CN211653437U - Intelligent oil engine Internet of things operation monitoring system - Google Patents

Abstract

The utility model discloses an intelligence oil machine thing networking operation monitored control system belongs to the automatic control field, include: the oil level sensor, the positioning module, the cloud server, the voltage sensor, the current sensor and the temperature and humidity sensor are respectively connected with the processor; the oil level sensor, the positioning module, the voltage sensor, the current sensor and the temperature and humidity sensor are arranged on the oil engine; the processor uploads the liquid level signal, the position signal, the voltage signal, the current signal and the temperature and humidity signal to the cloud server through the wireless network module. Through the utility model discloses can monitor voltage, the electric current when the oil engine moves to data such as time, power, positional information, oil tank residual fuel pass through wireless network module and upload to cloud ware, the long-range online monitoring oil engine running state of maintainer accessible terminal in real time recording oil engine operation.

Description

Intelligent oil engine Internet of things operation monitoring system

Technical Field

The utility model belongs to the automatic control field, more specifically relates to an intelligence oil machine thing networking operation monitored control system.

Background

The emergency power generation guarantee of the communication base station is a key for embodying the emergency maintenance guarantee capability of the comprehensive maintenance base station, oil engines purchased by various maintenance companies in the early stage have no intelligent oil engine internet-of-things monitoring function, and no effective monitoring means is provided in the aspects of oil engine operation maintenance, oil engine positioning anti-theft, operation track monitoring, oil engine operation state monitoring, networking scheduling, intelligent control and the like.

At present, the portable oil engine measures the technical indexes (voltage, current, power and the like) of the oil engine power generation operation by a manual guard mode, and only can carry out offline inspection, so that the portable oil engine has the following limitations:

1. the traditional oil engine needs manual waiting for power generation, the running state of the oil engine is monitored and checked on line in real time, and the main technical indexes of the power generation output (voltage, current, power and running time) of the oil engine cannot be monitored and data can not be acquired remotely;

2. the dispatching and using of the oil engines cannot be effectively positioned and monitored, such as the using number of the oil engines, the using positions of the oil engines and the distance between the oil engines and a base station;

3. the oil engine is easy to lose and be stolen without an effective positioning anti-theft function;

4. the oil early warning function is avoided, and the power generation base station is easily interrupted due to untimely oil adding by maintenance personnel;

5. the operation time and the frequency of the oil-free machine are detected, the operation time of the oil machine is manually recorded, and the normal maintenance and maintenance period of the oil machine cannot be ensured;

6. the oil engine can not be started and stopped by a remote control function without the oil engine.

SUMMERY OF THE UTILITY MODEL

To the above defect or the improvement demand of prior art, the utility model provides an intelligence oil machine thing networking operation monitored control system solves current oil machine operation output data from this and detects and lean on the manual work to measure with the universal meter, and operating condition leans on artifical visual observation to have the technical problem of limitation.

In order to achieve the above object, the utility model provides an intelligence oil machine thing networking operation monitored control system, include: the device comprises a processor, an oil level sensor, a positioning module, a cloud server, a voltage sensor, a current sensor, a temperature and humidity sensor and a wireless network module;

the oil level sensor, the positioning module, the voltage sensor, the current sensor and the temperature and humidity sensor are mounted on an oil engine;

the liquid level signal output end of the oil level sensor is connected with the first input end of the processor; the position signal output end of the positioning module is connected with the second input end of the processor; the voltage signal output end of the voltage sensor is connected with the third signal input end of the processor; the current signal output end of the current sensor is connected with the fourth signal input end of the processor; a temperature and humidity signal output end of the temperature and humidity sensor is connected with a fifth signal input end of the processor;

the processor uploads the liquid level signal, the position signal, the voltage signal, the current signal and the temperature and humidity signal to the cloud server through the wireless network module.

Preferably, the wireless network module is connected with the output end of the processor through a first USART module; the positioning module is connected with a second input end of the processor through a second USART module; the voltage sensor is connected with a third signal input end of the processor through a first analog-to-digital converter; the current sensor is connected with a fourth signal input end of the processor through a second analog-to-digital converter; the temperature and humidity sensor is connected with a fifth signal input end of the processor through an IIC bus; the fuel level sensor is connected with a first input end of the processor through a first isolation module.

Preferably, the system further comprises: the dual power supply switching module controls;

the control signal output end of the dual power supply switching module is connected with the processor through the second isolation module, so that the processor selects a power supply switching control function for the oil engine through the control signal of the dual power supply switching module.

Preferably, the system further comprises: a start-stop control module;

the start-stop control module is connected with the processor through a third isolation module, so that the processor controls the start and stop of the generator in the oil engine through the start-stop control module.

