SU427235A1 - AUTOMATIC DISPENSER - Google Patents

Description

The invention relates to devices for simultaneously metering doses of two or more liquids and obtaining from them a homogeneous mixture with an adjustable ratio of components. Devices for metering doses of several components are known, comprising a measuring device and a sealed tank with an atmospheric tube for the reagent, an air tube mixer, a drain valve operated by the control unit, a pressure tank and an electrode system that do not provide the required accuracy of component metering. The proposed automatic dispenser does not have this drawback, due to the fact that the measuring tanks are made in the form of sealed vessels, in which the lower ends of the equalizing device tubes are placed vertically, and the fixed ends of the mixer valve are connected to the pneumatic system through a common pneumatic valve. The proposed dispenser is schematically depicted in the drawing. The automatic dispenser consists of an open container / dl component (solution A) and a pressure vessel 2 for a component (solution B). Capacities 1 to 2 are connected by V-shaped tubes 3 with mernik 4, which are communicated by balancing devices consisting of movable 5 and fixed 6 tubes connected by flexible elements 7 and bellows 8. The lower ends of the measuring bars 4 are connected by diverting tubes 9, in which signaling devices 10 level interlocked via a command converter unit // with a pneumatic valve 12. The discharge pipes 9 end with a collector 13, after 3 | which components (solutions) are fed to the mixer 14, provided with a shutter 15 on the drain tube 16. The fixed tubes 6 of the balancing devices and the shutter 15 are connected by a collector 17 to the pneumatic system. When dosing solutions from tanks 1 and 2 through the supplying V-shaped tubes enter the measuring tanks 4. The supply of solutions ceases when the same levels are established in the moving tubes 5, the discharge tubes 9 and the capacities 1 and 2, respectively, for solutions L and. In this case, the level alarms 10 (for example, electrodes are closed) are triggered, and a signal to open the pneumatic valve 12 is output through the command converter unit 11. Compressed air through the collector 17 simultaneously flows through fixed tubes 6 into the internal cavities of the measuring tubes 4, and solutions L are displaced from them B through the discharge pipes 9 and the collector 13 to the mixer 14. At the same time, air enters