RU2003121708A - MULTIFUNCTIONAL AUTOMATED COMPLEX EDUCATIONAL RESEARCH LABORATORY - Google Patents

Claims (18)

1. The multifunctional automated integrated training and research laboratory "Water Supply" is made in the form of series and (or) parallel connected technologically, hydraulically and hydrodynamically connected through intermediate tanks blocks and apparatuses for water pumping and water purification and contains a pumping station of the first lift connected via pressure pipelines with cameras switching with an intermediate source water tank, which is interconnected by means of a pumping station of the second rise with technological devices and blocks of an automated water treatment plant. including a clarification unit for settling water, consisting of a flocculation chamber, a horizontal settling tank, a reagent farm unit for preparing and dosing reagents during water treatment, a unit for clarifying water in a suspended layer containing an air separator connected to a clarifier with a layer of suspended sediment, and a unit for clarifying water by filtration, including a pressureless fast and pressure fast or ultrahigh-speed filter with an intermediate clarified water tank, which in turn is through a pumping station second lift connected with the water disinfection apparatus and connected to the intermediate pure water tank, the laboratory is equipped with an automated process control system with a central control station control using computers and mimic 2. MAKUILV according to claim 1, characterized in that the pressure water conduits are equipped with emergency simulation units located behind the switching chambers counting along the direction of flow, each of which is equipped with a water pressure relief pipe connected to the intermediate source water tanks and (or) receiving reservoir. 3. MAKUILV according to claims 1 and 2, characterized in that the intermediate reservoirs of the source and clarified water are interconnected by a tubular jumper with a valve and are equipped with submersible pumps located inside them and distributors arranged along the bottom in the form of high-resistance drainage and connected to the pump discharge pipe , and the suction nozzles of the pumps are equipped with floating flooded water intake devices, submerged at least twice as high as the design of the intake device, as well as information converters mi installed inside the tanks. 4. MAKUILV according to claim 1, characterized in that the length of the reagent dosing pipeline is adopted from the condition of a pressure loss in it of at least 0.3 m. 5. MAKUILV according to claims 1 to 4, characterized in that the horizontal settler model is made in the form of a hydraulic tray with transparent side walls; equipped with movable removable reflector and hole partition, movable hole bottom, made with the ability to change and fix the angle of inclination in the longitudinal direction and its height position above the sediment collection system, a set of transparent mesh cassettes, upper and side illumination blocks, longitudinal guides “P” shaped for installing cassettes. 6. MAKUILV according to claim 5, characterized in that the cassettes of the kit are made in a rectangular shape with a aspect ratio of the sides to the dimensions of the settler model vertically 1: 1, horizontally 1: 3-1: 5 7. MAKUILV according to claims 5 and 6, characterized in that the cassette of the kit is covered with a rectangular coordinate grid with variable or uniform pitch using a vertical to horizontal ratio of 1:10, and the step size is at least 2 mm. 8. MAKUILV according to claim 1, characterized in that the clarifier model with suspended sediment is made with a transparent front wall covering the entire area of the working areas, equipped with a removable mesh cassette in a scale of 1: 1 to the wall size, mesh pitch of at least 50 × 50 mm . 9. MAKUILV according to claim 8, characterized in that the back wall of all three corridors of the clarifier model is equipped with light windows and movable backlight units to the entire working height. 10. MAKUILV according to claim 1, characterized in that the model of a pressure-free quick filter is made with a transparent front wall for the entire living section and equipped with a rectangular coordinate grid with initial axes coinciding with the filter faces and a mesh size of at least 5 × 5 mm. 11. MAKUILV according to claim 10, characterized in that the model of a pressure-free quick filter is equipped with a light source in a transparent cylindrical housing located vertically in the above the loading space of the filter housing with the possibility of horizontal movement within the living section of the filter. 12. MAKUILV according to claim 1, characterized in that the model of the pressure fast (ultra-fast) filter is equipped with a transparent window with a rectangular coordinate grid deposited on it with a mesh size of at least 5 × 5 mm and coordinate axes that coincide in height with the vertical generatrix, width - with the outer circumference of the filter and at the level of the upper surface of the hole bottom. 13. MAKUILV according to item 12, characterized in that the model of the pressure head quick or superfast filter is equipped with a removable vertical cup device attached to the filter cover. 14. MAKUILV according to claims 1-13, characterized in that the automatic control and management system is mounted on a real installation of a water supply system. 15. MAKUILV according to claim 14, characterized in that the automatic monitoring and control system from the personal computer is made according to the radial-sequential principle, with the placement of interface units (USO) directly near the remote objects. 16. MAKUILV according to claim 1, characterized in that for a better training of the student, the laboratory includes a set of laboratory stands for the study of integrated circuits and digital machines by the processes of the water supply system. 17. MAKUILV according to claim 1, characterized in that the automatic control and management system is configured to manually and automatically control the technological processes of water supply and is made in two versions: using relay contact elements and integrated circuits and digital microprocessor technology. 18. MAKUILV according to claims 1, 14-17, characterized in that the automatic monitoring and control system is equipped with a mimic diagram operating in real time with a display of the state of the equipment of the entire system.