Preferably, the system further comprises: a terminal;

the terminal is connected with the cloud server through the wireless network module so as to call the information stored in the cloud server through the terminal, wherein the information stored in the cloud server comprises: the system comprises the liquid level of the oil engine, the position of the oil engine, the voltage of the oil engine, the current of the oil engine, the temperature and humidity of the oil engine, the address of a base station, the information of the oil engine in each area and the information of maintenance personnel.

Preferably, the system further comprises: an alarm module;

the alarm module is connected with the processor and used for giving an alarm when abnormality occurs.

Preferably, the system further comprises: a four-way output module;

and the four-path output module is connected with the processor through a fourth isolation module and is used as an expansion interface.

Preferably, the system further comprises: a four-way input module;

and the four-path input module is connected with the processor through a fifth isolation module and is used as an expansion interface.

Preferably, the system further comprises: an extension 485 bus;

the expansion 485 bus is connected with the processor through a sixth isolation module and used as an expansion communication interface.

Generally, through the utility model discloses above technical scheme who conceives compares with prior art, can gain following beneficial effect:

the relevant data of the oil engine is collected through the sensor and is uploaded to the cloud server through the Internet of things, and the real-time data of the voltage, the current and the oil quantity are forwarded and checked through the cloud server, so that the real-time performance is high, the stability is good, and the accessibility expansibility is good; alarming immediately when the voltage, the current and the oil quantity are abnormal; the alarm information is pushed to a terminal through a wireless network module; the system can check historical collected data of each oil engine, excavate valuable data, analyze the stability and oil consumption condition of the whole or each oil engine, match the power of the oil engine, and reduce oil waste or oil engine damage caused by overlarge or undersize power of the oil engine; the cloud server can import operation and maintenance base station address IDs (such as station address names, base station codes, operator sharing information and base station positioning longitude and latitude), oil engine resource information (such as oil engine power, use areas and oil engine codes) of various areas and operation and maintenance power generation personnel information (such as maintenance areas and names) in batches, so that the cloud server can serve line maintenance personnel for power generation and emergency maintenance, and recorded data are analyzed through the monitoring system, so that the power generation efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an internet of things operation monitoring system of an intelligent oil engine provided by an embodiment of the utility model;

fig. 2 is a transmission schematic diagram of an internet of things monitoring system of an intelligent oil engine provided by the embodiment of the utility model;

the system comprises a processor 1, a wireless network module 2, a first USART module 3, a positioning module 4, a second USART module 5, a voltage sensor 6, a first analog-to-digital converter 7, a current sensor 8, a second analog-to-digital converter 9, a temperature and humidity sensor 10, an IIC bus 11, a first isolation module 12, an oil level sensor 13, a second isolation module 14, a dual-power switching module switching control 15, a second isolation module 16, a start-stop control module 17, a fourth isolation module 18, a fourth output module 19, a fifth isolation module 20, a fourth input module 21, a sixth isolation module 22, an expansion 485 bus 23, a terminal 24, a cloud server 25 and an alarm module 26.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

In the embodiments of the present invention, "first", "second", "third", and the like are used for distinguishing different objects, and are not necessarily used for describing a specific order or sequence.

The terminal related to the embodiment of the application may be a terminal with a networking function, and the terminal may include various smart phones, tablet computers, computing devices, and the like, as well as various forms of User Equipment (UE), Mobile Stations (MS), terminal devices (terminal device), and the like.

The utility model monitors the voltage and current of the oil engine during operation through the modules such as the sensor installed in the oil engine circuit, and obtains the real-time power of the oil engine according to the voltage and current; and data such as the operation time length, the power, the position information, the residual fuel of the oil tank and the like of the oil engine are recorded in real time and uploaded to a cloud server through a wireless network module, and maintenance personnel can remotely monitor the operation state of the oil engine on line through the remote networking of a terminal.

As shown in fig. 1, the embodiment of the utility model provides a smart oil engine thing networking operation monitored control system's schematic structure diagram, include: the system comprises a processor 1, an oil level sensor 13, a positioning module 4, a cloud server 25, a voltage sensor 6, a current sensor 8, a temperature and humidity sensor 10 and a wireless network module 2;

the oil level sensor 13, the positioning module 4, the voltage sensor 6, the current sensor 8 and the temperature and humidity sensor 10 are arranged on the oil engine;

the liquid level signal output end of the oil level sensor 13 is connected with the first input end of the processor 1; the position signal output end of the positioning module 4 is connected with the second input end of the processor 1; the voltage signal output end of the voltage sensor 6 is connected with the third signal input end of the processor 1; the current signal output end of the current sensor 8 is connected with the fourth signal input end of the processor 1; a temperature and humidity signal output end of the temperature and humidity sensor 10 is connected with a fifth signal input end of the processor 1;

the processor 1 uploads the liquid level signal, the position signal, the voltage signal, the current signal and the temperature and humidity signal to the cloud server through the wireless network module 2.

