JP3614664B2 - Operation control method of drainage pump - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operation control method for a drainage pump mainly used for drainage treatment of rainwater, and more particularly to an operation control method for a drainage pump in a drainage facility in which a plurality of drainage pumps are installed in a pump well pit. .
[0002]
[Prior art]
In this type of drainage facility, in general, in order to prevent the load from fluctuating beyond the allowable range even when the planned (predicted) maximum amount of rainwater or the like flows into the pump well pit, Divide the pumps into groups so that the load fluctuation when the pumping starts at the same time is within the allowable load fluctuation range, and add different levels to the pumping start water level and pumping cutoff water level for each group. An operation control method was adopted in which stepping was established and pumping started or shut off for each group in response to rising or falling water levels in the pump well pit.
[0003]
[Problems to be solved by the invention]
However, in the drainage facilities that adopt the conventional pump operation control method as described above, the planned minimum water level of multiple drainage pumps is determined by the pumping cutoff water level and the pumping start water level of the pumps in the lowest group, and the pump well As the depth of the pits increases, the underfloor length of each pump also increases, increasing the equipment cost. In addition, the actual lift of each pump is increased, and the required power is increased accordingly. Furthermore, there is a problem that the pump load for each group becomes non-uniform.
[0004]
The present invention has been made in view of the above circumstances, while installing a plurality of pumps all at the same level, without causing a load fluctuation exceeding the allowable range, always operating an appropriate number of pumps at an appropriate time, and It aims at providing the operation control method of the drainage pump which can be stopped.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, an operation control method for a drainage pump according to the present invention is an operation control method for a drainage pump in a drainage facility in which a plurality of drainage pumps are installed in a pump well pit. The water level rising speed and the water level rising acceleration of the pit are detected, the water level rising speed at the time of starting the pump is predicted from the detected water level rising acceleration, the current water level rising speed is corrected, and the pump is based on the corrected water level rising speed. Determine the number of operating pumps, determine the pump starting start water level from the determined pump operating number, the corrected water level rising speed at the time of pump activation, the required starting time of one pump, and the preset pumping start water level, When the water level in the pump well pit rises to the determined pump start start water level, the above determined number of pumps are started and the pump is opened. While controlling the operation to start pumping when rising to the water level, when there are multiple pumps in operation, the number of pumps to be stopped is determined based on detection of the water level lowering speed of the pump well pit. At the same time, when the water level of the pump well pit drops to the preset pumping cutoff water level, the operation of the determined number of pumps is stopped, and when the number of operating pumps is one, the water level rises. Based on the speed, an arrival time to the pumping start water level is obtained, and when the arrival time is a predetermined time or more, operation stop control is performed to stop the operation of the pump.
[0006]
That is, in the present invention, all the pumps are installed at the same level, and only the water level rising speed and the water level rising acceleration of the pump well pit are detected, and the detected current water level rising speed is detected as the water level rising acceleration. In response to the water level rise, the water level rise rate predicted at the start of the pump is corrected, the number of pumps to be operated is determined based on the corrected water level rise rate, and the pump start start water level is determined for the determined operation number. By controlling the operation to start the pump and start pumping, the pump operation time lag, the calculation time lag, and even the change in the water level rise rate due to the time-dependent change in the cross-sectional area of the pump well pit In response to fluctuations in the actual water level in the pump well pit, it is possible to always operate an appropriate number of pumps at an appropriate time. In addition, when there are multiple pumps in operation, the number of pumps to be stopped is determined simply by detecting the water level lowering speed of the pump well pit, and the water level in the pump well pit is set for the number of pumps that have been determined to stop. Operation stop control to stop operation when the pumping water level drops to the pumping cutoff water level, and to stop operation when the time to reach the pumping start water level is equal to or longer than a predetermined time based on the standby water level rising speed when there is one pump It is possible to properly stop the operation in response to the water level fluctuation situation of the pump well pit, and the pump well pit depth is shallow and the pump floor pit length is shortened to reduce the equipment cost. Although reduction can be achieved, proper pump stop control can always be performed without causing a load fluctuation exceeding the allowable range.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic configuration diagram of a drainage facility to which the method of the present invention is applied. In FIG. 1, 1 is a pump well pit, and in this pump well pit 1, a plurality of preceding standby vertical pumps 2 are used as drainage pumps. All are installed at the same level. These vertical shaft pumps 2 are provided with an impeller 3 above the lowest water level inherent to the pump that sucks air when the depth of the lower end opening of the water-absorbing bell mouth 8 is less than this. An opening / closing valve 6 is provided in the middle of an intake pipe 5 whose one end is open-connected near the lower portion of the inlet of the impeller chamber 4 to be accommodated and whose other end is opened to the atmosphere. Reference numeral 7 denotes an operation control controller, which detects the water level rising speed, the water level rising acceleration, and the water level falling speed based on the change per hour of the water level meter installed in the pump well pit 1, and based on the detection, a plurality of Operation control and operation stop control of the stand-by stand-by type vertical shaft pump 2 are performed.
