What are the methods to control the operating conditions of the coaxial TY112-35.5-4KW reducer

In addition to common methods, the following methods can be used to control the operating conditions of the coaxial TY112-35.5-4KW reducer:

• Electrical control method

• Resistor speed regulation method : Connect a resistor in series in the input circuit of the motor, and adjust the input current of the motor by changing the resistance value, thereby achieving speed regulation. This method has a simple structure, low cost, a large speed regulation range, but has a low speed regulation accuracy, and energy loss will occur during the speed regulation process.

• Autotransformer speed regulation method : Change the motor input voltage by changing the tap position of the autotransformer connected to the motor, thereby adjusting the motor speed. This method has good speed regulation and smoothness, and can achieve stepless speed regulation. The equipment is simple, low cost, but low efficiency.

• Vector control speed regulation method : This is a technology that uses the inverter to control a three-phase AC motor. By adjusting the output frequency, output voltage and angle of the inverter, the output of the motor is controlled. It can individually control the magnetic field and torque of the motor, similar to the characteristics of the special excitation DC motor, has good dynamic performance and steady-state performance, and is suitable for speed regulation requirements under precise control and variable load conditions.

• Mechanical control method

• Clutch speed regulation : The clutch controls the engagement and disconnection of the transmission chain to achieve the speed regulation of the reducer motor. Commonly used clutches include electromagnetic clutch and friction clutch. This method is simple and easy to use, but has poor accuracy and stability.

• Transmission speed regulation : The speed regulation of the reducer motor is achieved by changing the transmission ratio by changing the transmission. This method can obtain a large speed regulation range and high speed change accuracy, but the structure is more complex and the maintenance cost is higher.

• Hydraulic control method

• Variable pump speed regulation : The speed regulation of the speed reduction motor is achieved by changing the displacement or flow of the hydraulic pump. This method has a fast response speed and a wide speed regulation range, but requires a stable hydraulic system and high maintenance costs.

• Throttle valve speed regulation : The speed regulation of the speed reduction motor is achieved by setting a throttle valve in the hydraulic circuit to control the flow. This method is simple and easy to use, with low cost, but low efficiency.

• Intelligent control method

• Remote intelligent control : Based on intelligent remote control technology, combined with 4G/5G, Internet of Things, cloud computing and mobile applications, users can realize start-stop control, status monitoring, fault warning, etc. of reducer through mobile APP or web pages. They can also support intelligent start-stop, remote speed regulation, automatic maintenance reminder and other functions to improve equipment safety, operation and maintenance efficiency and intelligence level.