Specifically, the wireless network module 2 is connected with the output end of the processor 1 through a first USART module 3; the positioning module 4 is connected with a second input end of the processor 1 through a second USART module 5; the voltage sensor 6 is connected with a third signal input end of the processor 1 through a first analog-to-digital converter 7; the current sensor 8 is connected with a fourth signal input end of the processor 1 through a second analog-to-digital converter 9; the temperature and humidity sensor 10 is connected with a fifth signal input end of the processor 1 through an IIC bus 11; the fuel level sender 13 is connected to a first input of the processor 1 via a first isolation module 12.

The oil engine networking positioning can be realized by adopting the positioning module, and the oil engine theft prevention, the operation track monitoring and the networking scheduling can be realized.

The power generation times, the running time, the running voltage, the current, the power and the load output monitoring can be monitored and recorded through the voltage sensor and the current sensor, the real-time power generation state of the oil engine can be monitored through the terminal, the machine account records can be used by the motor in the week and the month, the authenticity of power generation can be conveniently verified, the use cost of oil is verified, and the waste of virtual wig electricity and oil is avoided. And the maintenance period reminding of the oil engine can be determined according to the operation time and the operation frequency of the oil engine, so that the life prolonging rate of the oil engine assets is improved.

The number of times of power generation can be monitored by the engine start and stop and the voltage sensor 6.

The running time can be monitored by the engine starting and stopping and the voltage sensor 6, wherein the running time comprises system running time and system power generation time, the system running time refers to how long the system is started from leaving a factory to present, and the power generation time refers to the time from the starting of the generator to the end of the current external output of the generator.

The load is power output externally, and can be obtained by voltage and current values obtained by the voltage and current sensors.

The embodiment of the utility model provides an in, wireless network module can be wireless module such as thing networking module, LORA module, RF radio frequency module, bluetooth module and WIFI module.

In the embodiment of the present invention, the positioning module 4 can realize or base station positioning through the GPS module.

In an embodiment of the present invention, the system further includes: a dual power switching module 15;

the control signal output end of the dual power supply switching module 15 is connected with the processor 1 through the second isolation module 14, so that the processor 1 selects power supply switching control for the oil engine through the control signal of the dual power supply switching module 15.

The dual-power switching module 15 can be realized by a module output signal switch, and can select power supply switching control for the oil engine through the dual-power switching module, so that the switching of a dual-power supply of commercial power supply and oil engine power supply is realized.

In an embodiment of the present invention, the system further includes: a start-stop control module 17;

the start-stop control module 17 is connected with the processor 1 through the third isolation module 16, so that the processor 1 controls the start and stop of the generator in the oil engine through the start-stop control module 17.

The starting and stopping control module can be realized through a switch, the generator can be remotely controlled to start and stop through the starting and stopping control module, resources are saved, and manpower and material resource expenditure can be reduced for the fixedly placed oil engine. The oil engine can be automatically controlled to start and stop through the monitoring system, and the output switch can be remotely operated to be switched on and off.

In an embodiment of the present invention, the system further includes: a terminal 24;

the terminal 24 is connected with the cloud server 25 through the wireless network module 2 to call the information stored in the cloud server 25 through the terminal 24, wherein the information stored in the cloud server 25 includes: the system comprises the liquid level of the oil engine, the position of the oil engine, the voltage of the oil engine, the current of the oil engine, the temperature and humidity of the oil engine, the address of a base station, the information of the oil engine in each area and the information of maintenance personnel.

The server is added with the address ID of the operation and maintenance base station (such as the name of the station address, the code of the base station, the sharing information of an operator and the positioning longitude and latitude of the base station), the oil engine resource information of each area (such as the power of an oil engine, a use area and the code of the oil engine) and the information of the operation and maintenance power generation personnel (such as a maintenance area and a name), so that the navigation and station finding, the oil engine scheduling selection, the power generation working record of the maintenance personnel and other data analysis and extraction can be conveniently and quickly carried out on.

In an embodiment of the present invention, the system further includes: an alarm module 26;

the alarm module 26 is connected with the processor 1 and is used for giving an alarm prompt when an abnormality occurs.

