KR937000773A - Pumping station of flow control system - Google Patents

Abstract

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Description

Pumping station of flow control system

Since this is an open matter, no full text was included.

1 shows a preferred embodiment thereof as a schematic diagram of a flow rate control system according to the present invention,

FIG. 2 is a graph depicting comparatively the pump run curves for pumps in the flow rate control system of FIG. 1 when operated separately in parallel and in series. FIG.

3 is a cross sectional view of its conversion valve assembly taken along line 3-3 of the flow rate control system of FIG.

Claims (15)

A water pumping station, a main inlet for discharging water flowing into the pumping station, and a main discharge pipe for receiving the water flowing out of the pumping station, the waste water having a wide and unpredictably fluctuating water inflow rate, A water flow control system for collecting and discharging precipitation, the pumping station having a water collecting basin having an accommodating area for receiving water from the main inlet, a pair of water pumps each having an inlet and a pressure outlet, Conduit means comprising switching means for bringing a suction port into the accompanying area of the purified water and a pressure outlet of each of the pumps to the main discharge pipe, and switching means for passing a pressure outlet of one of the pumps to the suction port of the other pump; And actuating and deactivating the pumps, the pumping at the main inlet Means for sensing water entering the system, means for actuating one of the pumps when the detected inflow quantity exceeds a predetermined minimum, and the first actuated pump when the detected inflow quantity exceeds a predetermined maximum; By additionally acting on another pump in conjunction with the flow of water continuously through the pumps, correspondingly increasing the rate of water discharge at the pumping station, thereby enabling the pumping station to effectively discharge widely varying influent. A flow rate control system for collecting and discharging waste water, precipitation, and the like, including a control means configured to make the water. 2. A flow rate regulating system according to claim 1, wherein said diverting means comprises valve means. The flow rate control system of claim 1 wherein said diverting means comprises a second conduit through the pressure outlet of said one pump and the inlet of said other pump. 4. The flow rate control system of claim 3 wherein the diverting means comprises valve means associated with the second conduit. 4. The conduit of claim 3, wherein the conduit means comprises a pair of exhaust conduits, each of which is in communication with the pressure outlets of the pumps, and means for communicating through the main and conduit, respectively. A flow rate control system branching out of the exhaust conduit in communication with the work pump. 6. The flow rate control of claim 5 wherein the conduit means comprises a pair of suction conduits each individually communicating with the inlets of the pumps, wherein the second conduit is in communication with a suction conduit communicating with the other pump. system. 6. The flow rate control system of claim 5 wherein the diverting means comprises valve means in communication with the second conduit. 7. The flow rate control system of claim 6 wherein the conduit means comprises a first suction intake conduit in direct communication with the attendant area, wherein the pair of suction conduits are branched from the first suction intake conduit, respectively. 7. The flow rate control system of claim 6 wherein the conduit means comprises a check valve in each of the suction conduits. The flow rate control system according to claim 1, wherein each pump is a centrifugal pump. The pumping capacity of claim 1, wherein when the pumps are individually less than a predetermined maximum delivery valve capacity for the ditch control system but simultaneously act in conjunction, the respective pumps exceed respective pumping capacities exceeding the predetermined maximum delivery valve capacity. Flow control system selected to have. A water pumping station, a main inlet for discharging water flowing into the pumping station, and a main discharge pipe for receiving water flowing out of the pumping station, wherein the water inflow rate is wide and unpredictably fluctuated. And a flow rate control system for collecting and discharging precipitation, wherein the pumping station has an accommodating area for receiving the water flowing from the main intake, a pair of centrifugal pumps each having an inlet and a pressure outlet, A pair of suction conduits, which pass through the suction port of the pump and the accompanying area of the sump well, through the pressure outlet of each pump and the main discharge pipe, and communicate with the suction ports of the pumps individually, respectively; A pair of exhaust conduits, each of which is in communication with each other, Means for communicating with the main discharge pipe, branching from the discharge conduit through and communicating with the work pump to communicate with the other pump and the suction conduit, thereby activating the pressure outlet of the one pump and the intake port of the other pump; Conduit means comprising a diversion conduit, and means for actuating and deactivating the pumps, for sensing water entering the pumping station at the main inlet, the work pump when the sensed inflow quantity exceeds a predetermined minimum And a ratio of water flowing out of the pumping station by continuously flowing water through the pumps by operating the other pump in conjunction with the first operated pump when the sensed inflow quantity exceeds a predetermined maximum. Control means comprising means for correspondingly increasing the The pumping stations are individually selected to have respective pumping capacities that are less than the predetermined maximum feed valve capacity of the flow rate control system, but exceed the predetermined maximum feed valve capacity when actuated in conjunction with both pumps. A flow rate control system that collects and discharges wastewater and precipitation, which can effectively discharge this widely varying inlet. 13. The flow rate control system of claim 12 wherein the conduit means comprises valve means associated with the second conduit. 13. The flow rate control system of claim 12 wherein the conduit means comprises a first suction intake conduit in direct communication with the attendant area, wherein the pair of suction conduits are branched from the first suction intake conduit, respectively. 13. The flow rate control system of claim 12 wherein the conduit means comprises a check valve in each of the suction conduits. ※ Note: The disclosure is based on the initial application.