The application of vibration sensors in high-voltage electricity is mainly used to monitor and detect the vibration of high-voltage electrical equipment or systems, in order to determine the operating status and fault conditions of the equipment. Specific applications include:

1.Vibration monitoring of high-voltage electrical equipment: Vibration sensors can be installed in key parts of high-voltage electrical equipment (such as transformers, generators, switchgear, etc.). By monitoring the vibration of the equipment, it can be determined whether the equipment is operating normally, whether there are abnormal vibrations or faults.

2. Fault diagnosis of high-voltage electrical equipment: Vibration sensors can diagnose equipment faults by monitoring parameters such as vibration frequency and amplitude. For example, when a bearing failure occurs in the equipment, specific vibration frequencies and modes will be generated. These abnormal vibration signals can be detected in a timely manner through vibration sensors for fault diagnosis and maintenance.

3. Preventive maintenance of high-voltage electrical equipment: Vibration sensors can be used for preventive maintenance of high-voltage electrical equipment. By regularly monitoring the vibration of equipment, potential faults or abnormal vibrations can be detected in a timely manner, and corresponding maintenance measures can be taken to avoid downtime and losses caused by equipment failures.

In short, the application of vibration sensors in high-voltage electricity can provide monitoring of equipment operation status, fault diagnosis, and preventive maintenance, which helps to improve the reliability and safety of equipment.

The application of vibration sensors in high-voltage electrical monitoring equipment is mainly used to monitor the vibration situation of the equipment, in order to determine the operating status and fault conditions of the equipment. Specific applications include:

1. Transformer vibration monitoring: Vibration sensors can be installed in key parts of transformers, such as oil tanks, windings, etc. By monitoring the vibration of transformers, it is possible to determine whether they are operating normally, whether there are abnormal vibrations or faults. For example, when the transformer winding becomes loose or experiences internal faults, specific vibration signals are generated. These abnormal vibration signals can be detected in a timely manner through vibration sensors, enabling fault diagnosis and maintenance.

2. Generator vibration monitoring: Vibration sensors can be installed on the bearings, stator, rotor, and other parts of the generator. By monitoring the vibration of the generator, it can determine whether the generator is running normally, whether there are bearing faults, imbalances, and other issues. Vibration sensors can detect the frequency and amplitude of vibrations generated by the generator, thereby determining the operating status and fault conditions of the generator.

3. Vibration monitoring of switchgear: Vibration sensors can be installed in key parts of high-voltage switchgear, such as circuit breakers, isolating switches, etc. By monitoring the vibration of switchgear, it can be determined whether the equipment is operating normally, whether there are abnormal vibrations or faults. For example, when the internal components of the switchgear become loose or worn, specific vibration signals will be generated. These abnormal vibration signals can be detected in a timely manner through vibration sensors for fault diagnosis and maintenance.

In summary, the application of vibration sensors in high-voltage electrical monitoring equipment can provide vibration monitoring, fault diagnosis, and preventive maintenance, which helps to improve the reliability and safety of the equipment

Senther Sensor Recommendation

310A performance features: sturdy and durable, corrosion-resistant, metal sealed welding, shell isolation, EMI/RFI shielding, impact resistance.

310AT performance features: temperature vibration integration, corrosion resistance, metal seal welding, shell isolation, EMI/RFI shielding, impact resistance.

311A performance features: intrinsic safety certification, corrosion resistance, metal seal welding, shell isolation, EMI/RFI shielding, impact resistance.

311AT performance features: temperature vibration integration, intrinsic safety certification, corrosion resistance, metal seal welding, shell isolation, EMI/RFI shielding, impact resistance.

(2) The characteristics of the IN-LDG state monitoring system include the ability to exchange data with various systems, local HIM display system (indication value, alarm), PLC system (indication value, alarm, simple diagnosis), CMS system (indication value, alarm, raw data, FFT analysis, fault diagnosis), and various big data processing and analysis systems within the factory (indication value, diagnostic results). The IN-LDG intelligent vibration transmitter has strong data processing capabilities and can meet the vibration monitoring needs of different types of equipment.