JP2704207B2 - How to operate multiple pumps - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention mainly relates to a pump suction well of a drainage pump station installed for draining a water channel during a flood or the like or a water suction well of a rainwater pump facility. The present invention relates to a method for operating a plurality of pumps.

[Prior Art] Conventionally, in the above-mentioned drainage pump station, in order to prevent the water level on the upstream side of the suction well from exceeding a predetermined water level, the timing of starting and stopping the pump is determined according to the water level of the suction well. However, in the water absorption well, control was performed to keep the water level within a certain range. Then, in a drainage station where a plurality of vertical shaft pumps are installed, for example, as shown in FIG. 4, the starting water levels H ₁ , H ₂ , H ₃ and the stop water levels L ₁ , L ₁ , of the respective vertical shaft pumps 101, 102, 103
L ₂ and L ₃ were made to differ from each other in the relationship of H ₁ > H ₂ > H ₃ and L ₁ > L ₂ > L ₃ . By doing so, the number of operating vertical pumps is controlled according to the water level of the water intake well.

However, with the rapid progress of approximate urbanization, the inflow of rainwater into the above-mentioned water-absorbing wells is increasing rapidly and in large quantities.
Therefore, if the start and stop timings of the pump are determined according to the current water level of the water intake well as described above, such a situation cannot be dealt with and the start of the pump may be delayed. Could occur. In addition, the pump at the drainage pump station usually uses the engine as a rotation source in many cases because of power failure measures and the like, and in such a case, it takes several minutes to make the pump operate steadily. There was a problem that the delay in responding to the inflow of rainwater became more noticeable.

In order to cope with such a large and rapid inflow of rainwater into the water absorption well, the applicant of the present application has filed Japanese Patent Application No.
In Japanese Patent No. 0967 and the like, as shown in FIG. 3, an impeller 53 is disposed above a minimum water level LWL equivalent part 52 unique to each pump, which sucks air when the water sink depth of the water inlet 51 is less than this. A vertical pump has been proposed in which an intake port 54a is provided with an intake passage 54 that opens below an inlet 55 of the impeller 53, and the intake passage 54 is provided with a water / water switching intake valve 56.

The vertical shaft pump as described above introduces air below the impeller 53 through the intake passage 54 when the water level of the water intake well reaches a predetermined water level that is equal to or lower than the impeller inlet level IL.
Since it is possible to perform aerial operation when the pressure is equal to or less than L, it is possible to perform a preliminary standby operation in which the vertical pump is operated in advance before rainwater flows down to the suction well and the water level rises.

[Problems to be Solved by the Invention] If the preliminary standby operation is performed by using the vertical shaft pump as shown in FIG. 3, even if there is a sudden and large amount of rainwater inflow as described above, it can surely cope with it. Will be able to do it. However, when such a pump capable of the preliminary standby operation is used, if the preliminary standby operation becomes excessively long, the cost required for the pump operation increases, and a long-time no-load operation state continues. Causes various problems. In addition, when there is no need to perform the preliminary standby operation, the individual pumps are started and stopped in accordance with the respective start and stop water levels, and based on the current water level of the current intake well as in the conventional case. It is necessary to control the number of operating units.

The present invention has been made in view of the above-described circumstances, and uses a pump capable of performing a preliminary standby operation, and when the preliminary standby operation is necessary, an appropriate number of pumps corresponding to the predicted inflow amount to the suction well. It is an object of the present invention to provide a method of operating a plurality of pumps that can efficiently cope with a large amount and abrupt inflow of rainwater into a water absorption well by operating only a single pump.

[Means for Solving the Problems] In order to achieve the above object, the method for operating a plurality of pumps according to the present invention makes the starting water level and the stopping water level determined for the water level of the suction well different from each other for each of the plurality of pumps. Accordingly, in the method of operating a plurality of pumps in which the number of pumps to be operated is controlled in accordance with the water level of the water intake well, a pump capable of performing a preliminary standby operation is used as the plurality of pumps, and prediction to the water intake well is performed. The optimal number of operating pumps is calculated in advance for each value of the inflow, and the optimum number of operating pumps is compared with the current number of operating pumps corresponding to the predicted amount of inflow into the intake well. Is larger than the current operating number, the stop control for each pump due to the water level of the suction well being equal to or lower than the stop water level is stopped for a predetermined period, and the current operation is performed during the stop predetermined period. It is characterized in that the number of operating pumps is increased so that the number of pumps is equal to the optimal number of operating pumps.

