CN113155220A - Remote oil consumption monitoring system and method - Google Patents

Abstract

The invention discloses a remote oil consumption monitoring system and a method. This remote oil consumption monitored control system includes: the system comprises a first flow measuring module, a second flow measuring module, an acquisition module and a remote server; the first flow measuring module is arranged on an oil inlet pipeline of the generator set and used for measuring the oil inlet amount in the oil inlet pipeline; the second flow measuring module is arranged on an oil outlet pipeline of the generator set and used for measuring the oil outlet amount in the oil outlet pipeline; the acquisition module is arranged on an emergency power supply vehicle comprising a generator set, is respectively in communication connection with the first flow measurement module and the second flow measurement module and is used for acquiring the oil inlet quantity and the oil outlet quantity; the remote server is in communication connection with the acquisition module, is arranged in the data monitoring center and is used for calculating actual oil consumption according to the received oil inlet amount and the received oil outlet amount. The invention realizes the real-time monitoring of the power generation oil consumption of the emergency energy vehicle and improves the reliability of the emergency energy vehicle.

Description

Remote oil consumption monitoring system and method

Technical Field

The embodiment of the invention relates to a remote monitoring technology, in particular to a remote oil consumption detection system.

Background

At present, when a power supply department carries out emergency power protection work, most emergency power supply vehicles are entrusted to third-party companies for matching access and stationing guard, and oil cost of the emergency power supply vehicle units is listed by the power supply department, so that a dead zone of oil consumption management shortage of the emergency power supply vehicles exists.

The power supply department can not accurately manage the actual oil consumption required by the unit power generation of the emergency power supply vehicle in real time, and the problems of 'running, overflowing, dripping and leaking' often exist, so that the oil consumption can not be monitored in real time, and the power protection cost is in an uncontrollable state.

Disclosure of Invention

The invention provides a remote oil consumption monitoring system and a remote oil consumption monitoring method, which are used for realizing the real-time monitoring of the power generation oil consumption of an emergency energy vehicle and improving the reliability of the emergency energy vehicle.

In a first aspect, an embodiment of the present invention provides a remote oil consumption monitoring system, where the system includes: the system comprises a first flow measuring module, a second flow measuring module, an acquisition module and a remote server; the first flow measuring module is arranged on an oil inlet pipeline of the generator set and used for measuring the oil inlet amount in the oil inlet pipeline; the second flow measuring module is arranged on an oil outlet pipeline of the generator set and used for measuring the oil outlet quantity in the oil outlet pipeline; the acquisition module is arranged on an emergency power supply vehicle comprising the generator set, is respectively in communication connection with the first flow measurement module and the second flow measurement module, and is used for acquiring the oil inlet amount and the oil outlet amount; the remote server is in communication connection with the acquisition module, is arranged in a data monitoring center and is used for calculating actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

Optionally, the remote oil consumption monitoring system further comprises a terminal, the terminal is in communication connection with the remote server, and the remote server is further configured to at least send the actual oil consumption to the terminal.

Optionally, the remote oil consumption monitoring system further includes: and the GPS positioning device is arranged on the emergency power supply vehicle and used for positioning the emergency power supply vehicle, generating position data and sending the position data to the remote server.

Optionally, the remote oil consumption monitoring system further includes: the electric quantity detection module is arranged on an electric energy feed-out line of a generator set of the emergency power supply vehicle and used for measuring generated energy data of the generator set and sending the generated energy data to the remote server.

Optionally, the remote server is further configured to process and analyze the actual oil consumption, the position data, and the power generation amount data, and send alarm information to the terminal when any data analysis structure in the actual oil consumption, the position data, and the power generation amount data is abnormal.

Optionally, the first and second flow measurement modules are rotary piston flow meters.

Optionally, the first flow measurement module is in communication connection with the acquisition module through an RS232 or RS485 serial port, and the second flow measurement module is in communication connection with the acquisition module through an RS232 or RS485 serial port.

