Integrated vibration temperature transmitter

Integrated vibration temperature transmitterIt is an intelligent sensor that can monitor and measure the temperature and vibration status of equipment in real time, and is widely used in fields such as mechanical manufacturing, aerospace, metallurgy, and energy. The following are the applications of vibration temperature sensors:

1. In the field of mechanical manufacturing, vibration temperature sensors can be used on various mechanical equipment such as machine tools, heavy machinery, workbenches, and transmission devices. It can monitor the vibration status and temperature changes of mechanical equipment, detect and prevent possible faults and safety hazards in real time.

2. Aerospace field: Vibration temperature sensors can be applied to turbines, propellers, hydraulic circuits, and flight attitude control systems in aerospace equipment such as aircraft and satellites. It can help staff timely detect and eliminate possible faults and hidden dangers in on-board equipment, ensuring the safety and reliability of aircraft and satellites.

3. Metallurgical field: The vibration temperature transmitter VRT-2T can be applied to production processes such as steelmaking, casting, and rolling. It can monitor the vibration and temperature of high-temperature castings and rolling mills, helping workers to timely discover and solve technical problems and quality issues in the production process.

4. Energy field: Vibration temperature sensors can be applied to equipment such as pump stations, boilers, steam turbines, etc. in energy facilities such as oil, natural gas, and nuclear power plants. It can detect and measure the vibration and temperature of equipment in real time, helping staff to maintain and upkeep the equipment, ensuring safe and reliable energy supply.

In summary, as an important element in modern industrial technology, vibration temperature sensors have broad application prospects and development potential

Integrated vibration temperature transmitterIt mainly consists of three parts: X horizontal vibration measurement, Z vertical vibration measurement, and bearing temperature measurement. Two vibration velocity sensors are encapsulated internally, with a low-frequency response of up to 5Hz. Pt100 platinum resistors are used as sensing elements for performance and temperature measurement. The Pt100 platinum resistors are encapsulated in probes with compression springs, and temperature transfer occurs between the Pt100 platinum resistors and the bearings. twelve

A vibration velocity sensor utilizes the principle of magneto electric induction to convert vibration signals into electrical signals. It mainly consists of a magnetic circuit system, coil components, spring damping, and other parts. Two coil components are rigidly fixed in the sensor housing, and magnetic steel is suspended from the housing by springs. When the sensor operates within the working frequency range, the coil and magnetic steel produce relative motion, and the coil cuts the magnetic field lines, generating induced electromotive force (induced voltage), which is proportional to the vibration speed of the casing. The temperature measurement of a temperature sensor utilizes the linear variation of platinum resistance with temperature to measure temperature.

The application of vibration temperature sensors in mechanical equipment mainly involves the following aspects:

1. Vibration detection: Vibration sensors can monitor the vibration status of mechanical equipment in real time, such as measuring the vibration of bearings, detecting bearing failures early, and monitoring the vibration status of gears, clutches, conveyor belts, and other parts, in order to predict mechanical failures and prevent unexpected losses in production.

2. Temperature control: In the use of mechanical equipment, both high and low temperatures have an impact on the internal operating status of the equipment. Sensors can monitor the temperature changes of equipment in real time, preventing problems such as component hardening and oil deterioration caused by high temperatures, as well as preventing problems such as lubricant solidification caused by low temperatures.

3. Data analysis: The data generated by vibration temperature sensors can be analyzed through computer programs to understand the operating status of the equipment. By conducting statistical analysis on the data, the type and degree of machine or equipment failure can be approximately determined.

4. Auxiliary maintenance: In the maintenance of mechanical equipment, vibration sensors can locate the fault point, reduce maintenance time, and provide more scientific basis for sensor detection results during equipment maintenance, in order to better maintain the equipment.

By monitoring mechanical equipment through vibration temperature sensors, machine or equipment failures can be detected in a timely manner, effectively reducing production losses caused by failures, improving maintenance efficiency, and reducing maintenance costs. In addition, vibration temperature sensors also play a very important role in many critical mechanical equipment, such as manufacturing measurement equipment suitable for 2+3 dimensions, analyzing the accuracy compliance rate of machines, and monitoring large machinery and equipment such as high-speed rail units, all of which can be achieved using vibration temperature sensors.