JPH07139023A - Pump monitoring system for sewerage - Google Patents

Abstract

PURPOSE:To facilitate maintenance and management by eliminating the need of periodic traveling for maintenance and management. CONSTITUTION:A pump monitoring system of a sewerage is provided with a sanitary sewage tank 1 for temporarily storing sanitary sewerage discharged from each home. Pumps 3, 4 for force-feeding sewage to a sewerage main pipe are installed in the sewage tank 1. The system includes a control part 9 for controlling the operation of the pumps 3, 4. The control part 9 is provided with current detecting sensors 21, 22 for detecting the operating current of the pumps 3, 4 and a transmitting part 23 for transmitting a malfunction signal. If a difference between the actual operating current of the pumps 3, 4 detected by the current detecting sensors 21, 22 and a preset reference operating current at the time of normal operation concerning the operating current of the pumps 3, 4 exceeds the tolerance limit, the transmitting part 23 transmits a malfunction signal to be received by a receiving part 26 or a pocket bell 27.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sewer pump monitoring system, and more particularly to a sewer pump monitoring system suitable for use in monitoring a pump operating condition in a manhole used in a pressure-feeding sewer system.

[0002]

2. Description of the Related Art A conventional pumping type sewer system is disclosed in Japanese Patent Laid-Open No. 161623/1992.
Predetermined sewage treatment with multiple manholes that form a sewage tank that temporarily stores sewage discharged from each household, and pumps that are installed in each manhole to pump sewage to the sewer main It was configured to guide sewage to the place.

In such a sewer system,
Generally, for maintenance and management of the pump, each manhole is regularly patrolled, and a method has been adopted in which the pump is inspected for abnormalities and if there is a defect, maintenance work is performed.

[0004]

However, maintenance,
There are problems in that regular patrols of many manholes for management are wasteful and labor costs for patrols are high. Especially in regions with low living density, the manholes are buried over a wide area, so maintenance,
Regular patrols for management became a more inefficient task.

In view of the above problems, it is therefore an object of the present invention to provide a sewer pump monitoring system that facilitates maintenance and management without requiring regular patrols for maintenance and management. .

[0006]

A first technical means for achieving the above object is to install a sewage tank for temporarily storing sewage discharged from a sewage discharge source, and to install the sewage tank in the sewage tank. A pump for pumping sewage to the sewer main, and a control unit for controlling the operation of the pump, and a current detection sensor for detecting an operating current of the pump in the control unit, and an actual detected by the current detection sensor. And a transmitter for transmitting an abnormal signal to the maintenance department when the difference between the operating current of the pump and the reference operating current of the preset pump operating current under normal conditions exceeds the allowable limit. There is a point.

A second technical means for achieving the above object is a sewage tank for temporarily storing sewage discharged from a sewage discharge source, and a sewage system installed in the sewage tank for collecting sewage. A pump that pumps pressure to the pipe and a control unit that controls the operation of the pump are provided, and the control unit counts the continuous operation time of the pump, and the actual starting of the pump counted by the counting unit 1 Sending an abnormal signal to the maintenance department when the difference between the continuous operation time per operation and the preset standard value of the continuous operation time per operation in advance exceeds the allowable limit. Part is provided.

Further, a third technical means for achieving the above object is a sewage tank for temporarily storing sewage discharged from a sewage discharge source, and a sewage pipe installed in the sewage tank to remove the sewage. A plurality of pumps for pumping to the pipe and a control unit for controlling the operation of each of the pumps are provided, and the control unit includes a current detection sensor for detecting each operating current of each of the pumps or each of the pumps. The counting means for counting the continuous operation time is compared with the respective operation currents of the plurality of installed pumps or the continuous operation time per one start of each, and the difference is compared with a preset allowable limit. The point is that a transmitting unit is provided for transmitting an abnormal signal to the maintenance management department when the number exceeds.

[0009]

According to the first aspect of the present invention, the operating current of the pump installed in the waste water tank is detected by the current detecting sensor, and the actual operating current of the pump detected by the current detecting sensor and the preset reference operating current are detected. If the difference is within the preset allowable limit, it is determined that the transmitting unit does not transmit any abnormal signal to the maintenance management department and is operating normally.

On the other hand, the actual pump operating current detected by the current detection sensor is compared with a preset reference operating current, and if the difference exceeds a preset allowable limit, An abnormal signal is transmitted from the transmitter to the maintenance department.

