CN113700089A - Automatic management system for pump station and use method thereof - Google Patents

Abstract

The invention discloses an automatic management system of a pump station, which comprises a monitoring end, a system terminal and an execution end, wherein the monitoring end is used for monitoring the operation of the pump station; the monitoring end comprises video monitoring, water level monitoring, pressure monitoring, flow monitoring and voltage monitoring, is used for monitoring the safety condition, the water level condition, the pressure condition born by each position, the flow and voltage stability condition of water of equipment and buildings, and sends each data to the system terminal in real time; the system terminal is used for receiving the data transmitted by the monitoring terminal. According to the automatic pump station management system and the using method thereof, when the system is used, the condition of each position can be monitored in real time through the monitoring end, the system terminal automatically judges the dangerous condition according to the condition and gives a corresponding instruction in time, so that the occurrence of danger can be prevented in time, the influence caused by the danger is reduced, the safety is higher, a large amount of workers are not required to check at any time, and the human resources are reduced.

Description

Automatic management system for pump station and use method thereof

Technical Field

The invention relates to the technical field of pump station management, in particular to an automatic pump station management system and a using method thereof.

Background

The pump station is a device and an engineering scale pump and pump station engineering which can provide hydraulic power and air pressure power with certain pressure and flow, wherein an oil tank, a motor and a pump are main components, but a plurality of auxiliary equipment are added or reduced according to actual requirements, such as oil supply equipment, compressed air equipment, water filling equipment, water supply, water drainage equipment, ventilation equipment, hoisting equipment and the like.

The safety supervision of the pump station at the present stage is usually manual detection, so that the monitoring is inaccurate, potential safety hazards are easily omitted, a large amount of human resources are needed, and resource waste is caused.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic management system of a pump station and a using method thereof, aiming at solving the problems that the safety supervision of the pump station at the present stage is often manually detected, the monitoring is inaccurate, potential safety hazards are easy to omit, a large amount of human resources are needed, and the resource waste is caused.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic management system for a pump station comprises a monitoring end, a system terminal and an execution end;

the monitoring end comprises video monitoring, water level monitoring, pressure monitoring, flow monitoring and voltage monitoring, is used for monitoring the safety condition, the water level condition, the pressure condition born by each position, the flow and voltage stability condition of water of equipment and buildings, and sends each data to the system terminal in real time;

the system terminal is used for receiving the data transmitted by the monitoring end, sorting, summarizing, predicting and judging the danger level of the data, and issuing an instruction to the execution end according to different danger conditions;

the execution end comprises a water pump, a valve, an electric switch, a gate and an alarm, and is used for receiving the designation of the system terminal and carrying out corresponding operation according to the instruction.

Preferably, the information received by the system terminal is all stored according to time periods, and the storage time is 1-2 months.

Preferably, the alarm number is a plurality of, installs respectively in water pump, valve, electrical switch and gate department, and when a certain department of water pump, valve, electrical switch and gate goes wrong, the alarm that corresponds just can work.

A use method of an automatic pump station management system is adopted, and the method specifically comprises the following steps:

starting equipment at each position of a monitoring end, a system terminal and an execution end, and ensuring that the equipment can operate at any time;

step two, the monitoring end obtains various control information including the real-time water level h₀Real time voltage V₀And pressure p at each critical location₀Meanwhile, whether the dam body or the wall body cracks or not and whether large articles float in water or not are monitored, wherein the measured pressure comprises the pressure at a gate, the pressure at the dam body of the dam and the water pressure at a valve;

thirdly, after the monitoring terminal acquires various data and information, the system terminal acquires the information, processes and calculates the information according to the corresponding information, and judges whether the information is dangerous or not;

step four, the system terminal judges that danger exists, controls the alarm of the execution end of the corresponding area to work, sends a report to a worker, the worker processes according to the report and judges how to process, and if the worker does not operate within 1-2 minutes, the execution end of the corresponding area is controlled to work according to a preset program;

if the system terminal judges that no danger exists, each device stably operates;

and fifthly, sorting all the data and storing the data.

