High-precision infrared thermography cameras are used for high-precision non-contact measurement of the temperature field of high-temperature objects. Composed of a high-temperature infrared thermography camera, a high-temperature calibration system, and other components, it uses the principle of infrared thermography to detect the infrared radiation of the test object and convert the distribution of the surface temperature of the test object into a visual image through signal processing, photoelectric conversion, and other technologies.
High-precision infrared thermography cameras are not only suitable for measuring the surface temperature of objects in open environments, but can also be used to measure the surface temperatures of objects in enclosed spaces when paired with infrared glass, such as evaluating the cooling effect of turbine cooling blades.
The high-precision infrared thermography camera measures in the waveband of 780-1080nm, corresponding to a temperature range of 450℃ to 1700℃, and should be placed 1.5 to 2.0 meters away from the test object during measurement.
For many applications, such as parts production in the automotive or electronic industries, thermal data is crucial. Although machine vision software can identify production issues, it cannot detect thermal anomalies. Thermal imaging provides production professionals and decision-makers with more information.
In fact, nothing can match infrared thermography cameras in non-contact accurate temperature measurement. It adds a new dimension to machine vision and is a perfect solution for non-contact accurate temperature measurement and non-destructive testing.
Process control primarily involves temperature measurement or appearance inspection of specific products on the production line. The obtained parameters are used to control and improve the process, making the product temperature or appearance meet technical parameter requirements. For example, to ensure quality control and determine if the product has undergone 100% inspection. Infrared thermography cameras can do even more, and production engineers can use valuable data generated during the production process to improve the entire production process's efficiency.
Condition monitoring identifies potential problems before they occur, preventing costly unexpected downtime. Typical equipment that can be monitored include high-voltage and low-voltage equipment, turbines, compressors, and other electromechanical devices. Sometimes it is also necessary to monitor the entire production process, as any abnormality can lead to a dangerous situation.
Fire can destroy the entire premises and storage area in a short amount of time. The value of the destroyed goods is enormous, and the cost of life is incalculable. Although warehouses and storage areas are typically equipped with fire alarm systems and fire prevention systems, these systems only come into play after a fire has occurred. Infrared thermography cameras can detect hotspots before a fire breaks out so that necessary actions can be taken by relevant personnel.
Optical gas imaging infrared thermography cameras can visualize and accurately locate gas leaks, continuously scan equipment located in remote or hard-to-reach areas, and continuously monitor them, which means you will be notified immediately when dangerous or expensive gas leaks occur, and can take necessary action promptly.