[Operation] By performing the above, even if the current water level of the water intake well falls below the stop water level, the stop control of each pump is stopped, that is, the optimal operation corresponding to the predicted inflow amount is performed without stopping the operation. Since the number of pumps can be kept in operation, it is possible to reliably cope with a sudden and large inflow of rainwater or the like into the water intake well. Further, during the above-mentioned predetermined period, the number of operating pumps is increased so that the current number of operating pumps becomes equal to the optimum number of operating vehicles corresponding to the predicted inflow amount. This eliminates wasted power.

[Example] Hereinafter, the present invention will be described with reference to the drawings.

First, in the fourth each activation level H ₁ as shown in FIG, H _2, H ₃ and stops the water level L _1, L _2, L ₃ are different elevational shaft pumps 101-103, the individual start and stop procedure in always the This is shown in the flowchart of FIG. FIG. 2 shows the start / stop procedure of the vertical pump 101 having the highest starting and stopping water levels, but the flow itself is exactly the same for the other vertical pumps 102 and 103. The vertical shaft pumps 101 to 103 have, for example, a configuration as shown in FIG.
A vertical shaft pump capable of performing an aerial operation, that is, a preliminary standby operation, is employed. Hereinafter, the flowchart of FIG. 2 will be described.

First, in step I, the current water level L of the water absorption well is measured, and then, in step II, it is determined whether or not the vertical pump 101 is operating.

If in step II standing shaft pump 101 is determined not to be in operation, current water level L of the water wells measured in step I in step III is equal to or activation level H ₁ or more of the vertical shaft pump 101 . And, if current level L is activated water level H ₁ or more back from the start of this vertical shaft pump 101 in step IV in Step I.
Also, if current level L is less than start level H _1, immediately returns to step I.

On the other hand, if it is determined in step II that the vertical pump 101 is in operation, it is determined in step V whether or not there is a command to ignore a stop command to be described later. Return to. If there is no command to ignore the operation stop command, step VI
The current water level L is equal to or less than stop level L ₁ of the vertical shaft pump 101 in the case is less than or equal to stop the water level L _1, the step I after stopping the operation of the elevation shaft pump 101 in step VII Return to. In the case where current level L is greater than the stop level L ₁ vertical-shaft pump 101 continues operating (step VIII).

As is clear from the above, the individual vertical pumps 101 to 103
Is started and stopped in the same procedure as in the prior art except that the routine of step V, that is, whether or not there is a command to ignore the operation stop command is performed. Therefore, the vertical shaft pump 101
In principle, when the water level of the suction well rises, the vertical pumps 103, 102, and 101 are started in this order as the water level rises, and when the water level falls, the vertical pumps 101, 102, and 103 are activated.
Stop operation in the order of. However, in the present invention, in parallel with the flowchart shown in FIG. 2, the required number of vertical shaft pumps is caused to perform a preliminary standby operation based on the predicted inflow amount into the water intake well by a procedure as shown in the flowchart in FIG. Less than,
FIG. 1 will be described.

First, in step A, the number N of the currently operated vertical shaft pumps is input, and in step B, the predicted inflow amount to the suction well is input. This predicted inflow is
It is estimated and calculated based on the flow rate or rainfall upstream of the river.

In step C, the number of vertical pumps, that is, the optimal number of operating pumps K, for which it is desired to perform the preliminary standby operation corresponding to the predicted inflow amount, is obtained. The optimum number K of operating vehicles is calculated in advance corresponding to each value of the predicted inflow amount.

Next, in step D, it is determined whether or not the optimum number of operating vehicles K is equal to or greater than the current number of operating vehicles N. And K> N
In other words, if the vertical pump that can handle the predicted inflow is not in the operating state, the timer for setting the operation stop command ignoring period is activated in step E, and the operation stop command ignoring period is set in step F. To issue a directive. As described above, if it is determined in step D that K> N, a command to ignore the operation stop command is issued in step F. Therefore, the routine according to the flowchart shown in FIG. It is determined that the command to ignore the operation stop command has been issued, and thereafter, until the set time of the timer operated in step E expires, the operation of any of the vertical shaft pumps is stopped even if the water level of the water intake well is low. Never.

On the other hand, when it is determined in step D that K ≦ N,
In other words, when it is determined that it is not necessary to increase the number of the vertical pumps to be newly operated in the standby mode for the amount of rainwater or the like whose inflow is predicted, the process returns to step A and repeats steps A to D.
Repeat the routine. As described above, while steps A to D form a loop, the routine of the flowchart shown in FIG. 2 determines at step V that "N", that is, "the command to ignore the operation stop command has not been issued", Each vertical pump is started and stopped based on the water level of the water absorption well in the same procedure as in the past.