Optionally, the collection module and the remote server are connected through an optical fiber connection or a wireless network.

Optionally, the remote server further comprises: and the display device is used for displaying the oil inlet quantity, the oil outlet quantity and the actual oil consumption.

In a second aspect, an embodiment of the present invention further provides a remote oil consumption monitoring method, where the method is implemented by any one of the systems described above, and the method includes:

the first flow measurement module measures the oil inlet amount in an oil inlet pipeline;

the second flow measurement module measures the oil output in the oil pipeline;

the acquisition module acquires the oil inlet amount and the oil outlet amount and sends the oil inlet amount and the oil outlet amount to a remote server;

and the remote server calculates the actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

The invention provides a remote oil consumption monitoring system, wherein a first flow measuring module is arranged on an oil inlet pipeline of a generator set to measure the oil inlet amount of the generator set, a second flow measuring module is arranged on an oil outlet pipeline of the generator set to measure the oil outlet amount of the generator set, a collecting module collects and stores the measuring data of the first flow measuring module and the second flow measuring module, and then the measuring data are sent to a remote server of a data monitoring center, the remote server calculates the data to obtain the actual oil consumption of the generator set, the real-time monitoring of the power generation oil consumption of an emergency energy vehicle is realized, and the reliability of the emergency energy vehicle is improved.

Drawings

Fig. 1 is a schematic structural diagram of a remote fuel consumption monitoring system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a connection relationship between a generator set and a unit oil tank according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another remote fuel consumption monitoring system provided in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of another remote oil consumption monitoring system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another remote fuel consumption monitoring system according to an embodiment of the present invention;

fig. 6 is a flowchart of a remote oil consumption monitoring method according to an embodiment of the present invention.

In the figure: 100-remote oil consumption monitoring system, 101-first flow measuring module, 102-second flow measuring module, 103-acquisition module, 104-remote server, 105-generator set, 106-unit oil tank, 107-oil inlet pipeline, 108-oil return pipeline, 201-terminal, 301-GPS positioning device, 401-electric quantity detecting module and 402-display device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

The invention provides a remote oil consumption monitoring system. Fig. 1 is a schematic structural diagram of a remote oil consumption monitoring system provided in the embodiment of the present invention, and fig. 2 is a schematic connection relationship diagram of a generator set and a unit oil tank provided in the embodiment of the present invention, referring to fig. 1, the remote oil consumption monitoring system 100 includes: the system comprises a first flow measuring module 101, a second flow measuring module 102, an acquisition module 103 and a remote server 104, wherein the first flow measuring module 101 is arranged on an oil inlet pipeline of the generator set and used for measuring the oil inlet amount in the oil inlet pipeline; the second flow measuring module 102 is arranged on an oil outlet pipeline of the generator set and used for measuring the oil outlet amount in the oil outlet pipeline; the acquisition module 103 is arranged on an emergency power supply vehicle comprising a generator set, and the acquisition module 103 is respectively in communication connection with the first flow measurement module 101 and the second flow measurement module 102 and is used for acquiring the oil inlet amount and the oil outlet amount; the remote server 104 is in communication connection with the acquisition module 103, is arranged in the data monitoring center, and is used for calculating the actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

Referring to fig. 1 and 2, an oil inlet pipeline 107 is used between a generator set 105 and a generator set oil tank 106 of the emergency power supply vehicle to supply oil to the generator set 105, and an oil return pipeline 108 is used to discharge the residual oil quantity of the operation of the generator set 105 back to the generator set oil tank 106, so as to form an oil inlet and oil return loop; the first flow measurement module 101 is an oil quantity measurement device of the oil inlet pipeline 107 and can measure the total oil quantity entering the generator set 105 in real time; the second flow measurement module 102 is an oil quantity measurement device of the oil return pipeline 108, and can measure the total oil quantity discharged out of the generator set 105 in real time; the acquisition module 103 is a data acquisition device arranged on the emergency power supply vehicle, and can acquire, store and send measurement data of the first flow measurement module 101 and the second flow measurement module 102; the remote server 104 is a remote server 104 arranged in the data monitoring center, and can analyze the oil inlet amount and the oil outlet amount acquired by the acquisition module 103 to calculate the actual oil consumption of the emergency energy vehicle.