Preferably, the dangerous situation is judged according to the water level:

wherein e is the base number of natural number, h_0-nThe water level of the first nth second when the water level is detected;

when H <2, the water level is normal, and when H is more than or equal to 2, the water level exceeds the maximum value or rapidly rises, so that potential safety hazards exist.

Preferably, the dangerous situation is judged according to the pressure of each position:

wherein p is_0-nThe pressure of the first nth second when the pressure is detected;

when P <2, the pressure is normal, and when P is more than or equal to 2, the pressure exceeds the maximum value or is rapidly increased, so that potential safety hazards exist.

Preferably, the dangerous situation is judged according to the voltage;

wherein, U_eDenotes rated voltage, m denotes the first mth second at the time of test, U_minIndicating the minimum allowable voltage, U_maxRepresents the maximum voltage allowed;

when U is turned_i<When U is in the normal range, the voltage fluctuation is shown to be in the normal range_iWhen the voltage is more than or equal to 5, the voltage fluctuation is large, and the danger hidden danger exists; when U is turned_jWhen the voltage is less than or equal to 1, the voltage is no longer in a normal range, and the potential danger exists, when U is less than or equal to 1_j>1, the representative voltage value is in the normal range.

Preferably, when the danger is judged, an alarm is sent out in time, and workers are informed.

Compared with the prior art, the invention has the following beneficial effects:

according to the automatic pump station management system and the using method thereof, when the system is used, the condition of each position can be monitored in real time through the monitoring end, the system terminal automatically judges the dangerous condition according to the condition and gives a corresponding instruction in time, so that the occurrence of danger can be prevented in time, the influence caused by the danger is reduced, the safety is higher, a large amount of workers are not required to check at any time, and the human resources are reduced.

Drawings

FIG. 1 is a schematic structural diagram of an automatic pump station management system according to the present invention;

fig. 2 is a schematic structural diagram of the monitoring terminal according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, an automatic management system for a pump station includes a monitoring end, a system terminal and an execution end; the monitoring end comprises video monitoring, water level monitoring, pressure monitoring, flow monitoring and voltage monitoring, is used for monitoring the safety condition, the water level condition, the pressure condition born by each position, the flow and voltage stability condition of water of equipment and buildings, and sends each data to the system terminal in real time; the system terminal is used for receiving the data transmitted by the monitoring end, sorting, summarizing, predicting and judging the danger level of the data, and issuing an instruction to the execution end according to different danger conditions; the execution end comprises a water pump, a valve, an electric switch, a gate and an alarm, and is used for receiving the designation of the system terminal and carrying out corresponding operation according to the instruction.

And the information received by the system terminal is stored according to the time period, and the storage time is 1-2 months.

The alarm is a plurality of in quantity, installs respectively in water pump, valve, electrical switch and gate department, when a certain department of water pump, valve, electrical switch and gate goes wrong, the alarm that corresponds just can work.

When the system is used, the conditions of all positions can be monitored in real time through the monitoring end, according to the conditions, the system terminal automatically judges the dangerous conditions and gives corresponding instructions in time, so that the dangerous conditions can be prevented in time, the influence caused by the danger is reduced, the safety is higher, a large amount of workers are not required to check all the time, and the human resources are reduced.

The embodiment I provides a use method of an automatic pump station management system, which adopts the automatic pump station management system and specifically comprises the following steps:

starting equipment at each position of a monitoring end, a system terminal and an execution end, and ensuring that the equipment can operate at any time;

step two, the monitoring end obtains various control information including the real-time water level h₀Real time voltage V₀And pressure p at each critical location₀Meanwhile, whether the dam body or the wall body cracks or not and whether large articles float in water or not are monitored, wherein the measured pressure comprises the pressure at a gate, the pressure at the dam body of the dam and the water pressure at a valve;

thirdly, after the monitoring terminal acquires various data and information, the system terminal acquires the information, processes and calculates the information according to the corresponding information, and judges whether the information is dangerous or not;

step four, the system terminal judges that danger exists, controls the alarm of the execution end of the corresponding area to work, sends a report to a worker, the worker processes according to the report and judges how to process, and if the worker does not operate within 1-2 minutes, the execution end of the corresponding area is controlled to work according to a preset program;

if the system terminal judges that no danger exists, each device stably operates;

and fifthly, sorting all the data and storing the data.