In the maintenance department, normally, it is only necessary to monitor the signal from the transmitter of each control unit, and when an abnormal signal is transmitted, the sewage tank corresponding to the source is sent. You can only go to and perform maintenance. There is no need to regularly circulate each sewage tank for maintenance and management, which facilitates maintenance and management.

Further, the above-mentioned abnormal signal is of a type that is transmitted by detecting a deterioration of pump performance or a sign of failure.
There is also the advantage that the damage that would be incurred by a pump failure can be avoided.

Next, according to the second aspect of the present invention, the continuous operating time of the pump installed in the waste water tank is counted by the counting means, and the continuous operating time per actual start of the pump counted by the counting means. And the preset reference value of the continuous operation time per start-up, and if the difference is within the preset allowable limit, the transmitting unit sends an error signal to the maintenance department. Is not sent and it is judged to be operating normally.

On the other hand, the actual continuous operation time per start of the pump counted by the counting means is compared with a preset reference value of the continuous operation time per start, and the difference is found. When the preset allowable limit is exceeded, an abnormal signal is transmitted from the transmitter to the maintenance department.

Also in this case, as in the first aspect of the invention, the maintenance and management department has the advantages that the maintenance and management are easy and that the damage that would be incurred due to the failure of the pump can be avoided.

Further, according to the third invention, each operating current (or continuous operating time) of each pump installed in the wastewater tank is detected by the current detection sensor (or counted by the counting means), and each pump is operated. The operating currents (or continuous operating time per startup) are compared, and if the difference is within the preset allowable limit, no abnormal signal is sent from the transmitter to the maintenance department. The call is not sent and it is judged to be operating normally.

On the other hand, the operating currents of the pumps (or the continuous operating time per startup) are compared, and if the difference exceeds a preset allowable limit, maintenance is performed from the transmitter. An abnormal signal is sent to the management department.

Also in this case, as in the first aspect of the invention, the maintenance and management department has the advantages that the maintenance and management are easy and that the damage that would be incurred due to the failure of the pump can be avoided.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the first invention will be described below with reference to the drawings. FIGS. 1 and 2 show one manhole pumping station in a pumped sewer system. In the drawings, 1 constitutes a manhole. In the sewage tank, sewage discharged from each household as a sewage discharge source is guided through the inflow pipe 2 by the natural flow-down method and is temporarily stored.

Pumps 3 and 4 consisting of a pair of grinder pumps and the like are installed in the sewage tank 1, and the sewage stored in the sewage tank 1 by the operation of the pumps 3 and 4 is discharged through a discharge pipe 5. It is configured to pump to the sewer main. The discharge pipe 5 is provided with check valves 6 and 7 for preventing backflow as appropriate. Further, when one of the pumps 3 and 4 is operated and the pumps 3 and 4 fail, or when the pumps 3 and 4 are inspected or repaired, the other pump 3 or 4 is inspected.
Are configured to be driven.

Further, a water level detecting means 8 is provided to detect the water level of the sewage in the sewage tank 1, and a control section 9 for controlling and managing the operation of the pumps 3 and 4 is provided near the sewage tank 1. The control panel 10 provided is erected.

In FIG. 2, 11 is a manhole cover, and 12 and 13 are power cables for driving the pumps 3 and 4, respectively.

The water level detecting means 8 includes an air pump 15 for sending air, a guide pipe 16 for guiding the air discharged from the air pump 15 into the dirty water in the dirty water tank 1, and the guide pipe 1.
6, an air outlet 17 attached to the lower end portion of 6, an operating pressure switch 18 for detecting the pressure of the air discharged from the air pump 15, and an alarm pressure for detecting an abnormality in the pressure of the air discharged from the air pump 15. And a switch 19.

The control unit 9 also includes a drive circuit 20 for operating and stopping the pumps 3 and 4, and the drive circuit 20.
Current detection sensors 21 and 22 provided around the electromagnetic contactor for detecting the operating current of the pumps 3 and 4, and a transmission unit 23 that transmits an abnormal signal to the maintenance department.
The operating pressure switch 18, the alarm pressure switch 1
9, a drive circuit 20, current detection sensors 21 and 22, and a control circuit 24 that controls and manages the transmitter 23.

The abnormal signal transmitted from the transmitting unit 23 is connected to the receiving unit 26 connected to the personal computer 25 installed in the central monitoring center as the maintenance management department.
And a pager 27 owned by a maintenance manager as a maintenance management department.

Next, the operation of this embodiment will be described.