For example, in the working process of the emergency energy vehicle during the electricity generation on duty, the first flow measurement module 101 is disposed on the oil inlet pipeline 107 of the generator set 105 to measure the oil inlet amount of the generator set 105 in real time, and the second flow measurement module 102 is disposed on the oil return pipeline 108 of the generator set 105 to measure the oil outlet amount of the generator set 105 in real time. Meanwhile, the acquisition module 103 is in communication connection with the first flow measurement module 101 and the second flow measurement module 102 respectively, acquires the oil inlet amount measured by the first flow measurement module 101 and the oil outlet amount measured by the second flow measurement module 102 in real time, stores the data, and then sends the oil inlet amount and the oil outlet amount data to the remote server 104. The remote server 104 of the data monitoring center analyzes and calculates the actual oil consumption of the generator set 105 according to the oil inlet amount and the oil outlet amount, and the adopted calculation formula is as follows: the actual oil consumption of the generator set 105 is equal to the oil inlet amount and the oil outlet amount, and at the moment, the real-time monitoring of the actual oil consumption of the generator set 105 corresponding to the emergency energy vehicle is realized.

The remote oil consumption monitoring system that this embodiment provided, the oil inlet pipe at generating set sets up first flow measurement module, measure generating set's the oil input volume, the oil outlet pipe at generating set sets up second flow measurement module, measure generating set's the volume of producing oil, the measured data of first flow measurement module and second flow measurement module is gathered and is saved to the collection module, then send the remote server to data monitoring center, remote server calculates out generating set's actual oil consumption to data, the real time monitoring of the oil consumption of generating electricity that corresponds the emergency energy car has been realized, and then the power conservation cost has been monitored, the reliability of emergency energy car has been improved.

Fig. 3 is a schematic structural diagram of another remote oil consumption monitoring system provided in the embodiment of the present invention, referring to fig. 3, optionally, the remote oil consumption monitoring system 100 further includes a terminal 201, the terminal 201 is in communication connection with the remote server 104, and the remote server 104 is further configured to at least send an actual oil consumption to the terminal 201.

The terminal 201 is an intelligent terminal device with a display function used by a power supply department manager, and may be a computer, a smart phone, or a tablet.

Illustratively, in the working process of the emergency energy vehicle in the electricity generation on duty, the first flow measurement module 101 is arranged on an oil inlet pipeline of the generator set to measure the oil inlet amount of the generator set in real time, and the second flow measurement module 102 is arranged on an oil outlet pipeline of the generator set to measure the oil outlet amount of the generator set in real time. Meanwhile, the acquisition module 103 is in communication connection with the first flow measurement module 101 and the second flow measurement module 102 respectively, acquires the oil inlet amount measured by the first flow measurement module 101 and the oil outlet amount measured by the second flow measurement module 102 in real time, stores the data, and then sends the oil inlet amount and the oil outlet amount data to the remote server 104. The remote server 104 of the data monitoring center analyzes and calculates the actual oil consumption of the generator set according to the oil inlet amount and the oil outlet amount, and sends the actual oil consumption to the terminal 201 for displaying, so that a manager of a power supply department can grasp the actual oil consumption of the generator set in real time, and can go to a site to check whether equipment is damaged or not when the actual oil consumption is too high, thereby preventing fuel oil waste caused by equipment damage; the power supply department manager can also monitor the actual oil consumption consumed by the generator set in each emergency power-protection working process in real time at the terminal 201, and generate a corresponding data analysis report form for a time period every day or every month, so as to analyze the total oil consumption consumed in a period of time and formulate a scheme for saving energy, reducing consumption and controlling cost.

