CPI’s X1 thermal switch is being increasingly used by both American and European avionics manufacturers and integrators as their thermal switch of choice for spot detection of overtemperature conditions in systems throughout the aircraft. Recent integrations include FAA approval as a Fenwal replacement on Gulfstream jets, use in the De Havilland “Twin Otter” aircraft, and use by specialty aircraft manufacturer Diamond Aircraft in Europe to name a few.
But actually, CPI’s thermal switches have been flying around the world in commercial aircraft for decades. The recent uptick in design-ins may have something to do with manufacturers realizing that in addition to superior thermal performance, vibration resistance, and electro-mechanical endurance, our switches are just a whole lot less expensive than Fenwal, and other solutions commonly used. Thermal Switch Uses in Modern Aircraft All modern aircraft employ a number of thermal sensing elements for various systems. So called Spot Fire Detection Systems refer to systems where overheat conditions are monitored at a specific point in a compartment or LRU bay. In order to receive FAA approval, these systems must demonstrate superior detection performance and have the proven ruggedness to survive in the harsh thermal and vibrational environment of modern aircraft. Typical zones on aircraft that employ spot fire detection include:
Thermal Switch Fire Detection Circuit They are sometimes connected in parallel with each other but in series with the indicator lights. If the temperature rises above a set value in any one section of the circuit, the thermal switch closes, completing the light circuit to indicate a fire or overheat condition. No set number of thermal switches is required; the exact number is usually determined by the aircraft manufacturer. On some installations, all the thermal detectors are connected to one light; on others, there may be one thermal switch for each indicator light. CPI Rod & Tube Series Thermal Switches for Avionics Applications Recently CPI thermal switches like our X1 have seen increasing use as replacements for other thermals owing to their extreme mechanical endurance, setpoint precision, and much lower unit cost making them extremely good choices in spares and retrofit applications. In a recent retrofit application undertaken for a Gulfstream, the CPI X1 thermal switch was qualified to replace the equivalent Fenwal Switch for almost half the cost. The CPI X1 Thermal Switch has 100% equivalent functionality and accuracy with arguably superior electromechanical endurance. For more information, please contact our team today. https://www.cpi-nj.com/thermal-switches/ This blog was originally published at https://www.cpi-nj.com/thermal-sensing-for-avionics/
In one of the largest non-combat ship procurements since WWII, Canadian shipbuilder SEASPAN was chosen to be Canada’s primary contractor for the Joint Support Ships (JSS) being built for the Royal Canadian Navy. These purpose-built, multi-role vessels are tasked with a vital replenishment and resupply role that will allow the Canadian Navy to operate away from port for longer periods of time. They are also key for supporting training and humanitarian operations at home, and abroad. Door Status On Ships is CriticalOne of the key operational systems on the JSS (and indeed any ship) is the sealing of bulkhead doors and hatches. Watertight doors act as a fail-safe should sections of the ship be compromised, allowing the captain to control the flooding of compartments, keeping the ship balanced and afloat during a crisis. Standard procedure for bulkhead door closed detection was to use a proximity switch. These magnetic indicators require active power through a 3 wire connection to determine door status at any point in time. The JSS program engineers quickly realized that running additional power to every door in the ship (there are hundreds) was not only inefficient and added complexity to wiring, but these proximity switches are also subject to other failure modes unrelated to the door status. “They very much wanted a robust, passive sensing solution.” Notes John Crozier, CPI’s field application engineer for the project. When engineers approached CPI with the requirements, two key things stood out:
In the case of the JSS program however there was even more. The position of the switch was already fixed by the existing door designs and so CPI would have to design a custom bracket that would provide mechanical actuation when the door was closed. Using in-house 3D printing capabilities, CPI designed and printed several bracket designs eventually qualifying one prototype for use in the application. CPI’s well established 3D fast prototype printing process allowing for low-cost plastic mock units to be mounted within the application before committing to expensive dies or tooling. The process was both accurate and fast, saving the client much time and money on the qualification of the prototype. Door Switch Field PerformanceProduction versions of the J4414 and the custom mounting bracket were installed on the JSS. The final design was so reliable that SEASPAN standardized the use of our design for all seaworthy doors and hatches on the JSS, and all active ship program door designs. CPI’s J4 switches are truly made for seaworthy door seal detection and so much more. Call us today with your requirements and together we can create the perfect solution for your application. https://www.cpi-nj.com/waterproof-switches/ This blog was originally published at https://www.cpi-nj.com/bulkhead-door-open-detection/ |
Author
Archives
February 2024
Categories
All
|