When the sewage discharged from each household flows into the sewage tank 1 through the inflow pipe 2, and when the water level H of the sewage in the sewage tank 1 rises to reach the pump operating water level, the water level H becomes the operating pressure. The operation of the pumps 3, 4 (either one) is started by the command from the control circuit 24 detected by the switch 18.

When the pumps 3 and 4 are operated, the sewage in the sewage tank 1 is pumped to the sewer main through the check valves 6 and 7 and the discharge pipe 5. Thereafter, when the water level H in the dirty water tank 1 is lowered by the discharge of the dirty water in the dirty water tank 1 to reach the pump stop water level, the water level H is changed to the operating pressure switch 18
Is detected by the control circuit 24, and the operation of the pumps 3 and 4 is stopped by a command from the control circuit 24.

On the other hand, when the pumps 3 and 4 are abnormal, the sewage is not smoothly pumped to the sewer main, and the water level H further rises to reach the abnormal water level. When the abnormal water level is reached, the water level H is detected by the alarm pressure switch 19. In this case, the detection signal from the alarm pressure switch 19 is transmitted to the transmitting unit 23, and the transmitting unit 23 transmits an abnormal signal. The transmitted abnormal signal is configured to notify the personal computer 25 of the abnormal information via the receiving unit 26, or to notify the maintenance manager by the pager 27.

On the other hand, as also shown in the flow chart of FIG. 3, the control circuit 24 previously stores data on the reference operating current A ₀ at normal times of the operating currents of the pumps 3 and 4 and the allowable value as the allowable limit. The setting is registered (step S1).

When the pumps 3 and 4 are operated, the actual operating current A of the pumps 3 and 4 is the current detection sensor 21,
22 (step S2), the actual pump 3, detected by the current detection sensors 21, 22;
It is determined whether the difference between the operating current A of No. 4 and the preset standard operating current A ₀ of the operating currents of the pumps 3 and 4 exceeds the allowable value (step S3).

At this time, if the allowable value is not exceeded,
No abnormal signal is transmitted from the transmission unit 23, and it is determined that the operation is normal. On the other hand, when the allowable value is exceeded, the transmitter 23 receives the receiver 26 or the pager 27.
Is sent to the maintenance manager (step S4), and the maintenance manager is notified of the abnormality of the pumps 3, 4.

The embodiment of the first invention is configured as described above, and in the central monitoring center or the like where the operating conditions of the pumps 3 and 4 are always distant from each other, the transmitter 23 of each controller 9 is normally used. It is only necessary to monitor the signal of No. 2, and when an abnormal signal is transmitted, it is sufficient to go to only the dirty water tank 1 of the manhole pump station corresponding to the transmission source for maintenance.

Here, since the water level H abnormality in the waste water tank 1 and the abnormality in the operating current of the pumps 3 and 4 can be automatically detected, the maintenance manager regularly checks each waste water tank 1 for maintenance and management. There is no need to go around, maintenance and management are easy, and labor costs can be reduced.

Further, the above-mentioned abnormal signal is of a type that is transmitted by detecting deterioration of the performance of the pumps 3 and 4 and a sign of failure, and avoids damage that may be incurred due to the failure of the pumps 3 and 4. There are also possible advantages.

Next, an embodiment of the second invention will be described. In the second aspect of the invention, the actual operating current A of the pumps 3 and 4 detected by the current detection sensors 21 and 22 in the first aspect of the invention and the reference operating current at the normal time of the preset operating currents of the pumps 3 and 4 Instead of comparing the difference with A ₀ with an allowable value to judge whether or not there is an abnormality, the control unit 9 is provided with counting means for counting the continuous operation time of the pumps 3 and 4, and counting is performed by the counting means. Abnormal by comparing the difference between the actual continuous operating time per startup of the pumps 3 and 4 and the preset standard value of the continuous operating time per normal startup of the pumps 3 and 4 with the allowable value. It is configured to determine whether or not. The other parts are constructed in the same manner as the embodiment of the first invention.

That is, as shown in the flow chart of FIG. 4, the control circuit 24 controls the reference value T ₀ of the continuous operation time per startup of the pumps 3 and 4 when the pumps 3 and 4 are normal and the allowable value as the allowable limit. Data is set and registered in advance (step S1).

When the pumps 3 and 4 are operated, the continuous operation time T from the actual start to the stop of the pumps 3 and 4 is counted and stored each time, and the stored continuous operation times are repeated a plurality of times. From the operating time T, the average continuous operating time Ta per start is calculated (step S2). In addition, a plurality of times for calculating the average continuous operation time Ta per startup is set appropriately, for example, a method of calculating the average value by setting it for one day of the previous day or January of the previous month. do it.

