Abstract: A measuring and dispensing system capable of repeatedly dispensing discrete amounts of fluid having a mass of about 10 g or less and even amounts as small as 1 g. The system includes a pressurized tank for holding a fluid medium such as a liquid pharmaceutical. The tank is coupled in fluid communication to a mass flow sensor. The mass flow sensor is designed to have fluid from the tank flow through it, and measures the mass of the flowing fluid. A controller is coupled in data transmission relation to the mass flow sensor and records each measurement made by the mass flow sensor. A dispenser, such as a flexible tube, is coupled in fluid flowing relation to the mass flow sensor. A valve, such as a pinch valve, is positioned so as to be able to stop flow out of the dispenser. The valve is coupled in data transmission relation to the controller which controls opening and closing of the valve, automatically adjusting the amount of fluid permitted to flow out of the dispenser.
Abstract: A bag filling station including a main body having a loading bay with a bottom, a first end, and a second end. The bottom of the loading bay may be movable in a horizontal direction. At the first end of the loading bay is a loading ram or actuator having a pusher arm which is also movable in a horizontal direction. Adjacent to the loading bay, at its second end, are two spreader plates, each of which is coupled to the main body and movable between a rearward position and a forward position. Each spreader plate is also moveable along a linear path, between a first, open position and a second, closed position. The bag filling station also includes a platform which is located near and above the second end of the loading bay and has a centrally positioned opening. A stack of bags is placed on the platform over the opening. Under the platform, near the second end of the loading bay, is a vertically oriented, linear actuator or rod.