[0008]
FIG. 2 is a water level setting diagram of the above-mentioned stand-by type vertical shaft pump 2, and is set to the pumping start water level CWL set at the inlet level of the impeller chamber 4 when the water level of the pump well pit 1 is lowered and the pump-specific minimum water level. When the water level reaches a predetermined level between the pumping cutoff water level SWL, the on-off valve 6 is opened and air is sent to the inlet of the impeller chamber 4 to switch from the pumping operation to the air operation. When the water level rises, the pump well pit 1 When the water level reaches the pumping start water level CWL set at the inlet level of the impeller chamber 4, the open / close valve 1 is closed to suck the residual air and switch from the air operation to the pumping operation. Therefore, even if the water level of the pump well pit 1 falls below the pumping cutoff water level SWL, the pump operation can be continued by switching to the air operation. As a characteristic of the stand-by type vertical shaft pump 2, when the pumping shut-off operation state is reached to the first pumping operation, the water level RWL is slightly above the pumping start water level CWL due to the closing of the on-off valve 6. Then, pumping is started.
[0009]
Next, a method for controlling the operation of the preceding standby vertical pump 2 in the drainage system having the above configuration will be described with reference to the flowcharts of FIGS. 3 and 4.
FIG. 3 is an operation control flow for starting pumping. The water level rising speed Vu (m / s) and the water level rising acceleration Au (m ² / s) of the pump well pit 1 are detected (step S10) and detected. The inflow amount Q (m ³ / s) from the water level rising speed Vu (m / s) and the area A (m ² ) of the pump well pit 1,
Q = A × Vu
And an inflow change amount {dQ / dt (m ³ / s ² )} is calculated (step S11).
[0010]
Next, the calculated inflow amount Q (m ³ / s), the inflow change amount {dQ / dt (m ³ / s ² )}, the number N of pumps operated and the required start time t (s) of one pump, Relational expression of estimated inflow Qe (m ³ / s) at the time of pump activation,
Qe = Q + dQ / dt × N × t (1)
And a relational expression between the estimated inflow amount Qe (m ³ / s) at the time of starting the pump and the pump discharge amount Qp (m ³ / s) per unit calculated from the pump performance curve and the number N of pumps operated,
N = Qe / Qp …… ▲ 2 ▼
N = Q / (Qp−dQ / dt × t) …… 3
The number N of pumps to be operated is determined by the following formula (step S12), the number N of pumps to be operated, the water level rising speed Vu (m / s), the water level rising acceleration Au (m ² / s), and the pump activation delay time T ( s) from the estimated water level rising speed Vue (m ³ / s) at the time of starting the pump,
Vue = Vu + Au × N × t
(Step S13) and the calculated estimated water level rise speed Vue (m ³ / s) at the start of the pump, the number N of pumps operated, the required start time t (s) of one pump and 1 From the pumping start water level RWL (m) for the first time, the pump start start water level L1 WL (m) {see FIG. 2},
From RWL-L1 WL = N × t × Vue L1 WL (m) = RWL-N × t × Vue
(Step S14).
The area A (m ² ) of the pump well pit 1 is the surface area of the pump well pit 1 at the current water level.
[0011]
When the water level of the pump well pit 1 rises to the determined pump start start water level L1 WL, the determined number N of pumps are started (steps S15 and S16), and the pumping is the first time. (Step S17) In the first case, pumping is started when the water level of the pump well pit 1 rises to the first pumping start water level RWL (m). When the water level of the pump well pit 1 rises to the second or later pumping start water level CWL (m), the pumping is started (step S18, S19 or steps S20, S21).