And (4) judging the dangerous condition according to the water level:

wherein e is the base number of natural number, h_0-nThe water level of the first nth second when the water level is detected;

when H <2, the water level is normal, and when H is more than or equal to 2, the water level exceeds the maximum value or rapidly rises, so that potential safety hazards exist.

And judging the dangerous situation according to the pressure of each position:

wherein p is_0-nThe pressure of the first nth second when the pressure is detected;

when P <2, the pressure is normal, and when P is more than or equal to 2, the pressure exceeds the maximum value or is rapidly increased, so that potential safety hazards exist.

Judging a dangerous condition according to the voltage;

wherein, U_eDenotes rated voltage, m denotes the first mth second at the time of test, U_minIndicating the minimum allowable voltage, U_maxRepresents the maximum voltage allowed;

when U is turned_i<When U is in the normal range, the voltage fluctuation is shown to be in the normal range_iWhen the voltage is more than or equal to 5, the voltage fluctuation is large, and the danger hidden danger exists; when U is turned_jWhen the voltage is less than or equal to 1, the voltage is no longer in a normal range, and the potential danger exists, when U is less than or equal to 1_j>1, the representative voltage value is in the normal range.

The second embodiment is a using method of an automatic pump station management system, which adopts the automatic pump station management system and specifically comprises the following steps:

starting equipment at each position of a monitoring end, a system terminal and an execution end, and ensuring that the equipment can operate at any time;

step two, the monitoring end obtains various control information including the real-time water level h₀Real time voltage V₀And pressure p at each critical location₀Meanwhile, whether the dam body or the wall body cracks or not and whether large articles float in water or not are monitored, wherein the measured pressure comprises the pressure at a gate, the pressure at the dam body of the dam and the water pressure at a valve;

thirdly, after the monitoring terminal acquires various data and information, the system terminal acquires the information, processes and calculates the information according to the corresponding information, and judges whether the information is dangerous or not;

step four, the system terminal judges that danger exists, controls the alarm of the execution end of the corresponding area to work, sends a report to a worker, the worker processes according to the report and judges how to process, and if the worker does not operate within 1-2 minutes, the execution end of the corresponding area is controlled to work according to a preset program;

if the system terminal judges that no danger exists, each device stably operates;

and fifthly, sorting all the data and storing the data.

And (4) judging the dangerous condition according to the water level:

wherein e is the base number of natural number, h_0-10The water level of the first 10 seconds when the water level is detected;

when H <2, the water level is normal, and when H is more than or equal to 2, the water level exceeds the maximum value or rapidly rises, so that potential safety hazards exist.

And judging the dangerous situation according to the pressure of each position:

wherein p is_0-5The pressure at the first 5 seconds of the time of detection;

when P <2, the pressure is normal, and when P is more than or equal to 2, the pressure exceeds the maximum value or is rapidly increased, so that potential safety hazards exist.

Judging a dangerous condition according to the voltage;

wherein, U_eDenotes rated voltage, m denotes the first mth second at the time of test, U_minIndicating the minimum allowable voltage, U_maxRepresents the maximum voltage allowed;

when U is turned_i<When U is in the normal range, the voltage fluctuation is shown to be in the normal range_iWhen the voltage is more than or equal to 5, the voltage fluctuation is large, and the danger hidden danger exists; when U is turned_jWhen the voltage is less than or equal to 1, the voltage is no longer in a normal range, and the potential danger exists, when U is less than or equal to 1_j>1, the representative voltage value is in the normal range.

When the danger is judged, an alarm is sent out in time, and workers are informed.

When the intelligent water level monitoring device is used, the conditions of water level, pressure and voltage can be monitored, the dangerous condition is calculated according to the actual condition of the intelligent water level monitoring device, early warning is timely carried out on the dangerous condition, the automation is high, the result is accurate, and human resources are saved.

