RU2000113202A - FLOATING VALVE ASSEMBLY OF WATER CLEANING SYSTEM - Google Patents

Claims (27)

1. A float valve assembly for controlling the flow of water into a reservoir, comprising a valve block including a casing defining a flow path, having an inlet for connecting to a water source and an outlet for connecting to a cleaning module, and a primary valve mounted on the flow path, moreover, the primary valve is arranged to move between open and closed positions, respectively, providing and preventing the passage of water through the flow path to the cleaning module, a long float lever having one end connected to the primary valve, a primary float, means for connecting the primary float to the opposite end of the float lever to provide a limited vertical idle range between them, while the primary float determines the water level in the tank for lifting the float lever in order to move the primary valve from the open position to the closed position when the water level rises to the first predetermined level, and to lowering the float lever in order to move the primary valve from the closed position to the open position when the water level drops below the first predetermined level, and the switch means determining the increase in the water level in the tank to essentially the first predetermined level to force the float lever to shift with the aim of moving the primary valve to the closed position, essentially with quick response, and the opposite end of the lever of the float is essentially free to move vertically upward relative to the primary float within a limited idle range while quickly moving the primary valve to the closed position.  2. The valve assembly of claim 1, wherein the switch means comprises a switch located above the center.  3. The valve assembly according to claim 1, wherein the switch means comprises a magnetic switch unit comprising a first magnet that is supported by the float lever to move to at least one second magnet in the immediate vicinity, the first and second magnets being oriented so that the like the poles are directed to each other for the formation of magnetic repulsive forces that counteract the alignment in the center of the first and second magnets, while the primary float raises the lever of the float to move of the magnet towards the center alignment with the second magnet in accordance with the increase in the water level in the tank, the primary float raising the lever of the float with sufficient force when the water level rises substantially to the first predetermined level to move the first magnet to the position above the line of centers relative to the second magnet and forcibly move the primary valve to the closed position.  4. The valve assembly according to claim 3, wherein at least one second magnet is mounted in a fixed position relative to the lever of the first float.  5. The valve assembly of claim 3, wherein the at least one second magnet comprises a pair of magnets mounted on opposite sides of the first magnet on the float arm.  6. The valve assembly according to claim 1, wherein the connecting means comprises a screw with a shoulder having one end, threadedly connected to the primary float, and an uncutted shank adjacent to the expanded head, the opposite end of the lever of the float slidingly sliding along the uncut the shoulder of the screw with the shoulder, whereby the length of the uncut shank determines the length of the limited idle range.  7. The valve assembly of claim 1, further comprising a load located at the lower end of the primary float, the load having substantially zero buoyancy in water.  8. The valve assembly of claim 4, wherein the primary float is configured to apply a downward force to the float lever in accordance with lowering the water level in the tank to move the first magnet down and above the center relative to the second magnet to reopen the primary valve.  9. The valve assembly according to claim 1, wherein the valve block further comprises a secondary valve mounted on the flow path and capable of moving between open and closed positions, respectively, providing and preventing the flow of water through the flow path to the cleaning module, and a secondary float connected to the secondary valve and determining the water level in the tank for moving the secondary valve from the open position to the closed position when the water level rises to the second after a predetermined level exceeding the first level, and to ensure that the secondary valve moves from the closed position to the open position when the water level falls below the second predetermined level.  10. The valve assembly of claim 1, wherein the valve block is installed in the reservoir.  11. The valve assembly according to claim 1, wherein the flow path is oriented vertically.  12. The valve assembly according to claim 1, which provides for controlling the flow of water into the water purification system having a purification module, wherein purified water produced by the water purification module is supplied and stored in the tank.  13. A valve assembly for controlling the flow of water into the reservoir, comprising a valve block defining a flow path, having an inlet for connecting to a water source and an outlet for connecting to a cleaning module, primary and secondary valves installed in the flow path, each of the primary and secondary valves is arranged to move between open and closed positions, respectively, providing and preventing the passage of water flow through the path I flow to the cleaning module, a primary float lever having an inner end connected to the primary valve to move the primary valve between open and closed positions, a primary float connected to the external end of the primary float lever and determining the water level in the tank for moving the primary float lever with the purpose of shifting the primary valve from the open position to the closed position when the water level rises to the first predetermined level, and to move the primary lever float to move the primary valve from the closed position to the open position when the water level falls below the first predetermined level, a secondary float lever having an inner end connected to the secondary valve to move the secondary valve between the open and closed positions, a secondary float connected to the external end of the lever of the secondary float and determining the water level in the tank for moving the lever of the secondary float to displace the secondary valve from the open When the water level rises to a second predetermined level that exceeds the first level, and to ensure that the lever of the secondary float moves to move the secondary valve from the closed position to the open position, when the water level falls below the second predetermined level, the primary the valve comprises a box valve having a central valve head located substantially concentrically inside the outer o-ring and associated with it version, in which the inner end of the lever of the primary float is jointly molded inside the valve head and passes through the yoke and the o-ring, protruding outward from the valve block to its outer end connected to the primary float.  14. The valve assembly of claim 13, wherein the valve block is mounted in the reservoir.  15. The valve assembly of claim 13, wherein the flow path is oriented vertically.  16. The valve assembly of claim 15, wherein the secondary valve is installed in the flow path at a vertical location above the primary valve.  17. The valve assembly according to claim 13, wherein the secondary valve comprises a box valve having a central valve head located substantially concentrically inside the outer annular O-ring and connected with a traverse in which the inner end of the secondary float lever is molded together inside the head valve and passes through the yoke and the o-ring, protruding outward from the valve block to its outer end connected to the secondary float.  18. The valve assembly of claim 13, further comprising a strainer mounted in the flow path upstream of the primary and secondary valves to trap water-borne particles.  19. The valve assembly of claim 13, further comprising a flow deflector installed in the upstream path of the primary and secondary valves to prevent the flow of water from applying along the flow path a real closing force to the primary valve.  20. The valve assembly of claim 19, wherein the flow deflector comprises means forming a substantially annular passage for passing a water stream through it.  21. The valve assembly according to claim 13, which further includes a flow restrictor mounted on the flow path upstream of the primary and secondary valves and defining an internal hole with a longitudinal length sufficient to provide a relatively slow speed of water passage through it.  22. The valve assembly of claim 13, wherein the valve block further defines a primary valve seat engaged by a primary valve in a closed position and a secondary valve seat engaged by a secondary valve in a closed position, wherein the secondary valve seat is sized to allow storage the secondary valve in the closed position in accordance with the pressure of the tap water in the inlet when the water level falls below a second predetermined level.  23. The valve assembly of claim 22, further comprising a reset means for manually biasing the secondary valve from the closed position to the open position.  24. The valve assembly of claim 23, wherein the reset means comprises a reset button located on the reservoir and including means for biasing the secondary float down when the reset button is pressed.  25. The valve assembly according to claim 13, which further includes a switch means that determines the increase in the water level in the tank, essentially, to the first predetermined level, for forcibly displacing the primary valve to the closed position.  26. The valve assembly of claim 25, wherein the switch means comprises a magnetic switch located above the center.  27. The valve assembly according to claim 13, which provides for regulating the flow of water into the water purification system having a purification module, wherein purified water produced by the water purification module is supplied and stored in the tank.