Then, the average continuous operating time Ta per start of the actual pumps 3 and 4 counted by the counting means and the preset normal start 1 of the pumps 3 and 4
It is determined whether or not the difference between the continuous operation time per time and the reference value T ₀ exceeds an allowable value (step S3).

At this time, if the allowable value is not exceeded,
No abnormal signal is transmitted from the transmission unit 23, and it is determined that the operation is normal. On the other hand, when the allowable value is exceeded, the transmitter 23 receives the receiver 26 or the pager 27.
Is sent to the maintenance manager (step S4), and the maintenance manager is notified of the abnormality of the pumps 3, 4.

The embodiment of the second aspect of the invention is configured as described above, and like the first aspect of the invention, in the central monitoring center or the like, normally, the signal from the transmitter 23 of each controller 9 is simply monitored. Often, when an abnormal signal is transmitted, it is sufficient to visit only the sewage tank 1 of the manhole pump station corresponding to the transmission source for maintenance.

As in the first aspect, maintenance and management are facilitated, and labor costs can be reduced.

According to the embodiment of the second aspect of the invention, like the first aspect of the invention, the pumps 3 and 4 are of a type that detects the deterioration of the performance of the pumps 3 and signs of failure, and is transmitted. There is an advantage that damage that may be incurred due to a failure can be avoided, and even if the operating current A of the pumps 3 and 4 is not a sudden abnormality exceeding an allowable value as in the first invention, the pump 3, There is also an advantage that the necessity of maintenance can be known and prepared by detecting that the discharge flow rate characteristic of No. 4 deteriorates and it takes time to discharge the dirty water in the same dirty water tank 1.

In the embodiment of the first invention and the embodiment of the second invention, two pumps 3, 4 are installed in the waste water tank 1.
However, the structure may be one.

Next, an embodiment of the third invention will be described with reference to FIGS. A pair of pumps 3 and 4 having the same performance are installed in the dirty water tank 1, and the pumps 3 and 4 are alternately operated and stopped via the drive circuit 20 according to a command from the control circuit 24. Is controlled.

The operating currents of the pumps 3 and 4 are detected by the current detecting sensors 21 and 22, and the data of the detected operating currents are recorded in the memory of the control circuit 24. Then, the respective operating currents of the pumps 3 and 4 are compared with each other, and the difference is compared with an allowable value as an allowable limit set in advance to judge whether or not there is an abnormality. The other parts are constructed in the same manner as the embodiment of the first invention.

The control circuit 24 includes the pumps 3, 4
The data of the permissible value as the permissible limit of the difference between the respective operating currents is set and registered in advance.

When one of the pumps 3 is operated, the operating current of the pump 3 is changed by the current detection sensor 21.
It is determined whether or not the difference between the operating current detected by the current detecting sensor 21 and the recorded operating current of the other pump 4 operated before that exceeds the allowable value.

At this time, if the allowable value is not exceeded,
No abnormal signal is transmitted from the transmission unit 23, and it is determined that the operation is normal. On the other hand, when the allowable value is exceeded, the transmitter 23 receives the receiver 26 or the pager 27.
Is transmitted to the maintenance manager to notify the maintenance manager of the abnormality of the pumps 3 and 4. That is,
If there is a large difference between the actual operating currents of the pair of pumps 3 and 4, it is determined that one of the pumps 3 and 4 is abnormal.

The embodiment of the third aspect of the invention is configured as described above, and as in the first aspect of the invention, in the central monitoring center or the like, normally, the signal from the transmitter 23 of each controller 9 is simply monitored. Often, when an abnormal signal is transmitted, it is sufficient to visit only the sewage tank 1 of the manhole pump station corresponding to the transmission source for maintenance.

Here, like the first invention, maintenance and management are facilitated, labor costs can be reduced, and the above-mentioned abnormal signal is of a type in which deterioration of performance of the pumps 3 and 4 or a sign of failure is transmitted. Therefore, there is also an advantage that damage that may be incurred due to the failure of the pumps 3 and 4 can be avoided.

In the above embodiment, each pump 3,
Although the method of detecting and comparing the operating current of 4 is shown,
Similar to the embodiment of the second invention, counting means for counting the continuous operation time of each pump 3, 4 is provided, and each pump 3, 4 is
Compare the continuous operating time per start of each of,
The configuration may be such that the abnormality is determined by whether or not the difference exceeds a preset allowable limit. Also, pumps 3, 4
The number of is not limited to two.