In summary, the invention provides an automatic pump station management system and a use method thereof, when in use, the monitoring end can monitor the conditions of each position in real time, and according to the conditions, the system terminal can automatically judge the dangerous conditions and give corresponding instructions in time, so that the occurrence of dangers can be prevented in time and the influence caused by the dangers can be reduced, the safety is higher, a large amount of workers are not required to check at any time, and the human resources are reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A pump station automatic management system is characterized by comprising a monitoring end, a system terminal and an execution end;

the monitoring end comprises video monitoring, water level monitoring, pressure monitoring, flow monitoring and voltage monitoring, is used for monitoring the safety condition, the water level condition, the pressure condition born by each position, the flow and voltage stability condition of water of equipment and buildings, and sends each data to the system terminal in real time;

the system terminal is used for receiving the data transmitted by the monitoring end, sorting, summarizing, predicting and judging the danger level of the data, and issuing an instruction to the execution end according to different danger conditions;

the execution end comprises a water pump, a valve, an electric switch, a gate and an alarm, and is used for receiving the designation of the system terminal and carrying out corresponding operation according to the instruction.

2. The automatic pump station management system according to claim 1, wherein the information received by the system terminal is stored according to time periods, and the storage time is 1-2 months.

3. The automatic pump station management system according to claim 1, wherein the alarm devices are respectively installed at the water pump, the valve, the electrical switch and the gate, and when a problem occurs at one of the water pump, the valve, the electrical switch and the gate, the corresponding alarm device works.

4. A method for using an automatic pump station management system, which is characterized in that the automatic pump station management system according to any one of claims 1 to 3 is adopted, and the method specifically comprises the following steps:

starting equipment at each position of a monitoring end, a system terminal and an execution end, and ensuring that the equipment can operate at any time;

step two, the monitoring end obtains various control information including the real-time water level h₀Real time voltage V₀And pressure p at each critical location₀Meanwhile, whether the dam body or the wall body cracks or not and whether large articles float in water or not are monitored, wherein the measured pressure comprises the pressure at a gate, the pressure at the dam body of the dam and the water pressure at a valve;

thirdly, after the monitoring terminal acquires various data and information, the system terminal acquires the information, processes and calculates the information according to the corresponding information, and judges whether the information is dangerous or not;

step four, the system terminal judges that danger exists, controls the alarm of the execution end of the corresponding area to work, sends a report to a worker, the worker processes according to the report and judges how to process, and if the worker does not operate within 1-2 minutes, the execution end of the corresponding area is controlled to work according to a preset program;

if the system terminal judges that no danger exists, each device stably operates;

and fifthly, sorting all the data and storing the data.

5. The use method of the automatic pump station management system according to claim 4, wherein the dangerous condition is judged according to the water level:

wherein e is the base number of natural number, h_0-nThe water level of the first nth second when the water level is detected;

when H <2, the water level is normal, and when H is more than or equal to 2, the water level exceeds the maximum value or rapidly rises, so that potential safety hazards exist.

6. The use method of the automatic pump station management system according to claim 4, wherein the dangerous situation is judged according to the pressure of each position:

wherein p is_0-nThe pressure of the first nth second when the pressure is detected;

when P <2, the pressure is normal, and when P is more than or equal to 2, the pressure exceeds the maximum value or is rapidly increased, so that potential safety hazards exist.

7. The use method of the automatic pump station management system according to claim 4, wherein the dangerous condition is judged according to voltage;

wherein, U_eDenotes rated voltage, m denotes the first mth second at the time of test, U_minIndicating the minimum allowable voltage, U_maxRepresents the maximum voltage allowed;

when U is turned_i<When U is in the normal range, the voltage fluctuation is shown to be in the normal range_iWhen the voltage is more than or equal to 5, the voltage fluctuation is large, and the danger hidden danger exists; when U is turned_jWhen the voltage is less than or equal to 1, the voltage is no longer in a normal range, and the potential danger exists, when U is less than or equal to 1_j>1, the representative voltage value is in the normal range.

8. The use method of the automatic pump station management system according to any one of claims 4 to 7, wherein when a danger is judged, an alarm is given in time and staff is notified.

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