The embodiment provides a remote oil consumption monitored control system, the oil inlet pipe at generating set sets up first flow measurement module, measure generating set's the oil input volume, the oil outlet pipe at generating set sets up second flow measurement module, measure generating set's the oil output volume, the measured data of first flow measurement module and second flow measurement module is gathered and is saved to the collection module, then send the remote server to data monitoring center, remote server calculates out generating set's actual oil consumption to data, and show at the terminal, real time monitoring and the analysis of the oil consumption of generating electricity that corresponds the emergency energy car have been realized, and then the power conservation cost has been monitored, reach energy-conservation and loss reduction, control cost's effect.

Fig. 4 is a schematic structural diagram of another remote oil consumption monitoring system according to an embodiment of the present invention, and referring to fig. 4, optionally, the remote oil consumption monitoring system 100 further includes a GPS positioning device 301, where the GPS positioning device 301 is disposed in the emergency power supply vehicle, and is configured to position the emergency power supply vehicle, generate position data, and send the position data to the remote server 104.

The GPS positioning device 301 is a positioning device arranged on the emergency power supply vehicle, is in communication connection with the acquisition module 103, and can be used for positioning the emergency energy vehicle in real time and generating position data; the acquisition module 103 is further configured to acquire and store position data acquired by the GPS positioning device 301, and then send the position data to the remote server 104.

For example, in the working process of the emergency energy vehicle during the electricity generation on duty, the first flow measurement module 101 is arranged on an oil inlet pipeline of the generator set to measure the oil inlet amount of the generator set in real time; the second flow measurement module 102 is arranged on an oil outlet pipeline of the generator set and measures the oil outlet quantity of the generator set in real time; the GPS positioning device 301 positions the emergency energy vehicle in real time and generates position data. Meanwhile, the acquisition module 103 is in communication connection with the first flow measurement module 101, the second flow measurement module 102 and the GPS positioning device 301 respectively, acquires the oil inlet amount measured by the first flow measurement module 101, the oil outlet amount measured by the second flow measurement module 102 and the position data of the GPS positioning device 301 in real time, stores the data, and then sends the oil inlet amount, the oil outlet amount data and the position data to the remote server 104. The remote server 104 of the data monitoring center analyzes and calculates the actual oil consumption of the generator set according to the oil inlet amount and the oil outlet amount, and sends the actual oil consumption and the real-time position of the emergency energy vehicle to the terminal 201 for displaying. The power supply department manager can master the actual oil consumption of the generator set in real time, and when the actual oil consumption is too high, the power supply department manager can rapidly and accurately go to the site according to the real-time position of the emergency energy vehicle to check whether equipment is damaged or not, so that fuel oil waste caused by equipment damage is avoided.

The remote oil consumption monitoring system that this embodiment provided, it can be in real time for emergent energy car location and generate position data to be provided with GPS positioner, then sends position data for remote server, and remote server can all send actual oil consumption and position data for the terminal, and then lets the position of power supply department's managers real-time actual oil consumption and emergent energy car of mastering, realizes the real time monitoring corresponding to emergent energy car actual oil consumption and position, has reached the higher effect of guarantor's electric operating reliability.

Fig. 5 is a schematic structural diagram of another remote oil consumption monitoring system according to an embodiment of the present invention, referring to fig. 5, optionally, the remote oil consumption monitoring system 100 further includes an electric quantity detection module 401, where the electric quantity detection module 401 is disposed on an electric energy feed-out line of a generator set of an emergency power supply vehicle, and is configured to measure power generation data of the generator set and send the power generation data to the remote server 104; the remote server 104 is further configured to process and analyze the actual oil consumption, the position data, and the power generation amount data, and send alarm information to the terminal 201 when any data analysis structure in the actual oil consumption, the position data, and the power generation amount data is abnormal. The acquisition module 103 and the remote server 104 are connected through an optical fiber connection or a wireless network. The remote server 104 further includes: and the display device 402 is used for displaying the oil inlet quantity, the oil outlet quantity and the actual oil consumption by the display device 402.

