In the past I have been asked whether I could do a Stirling Cryo-Cooler from a cooled thermal camera. The problem with this request is that such cryo-coolers are not common and if you have one that works, you generally do not dismantle it as such renders the cooler unuseable.
One of my cooled cameras that was awaiting my assessment is a FLIR SC3000 Quantum Well LWIR camera. Sadly that cameras cooler proved to be dead and it had clearly been dismantled by the previous owner. This presented me with the opportunity to fulfill fellow forum members requests for a teardown of the cooler
Before we start, a little about these Stirling mechanical cryo-coolers. Some thermal imaging sensors and arrays require cooling to very low temperatures in order to work as an imaging sensor. When I say "low temperatures" we are dealing with similar temperatures to that of Liquid Nitrogen. Many thermal cameras operate their Stirling Coolers at 77K (-196 Celsius) but some operate at different temperatures. This QWIP unit operates at 70K (-203 Celsius). These are the low temperatures needed to lower the internal noise of a semiconductor thermal detector to a level where it can detect the thermal energy found in thermal imaging camera systems. At room temperature such a detector would be swamped with its own thermal noise. There are special semiconductor detectors that are also cooled but can operate satisfactorily at "only" -70 Celsius but they tend to use Peltier Stack coolers and not a Stirling mechanical cooler so will not be covered here. The Micro Stirling Mechanical Cryo-cooler is a precision piece of mechanical engineering that has an operation al life before it requires a service. The predicted operational life of a rotary Micro Cro-Cooler used to be around 2000 hours. This has improved over the years and a 10,000 hour life is not unusual now. Servicing a Micro Cryo-Cooler, such as we are discussing here, is a specialist task that requires the correct service tools, techniques, spare parts and Ultra Pure Helium gas (NOT Helium balloon gas!). This results in Cryo-Cooler servicing being expensive and difficult to source. A cryo-cooler service can easily cost $5000 per cooler.
The cryo-cooler that we are going to see in this thread is a Rotary type but there is another type that is called a Linear Cryo-cooler. There are also split cooler systems. I will not go into the different types of Cryo-Cooler here as there is plenty of information available on the topic via Google. Are such Cryo-Coolers still made and used ? Yes they are. High performance thermal imaging systems often use a Stirling Cryo-cooler to produce low noise imagery. You will also find such Micro Stirling Cryo-coolers flying on satellites where they are used in all manner of applications including Imaging, Sensor arrays and specialist science systems that require operation at very low stable temperatures.
OK, enough of the background, on with the pictures. I have included some images that show the design of a Micro Stirling Cryo-cooler to help readers understand the content of the images.