[0053]

As described above, according to the sewer pump monitoring system of the first aspect of the present invention, the wastewater tank for temporarily storing the wastewater discharged from the wastewater discharge source, and the wastewater installed in the wastewater tank. A pump that pumps the water to the sewer main, and a control unit that controls the operation of the pump, and a current detection sensor that detects an operating current of the pump in the control unit, and an actual current detected by the current detection sensor. A transmitter is provided to send an abnormal signal to the maintenance department when the difference between the pump operating current and the preset standard operating current for the pump operating current exceeds the allowable limit. In the maintenance department, the signal from the transmitter of each control unit is monitored, and if an abnormal signal is transmitted, it is sufficient to go to the wastewater tank corresponding to the source and perform maintenance. , Maintenance pipe 'S maintenance regularly there is no need to cycle each sewage tanks for management, maintenance, management is facilitated, there is an advantage that labor costs can be reduced.

According to the sewer pump monitoring system of the second aspect of the present invention, the wastewater tank for temporarily storing the wastewater discharged from the wastewater discharge source, and the wastewater installed in the wastewater tank to the wastewater main pipe. A pump for pumping and a control unit for controlling the operation of the pump, the control unit for counting the continuous operation time of the pump, and the actual starting of the pump counted by the counting unit. When the difference between the continuous operating time of the above and the preset value of the continuous operating time per one start of the pump at normal time exceeds the allowable limit, a transmitting unit that transmits an abnormal signal to the maintenance department Is provided, and has the same advantages as the first invention.

Further, according to the sewer pump monitoring system of the third aspect of the invention, a sewage tank for temporarily storing the sewage discharged from the sewage discharge source, and a sewage installed in the sewage tank to the sewage main pipe. A plurality of pumps for pumping and a control unit for controlling the operation of each pump, and a current detection sensor for detecting each operating current of each pump in the control unit, or a continuous operation of each pump. The counting means for counting the time and each operating current of the plurality of installed pumps or continuous operating time for each start-up are compared, and the difference exceeds a preset allowable limit. In this case, the maintenance unit is provided with a transmission unit that transmits an abnormal signal, and has the same advantages as the first invention.

[Brief description of drawings]

FIG. 1 is a circuit diagram according to an embodiment of the first invention.

FIG. 2 is an explanatory diagram of a main part according to the embodiment of the first invention.

FIG. 3 is a flowchart according to an embodiment of the first invention.

FIG. 4 is a flowchart according to an embodiment of the second invention.

[Explanation of symbols]

 1 Sewage tank 2 Inflow pipe 3 Pump 4 Pump 5 Discharge pipe 8 Water level detection means 9 Control unit 10 Control panel 20 Drive circuit 21 Current detection sensor 22 Current detection sensor 23 Sending unit 24 Control circuit 25 Personal computer 26 Receiving unit 27 Pager

Claims (3)

[Claims] 1. A sewage tank for temporarily storing sewage discharged from a sewage source, a pump installed in the sewage tank for pumping sewage to a sewer main, and a control for controlling the operation of the pump. And a current detection sensor for detecting an operating current of the pump in the control unit, and an actual operating current of the pump detected by the current detecting sensor and a preset operating current of the pump during normal operation. A pump monitoring system for sewerage, comprising: a transmitter that transmits an abnormal signal to the maintenance department when the difference from the standard operating current exceeds an allowable limit. 2. A sewage tank for temporarily storing sewage discharged from a sewage source, a pump installed in the sewage tank for pumping sewage to a sewer main, and a control for controlling the operation of the pump. And a counting unit for counting the continuous operation time of the pump in the control unit, a continuous operation time per actual start of the pump counted by the counting unit, and a preset normal pump A pump for sewerage, comprising: a transmitter for transmitting an abnormal signal to the maintenance department when the difference from the reference value of the continuous operation time per start of the engine exceeds the allowable limit. Monitoring system. 3. A sewage tank for temporarily storing sewage discharged from a sewage discharge source, a plurality of pumps installed in the sewage tank for pumping sewage to a sewer main, and an operation of each pump. A control unit for controlling each of the pumps, a current detection sensor for detecting an operating current of each of the pumps, or a counting unit for counting the continuous operation time of each of the pumps, and the installed control unit. Each operating current of multiple pumps or continuous operating time for each startup is compared, and if the difference exceeds a preset allowable limit, an abnormal signal is sent to the maintenance department. A pump monitoring system for sewers, comprising a transmitter.