ABB 3HAC17326-1/02 Motor M26 Type B

3. Heat dissipation design: the internal design of the efficient heat dissipation system, such as a large area of the heat sink combined with optimised air duct structure. The heat sink increases the heat dissipation area and speeds up the heat emission; the reasonable air duct design can guide the air flow and take away the heat generated during the motor running process in time to ensure that the motor maintains a stable temperature under a long time continuous working condition, avoiding the performance degradation or failure caused by overheating. 

Electrical design

1. Permanent magnet synchronous technology: permanent magnet synchronous motor technology is adopted, with built-in high-performance permanent magnets and high power density and efficiency. Compared with traditional asynchronous motors, permanent magnet synchronous motors do not need excitation current, which reduces power loss and improves the operating efficiency of the motor, and at the same time has better dynamic response performance and speed regulation performance . 

2. Insulation and protection: The windings of the motor are made of high-grade insulating materials, which have good insulation performance and electrical strength and can withstand high voltage and current impact. The protection level of the motor reaches IP65 or above, which can effectively prevent dust from entering into the motor, and at the same time, it can resist water splashing from all directions, ensuring the safe and reliable operation of the motor in complex industrial environments. 

Application Areas

Industrial robots

1. Joint drive: as the core drive component of industrial robot joints, 3HAC17326-1/02 Motor M26 Type B can accurately control the movement of robot joints and achieve complex spatial trajectory planning. In the automotive manufacturing industry, it is used in the joint drive of welding robots, which can ensure that the robot can accurately complete the welding seam tracking during high-speed movement, and improve the welding quality and efficiency; in the electronics manufacturing industry, it is used in assembly robots to achieve the accurate grasping and placing of tiny parts, and to meet the demand for high-precision assembly of electronic products. 

2. Collaborative robots: In the field of collaborative robots, the motor's high responsiveness and high-precision control characteristics enable it to work safely and efficiently with human operators. For example, in the fields of medical care and logistics, collaborative robots use the motors to achieve flexible movement execution and complete tasks such as surgical assistance and object handling. 

CNC machine tools

1. Feed axis drive: In CNC machine tools, it is used to drive the movement of the feed axis to achieve accurate feeding of tools in the X, Y, Z axes and other directions. With its high-precision position control and fast dynamic response capability, it can ensure that the machine tool achieves high-speed and high-precision cutting in the machining process to improve the machining accuracy and surface quality of the parts, which is suitable for the machining and manufacturing of precision parts. 

2. Spindle drive: it can also be used as the spindle drive motor of CNC machine tools, through precise control of the spindle speed and torque to meet the requirements of different machining processes (such as milling, drilling, boring, etc.) on the spindle performance. In high-speed cutting, the motor can maintain a stable speed and torque output to ensure tool stability and machining efficiency. 

Automated production line

1. Material Handling and Conveying: In the automated production line, drive conveyor belts, elevators, sorters and other equipment to achieve efficient material handling and conveying. The stable operation and precise control of the motor can ensure the accurate position of materials in the conveying process, avoid the accumulation or misplacement of materials, and improve the automation and production efficiency of the production line. 

2. Precision machining equipment: applied to the precision machining equipment in the automated production line, such as laser cutting machine, EDM machine tools, etc., to provide accurate power drive for these equipment. The high-precision control and fast response ability of the motor can meet the strict requirements of precision machining on the accuracy and speed of the movement to ensure the stability of the machining process and machining quality.