser cutting machine.

Lubrication System: The lubrication system provides lubrication to the mechanical components of the laser cutting machine to reduce wear and tear and maintain good mechanical properties. It typically includes lubricating oil, oil pumps, filters, and other components to lubricate the moving parts of the machine, ensuring smooth operation and extending the service life of the machine.

Cleaning System: The cleaning system is responsible for cleaning the laser cutting machine after each cutting process to remove debris, ash, and other pollutants generated during the cutting process. It typically includes water pipes, cleaning nozzles, wiping devices, and other components to clean different parts of the laser cutting machine after each cutting process, maintaining good cutting quality and extending the service life of the machine.

Workpiece Holding and Positioning System: This system is responsible for holding and positioning the workpiece during the laser cutting process. It typically includes clamping devices, positioning tables, and guides that can be programmed to move in specific patterns according to the desired cutting path. The system must be able to securely hold the workpiece in place during the cutting process while also allowing for quick and accurate positioning for different cutting jobs.

Cutting Gas Supply System: Laser cutting requires the use of gas, usually oxygen, to assist in the cutting process. The gas supply system provides the necessary gas flow and pressure to the cutting head, ensuring proper interaction between the laser beam and the workpiece. It typically includes gas cylinders, regulators, flow meters, and other components to control the gas supply and maintain the correct flow rate and pressure during the cutting process.

Fluid Delivery System: The fluid delivery system provides the coolant fluid to the cutting head during the laser cutting process. The coolant fluid serves to cool the cutting head and flush away debris and fumes generated during the cutting process. It typically includes pumps, hoses, nozzles, and other components to deliver the coolant fluid to the cutting head in a controlled manner, maintaining proper cooling and cleanliness of the cutting head.

Sensors and Monitoring Systems: The sensors and monitoring systems monitor key parameters during the laser cutting process, including the power of the laser beam, the gas flow rate and pressure, the temperature of the cutting head, and other parameters. The data collected by these sensors is used by the control system to adjust and optimize the cutting process, ensuring high-quality cuts with minimal errors.