If it is determined in step D that K> N,
Following the issuance of the command to ignore the operation stop command in step F, in step G, which vertical shaft pump is to be activated is selected. What is selected in this step G is
The vertical pump whose starting water level is set to be the lowest among the vertical pumps that are not currently operated.

The vertical shaft pump selected in this way is started in step H and enters a preparatory standby operation. Therefore, in step J, the number of vertical pumps currently operating is increased by one, and the current operating number N = N + 1.

In step K, the current operating number N (= N + 1), which is increased by one as described above, is compared with the optimum operating number K. If K = N, the process returns to step A. If K> N, the process returns to step G. When returning to step G, the vertical pump to be started next is selected, and the vertical pump is started in step H. By increasing the current operating number of the vertical pumps one by one in the loop of steps G, H, J, and K in this manner, the current operating number N of the vertical pumps becomes equal to the optimum operating number K. Returns to step A again, and repeats the routine of each step described above.

Next, a description will be given of an example of the above procedure using the vertical shaft pumps 101 to 103 shown in FIG. That is, assuming that only the vertical pump 103 is currently operating based on the water level of the water intake well and that the optimum number of operating units corresponding to the predicted inflow amount input at that time is two, N = 1, Since K = 2, it is determined in step D that K> N. Therefore, in step G, the vertical pump 102 having the lowest starting water level among the vertical pumps that have not been operated is selected as the vertical pump to be operated in the preliminary standby mode.
Then, the vertical pump 102 is started. This vertical pump 102
Is started, the number N of the currently operated vertical shaft pumps becomes 2, so in step J, K = N,
Thereafter, until it is determined in step K that the command to ignore the stop command has not been issued, that is, until the set time of the timer operated in step E has expired, no matter how low the water level of the suction well falls, the vertical shaft pump is not operated. 101 and 102
Prepares for the inflow of new rainwater into the intake well without stopping operation. After the set time of the timer is over, each vertical shaft pump is operated again according to the water level of the water intake well, and the number of operated pumps is controlled based on the next predicted inflow amount.

If the number of operating vertical pumps is controlled as described above, only the number required for the predicted inflow amount can be activated in addition to the current operating number. Therefore, not only can a sudden and large amount of rainwater or the like flow down into the water intake well, it is possible to cope with the situation, and unnecessary unnecessary standby operation does not waste power.

It should be noted that the pump used in the method of the present invention is not necessarily a vertical pump having a structure as shown in FIG.

[Effects of the Invention] As described above, according to the present invention, even if the current water level of the water intake well is low, the optimal number of pumps corresponding to the predicted inflow can be kept in operation, so It is possible to reliably cope with a sudden and large inflow of rainwater or the like. In addition, since the number of operating pumps is increased during the predetermined period, unnecessary waste of power due to unnecessary pre-standby operation of the pumps is eliminated, and rapid flow of rainwater or the like into the suction well as described above. In addition, there is an effect that it is possible to efficiently cope with a large amount of inflow.

[Brief description of the drawings]

FIG. 1 is a flowchart showing a method of controlling the number of operating vertical pumps corresponding to the predicted flow rate, FIG. 2 is a flowchart showing a method of controlling start / stop of each vertical pump, and FIG.
The figure is a schematic configuration diagram of a vertical shaft pump, and FIG. 4 is an explanatory diagram showing a start water level and a stop water level of a plurality of vertical shaft pumps. 101-103 ...... vertical shaft pump (pump) H ₁ to H ₃ ...... start water level, L ₁ ~L ₃ ...... stop level

Claims (1)

(57) [Claims] The present invention is characterized in that the starting water level and the stopping water level determined for the water level of a water intake well are different from each other for each of a plurality of pumps, so that the number of operating pumps is controlled in accordance with the water level of the water intake well. In the method of operating a plurality of pumps, a plurality of pumps that can be operated in advance standby operation are used, and the optimum number of operating pumps is calculated in advance in accordance with each value of the predicted inflow amount to the suction well, When the optimal operating number is larger than the current operating number by comparing the optimal operating number and the current operating number corresponding to the predicted inflow amount to the input water intake well, the water level of the suction well is equal to or less than the stop water level. The stop control of each pump due to the existence is stopped for a predetermined period, and during the stop predetermined period, the number of operating pumps is increased so that the current number of operating units is equal to the optimum number of operating units. Multiple pumps operating method, characterized in that the.