[0012]
FIG. 4 is a stop control flow during pump operation. First, it is determined whether there is one or more pumps in operation (step S20). When two or more pumps are in operation, The water level lowering speed Vd (m / s) of the pump well pit 1 is detected (step S21), and the detected water level lowering speed Vd (m / s) and the area A (m ² ) of the pump well pit 1 are determined. From the pump discharge amount Qp (m ³ / s) per unit calculated from the pump performance curve,
N1 = A × Vd / Qp
When the water level in the pump well pit 1 falls to the pumping water cutoff level SWL, the operation of the determined stop number N1 is stopped (steps S23 and S24).
[0013]
On the other hand, if it is determined in step S20 that the number of operating pumps is one, the water level increasing speed Vu (m / s) of the pump well pit 1 during the standby operation of the one pump is detected ( Steps S25, S26), the arrival time t2 from the detected water level rising speed Vu to the next pumping start water level CWL,
t2 = CWL−L2 WL / Vu
Where L2 WL is the current water level (m)
(Step S27), and when the arrival time t2 is equal to or longer than a predetermined time (which is set to 30 minutes), that is, when t2 ≧ 30 minutes, the pump operation is stopped (Step S27). S28, S29).
[0014]
In the above embodiment, the example applied to the preceding standby vertical shaft pump has been described, but it is needless to say that the present invention may be applied to other pumps.
[0015]
Further, as described in the above embodiment, when setting the second and subsequent pumping start water levels CWL (m) to be lower than the first pumping start water level RWL (m), It is possible to switch the pump in the standby state by the middle operation to the pumping operation at an early stage as the water level rises, and it is possible to suppress the occurrence of inconveniences such as vibration associated with the air operation.
[0016]
Furthermore, as described in the above embodiment, when the area of the pump well pit 1 is the surface area of the current water level of the pump well pit, the number of pumps operated and the number of pumps using the water level rising or falling speed and the surface area of the current water level as factors. Since the number of shutdowns can be determined, even if the pump well pits are not uniform in depth throughout the entire area, Control can be performed more appropriately.
[0017]
【The invention's effect】
As described above, according to the present invention, while a plurality of pumps are installed at the same level, the time lag of the pump operation, the time lag for calculation, and the cross-sectional area over time such as the side wall of the pump well pit collapses. Regardless of the change in the water level rise speed due to the change, the appropriate number of pumps are always operated at the appropriate time within the allowable load fluctuation range in response to the actual water level fluctuation in the pump well pit, and the operation is stopped at the appropriate time. can do. This not only saves energy by eliminating unnecessary operation of the pump, but also reduces the initial cost of the entire equipment by reducing the depth of the pump well pit and shortening the underfloor length of each pump. It is also possible to reduce the running cost associated with a reduction in the capacity of the prime mover such as a motor by lowering the actual lift of the pump, and also to make the pump load of multiple units uniform and always suitable and stable pump The operation stop control can be performed.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a drainage facility to which a method of the present invention is applied.
FIG. 2 is an explanatory diagram for setting a water level of a preceding standby vertical pump.
FIG. 3 is a flowchart showing an operation control flow for starting pumping in an operation control method for a prior standby vertical pump.
FIG. 4 is a flowchart showing an operation stop control flow in an operation control method for a preceding standby vertical pump.
[Explanation of symbols]
1 Pump well pit 2 Advance standby type vertical shaft pump (drainage pump)
3 Impeller 7 Controller for operation control

Claims (1)

A drainage pump operation control method in a drainage facility in which a plurality of drainage pumps are installed in a pump well pit,
The water level rising speed and the water level rising acceleration of the above-mentioned pump well pit are detected, the water level rising speed at the start of the pump is predicted from the detected water level rising acceleration, the current water level rising speed is corrected, and the corrected water level rising speed is obtained. Based on the number of pumps to be operated based on
The pump start start water level is determined from the determined number of pumps to be operated, the corrected water level rise speed at the start of the pump, the required start time of one pump and the preset pumping start water level,
When the water level of the pump well pit rises to the determined pump start start water level, the operation control of starting the pumps of the determined operation number and starting pumping when rising to the pump start start water level is performed. While doing
When there are multiple pumps in operation, the number of pumps to be stopped is determined based on the detection of the water level lowering speed of the pump well pit,
When the water level of the pump well pit has dropped to the preset pumping cutoff water level, the operation of the determined number of pumps is stopped,
Further, when only one pump is in operation, an operation stop control is performed in which an arrival time to the pumping start water level is obtained based on the water level rising speed, and the pump operation is stopped when the arrival time is a predetermined time or more. The operation control method of the drainage pump characterized by performing.

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