Abstract: A method and arrangement for achieving a thorough degassing of developed diazo copy material to eliminate the ammonia vapors permeating the developed diazo copy material as a result of the development process. The developed copy is moved from a development chamber containing the developing vapors into a degassing chamber, where the developed copy material is passed over a heated surface in intimate contact therewith to drive out the ammonia from the copy material. The ammonia vapors are carried away by a suction pump or fan to an external ammonia absorbing canister. In a first version, the heated contact surface is provided by a heated tube about which the developed print is drawn after passing off a developer-drive cylinder.
Abstract: A method and arrangement for achieving a thorough degassing of developed diazo copy materal to eliminate the ammonia vapors permeating the developed diazo copy material as a result of the development process. The developed copy is moved from a development chamber containing the developing vapors into a degassing chamber, where the developed copy material is passed over a heated surface in intimate contact therewith to drive out the ammonia from the copy material. The ammonia vapors are carried away by a suction pump or fan to an external ammonia absorbing canister. In a first version, the heated contact surface is provided by a heated tube about which the developed print is drawn after passing off a developer-drive cylinder.