The electric quantity detection module 401 is a measuring device arranged on an electric energy feed-out line of a generator set of the emergency power supply vehicle, and can measure the generated energy of the generator set, and the electric quantity detection module 401 can be an electric energy meter; the abnormal data analysis structure can be the conditions that the actual oil consumption is not matched with the generated energy, the actual oil consumption is too high, the position is greatly deviated or the generated energy is sharply reduced and the like in the normal work of the emergency power supply vehicle.

For example, in the working process of the emergency energy vehicle during the electricity generation on duty, the first flow measurement module 101 is arranged on an oil inlet pipeline of the generator set to measure the oil inlet amount of the generator set in real time; the second flow measurement module 102 is arranged on an oil outlet pipeline of the generator set and measures the oil outlet quantity of the generator set in real time; the GPS positioning device 301 positions the emergency energy vehicle in real time and generates position data; the electric quantity detection module 401 measures the electric quantity generated by the generator set. Meanwhile, the acquisition module 103 is in communication connection with the first flow measurement module 101, the second flow measurement module 102, the GPS positioning device 301 and the electric quantity detection module 401 respectively, acquires the oil inlet amount measured by the first flow measurement module 101, the oil outlet amount measured by the second flow measurement module 102, the position data and the electric quantity data of the GPS positioning device 301 in real time, stores the data, and then sends the oil inlet amount, the oil outlet amount data, the position data and the electric quantity data to the remote server 104. The remote server 104 of the data monitoring center analyzes and calculates the actual oil consumption of the generator set according to the oil inlet amount and the oil outlet amount, the remote server 104 analyzes the actual oil consumption, the power generation amount data and the position data, and displays the oil inlet amount, the oil outlet amount and the actual oil consumption on the display device 402 to be checked by an operator on duty, if abnormal conditions such as mismatching of the actual oil consumption and the power generation amount data occur, the remote server 104 sends warning information to the terminal 201 to warn a power supply department manager that an emergency energy vehicle is in an abnormal state, the power supply department manager can go to the site quickly and accurately according to the real-time position of the emergency energy vehicle to check whether equipment is damaged or not, whether the vehicle moves or not, abnormal factors are eliminated quickly, and the cost loss of power protection work is reduced.

The remote oil consumption monitoring system provided by the embodiment has the advantages that the real-time generated energy of the emergency energy vehicle can be detected in real time by the electric quantity detection module and is sent to the remote server, the abnormal state of the emergency energy vehicle can be found through analysis of the remote server, an alarm is given, a power supply department manager is prompted to carry out troubleshooting, comprehensive monitoring on the position, the generated energy and the actual oil consumption of the emergency energy vehicle is achieved, and the effect of improving the reliability of power conservation work is achieved.

With reference to fig. 5, optionally, the first flow measuring module 101 and the second flow measuring module 102 are rotary piston type flow meters, which have high-precision and real-time display functions, and can measure the oil output and the oil input with high precision, thereby achieving a more accurate and visual monitoring effect.

With reference to fig. 5, the first flow measurement module 101 is in communication connection with the acquisition module 103 through an RS232 or RS485 serial port, and the second flow measurement module 102 is in communication connection with the acquisition module 103 through an RS232 or RS485 serial port.

The acquisition module 103 analyzes the actual oil consumption, the position data and the generated energy data by adopting different protocols respectively, so that confusion of various data in the data transmission process is prevented, and the reliability of the remote oil consumption monitoring system is further improved.

The embodiment of the invention also provides a remote oil consumption monitoring method, which can be realized by adopting any system. Fig. 6 is a flowchart of a remote oil consumption monitoring method according to an embodiment of the present invention, and referring to fig. 6, the method includes:

s501, a first flow measuring module measures oil inlet amount in an oil inlet pipeline;

s502, measuring the oil output quantity in the oil pipeline by a second flow measuring module;

s503, the acquisition module acquires the oil inlet amount and the oil outlet amount and sends the oil inlet amount and the oil outlet amount to a remote server;

and S504, the remote server calculates the actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

The remote oil consumption monitoring system provided by the embodiment is characterized in that the first flow measuring module is arranged on the oil inlet pipeline of the generator set to measure the oil inlet quantity of the generator set, the oil outlet pipeline of the generator set is provided with a second flow measuring module for measuring the oil outlet quantity of the generator set, the GPS positioning device can position the emergency energy vehicle in real time and generate position data, the electric quantity detecting module can detect the real-time generated energy of the emergency energy vehicle in real time, the acquisition module acquires and stores the oil inlet and outlet quantity, the position data and the generated energy data, and then the data are sent to a remote server of the data monitoring center, the remote server calculates the data and judges whether the data are abnormal or not, if so, a warning is sent out, so that the real-time and comprehensive monitoring on the power generation oil consumption, the position and the power generation amount of the emergency energy vehicle is realized, and the safety and the reliability of the emergency energy vehicle are improved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments illustrated herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A remote fuel consumption monitoring system, comprising:

the first flow measuring module is arranged on an oil inlet pipeline of the generator set and used for measuring the oil inlet amount in the oil inlet pipeline;

the second flow measurement module is arranged on an oil outlet pipeline of the generator set and used for measuring the oil outlet quantity in the oil outlet pipeline;

the acquisition module is arranged on an emergency power supply vehicle comprising the generator set, is respectively in communication connection with the first flow measurement module and the second flow measurement module, and is used for acquiring the oil inlet amount and the oil outlet amount;

and the remote server is in communication connection with the acquisition module, is arranged in a data monitoring center and is used for calculating the actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

2. The remote oil consumption monitoring system according to claim 1, further comprising a terminal, wherein the terminal is in communication connection with the remote server, and the remote server is further configured to at least send the actual oil consumption to the terminal.

3. The remote fuel consumption monitoring system of claim 2, further comprising: and the GPS positioning device is arranged on the emergency power supply vehicle and used for positioning the emergency power supply vehicle, generating position data and sending the position data to the remote server.

4. The remote fuel consumption monitoring system according to claim 3, further comprising: the electric quantity detection module is arranged on an electric energy feed-out line of a generator set of the emergency power supply vehicle and used for measuring generated energy data of the generator set and sending the generated energy data to the remote server.

5. The remote monitoring system according to claim 4, wherein the remote server is further configured to process and analyze the actual oil consumption, the position data, and the power generation data, and send alarm information to the terminal when any data analysis structure in the actual oil consumption, the position data, and the power generation data is abnormal.

6. The remote fuel consumption monitoring system of claim 1, wherein the first flow measurement module and the second flow measurement module are rotary piston flow meters.

7. The remote oil consumption monitoring system according to claim 1, wherein the first flow measurement module is in communication connection with the acquisition module through an RS232 or RS485 serial port, and the second flow measurement module is in communication connection with the acquisition module through an RS232 or RS485 serial port.

8. The remote oil consumption monitoring system according to claim 1, wherein the acquisition module is connected with the remote server through an optical fiber connection or a wireless network connection.

9. The remote fuel consumption monitoring system of claim 1, wherein the remote server further comprises: and the display device is used for displaying the oil inlet quantity, the oil outlet quantity and the actual oil consumption.

10. A method for remote monitoring of fuel consumption, characterized in that it is implemented by any one of the systems of claims 1-8, the method comprising:

the first flow measurement module measures the oil inlet amount in an oil inlet pipeline;

the second flow measurement module measures the oil output in the oil pipeline;

the acquisition module acquires the oil inlet amount and the oil outlet amount and sends the oil inlet amount and the oil outlet amount to a remote server;

and the remote server calculates the actual oil consumption according to the received oil inlet amount and the received oil outlet amount.

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