The alarm module can be realized by an LED or an alarm, and can also be combined with the wireless network module to send abnormal information to the terminal. When voltage abnormity, current abnormity or oil tank oil early warning occurs, abnormal information of maintenance personnel can be timely reminded through the alarm module so that the maintenance personnel can perform corresponding processing, as shown in fig. 2, the intelligent oil engine internet of things monitoring system receives data reported by an oil engine, the base station power generation oil engine is remotely controlled through a control instruction issued by the base station remote monitoring management system, when abnormity occurs, a processing task is issued to operation and maintenance personnel through the base station remote monitoring management system, and after processing is completed, a processing result is reported to the base station remote monitoring management system. Meanwhile, the alarm information can be accessed through an APP or a browser in the terminal, or a remote scheduling instruction is issued.

For example, the APP in the terminal has a function of positioning and navigating the location of the base station, and can navigate to the base station to generate power by autonomous navigation of the terminal or by means of navigation software through inputting longitude and latitude (a maintainer unfamiliar with the base station can also undertake a power generation task independently).

In an embodiment of the present invention, the system further includes: a four-way output module 19;

the four-way output module 19 is connected with the processor 1 through the fourth isolation module 18, and is used as an expansion interface.

For example, the control signal is output by the four-way output module 19 in linkage with other devices. For example, the system is linked with a relay linkage control device, a double-power switching device or an oil engine reversing box and other power distribution equipment.

In an embodiment of the present invention, the system further includes: a four-way input module 21;

the four-way input module 21 is connected to the processor 1 through the fifth isolation module 20, and is used as an expansion interface.

For example, the four-way input module 21 is used for collecting signals in linkage with other equipment. For example, the system is linked with a relay linkage control device, a double-power switching device or an oil engine reversing box and other power distribution equipment.

In an embodiment of the present invention, the system further includes: an expansion 485 bus 23;

the expansion 485 bus is connected with the processor 1 through 23 a sixth isolation module 22 and is used as an expansion communication interface.

For example, data exchange and the like can be realized with the communication base station monitoring host through the 485 communication protocol, and an interface is reserved, for example, other corresponding function sensors or other control devices are added through the interface.

It will be understood by those skilled in the art that the foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides an intelligence oil machine thing networking operation monitored control system which characterized in that includes: the device comprises a processor, an oil level sensor, a positioning module, a cloud server, a voltage sensor, a current sensor, a temperature and humidity sensor and a wireless network module;

the oil level sensor, the positioning module, the voltage sensor, the current sensor and the temperature and humidity sensor are mounted on an oil engine;

the liquid level signal output end of the oil level sensor is connected with the first input end of the processor; the position signal output end of the positioning module is connected with the second input end of the processor; the voltage signal output end of the voltage sensor is connected with the third signal input end of the processor; the current signal output end of the current sensor is connected with the fourth signal input end of the processor; a temperature and humidity signal output end of the temperature and humidity sensor is connected with a fifth signal input end of the processor;

the processor uploads the liquid level signal, the position signal, the voltage signal, the current signal and the temperature and humidity signal to the cloud server through the wireless network module.

2. The system of claim 1, wherein the wireless network module is coupled to the output of the processor through a first USART module; the positioning module is connected with a second input end of the processor through a second USART module; the voltage sensor is connected with a third signal input end of the processor through a first analog-to-digital converter; the current sensor is connected with a fourth signal input end of the processor through a second analog-to-digital converter; the temperature and humidity sensor is connected with a fifth signal input end of the processor through an IIC bus; the fuel level sensor is connected with a first input end of the processor through a first isolation module.

3. The system according to claim 1 or 2, characterized in that the system further comprises: a dual power switching module;

the control signal output end of the dual power supply switching module is connected with the processor through the second isolation module, so that the processor selects a power supply switching control function for the oil engine through the control signal of the dual power supply switching module.

4. The system according to claim 1 or 2, characterized in that the system further comprises: a start-stop control module;

the start-stop control module is connected with the processor through a third isolation module, so that the processor controls the start and stop of the generator in the oil engine through the start-stop control module.

5. The system of claim 2, further comprising: a terminal;

the terminal is connected with the cloud server through the wireless network module so as to call the information stored in the cloud server through the terminal.

6. The system of claim 5, further comprising: an alarm module;

the alarm module is connected with the processor and used for giving an alarm when abnormality occurs.

7. The system of claim 1, further comprising: a four-way output module;

and the four-path output module is connected with the processor through a fourth isolation module and is used as an expansion interface.

8. The system of claim 1, further comprising: a four-way input module;

and the four-path input module is connected with the processor through a fifth isolation module and is used as an expansion interface.

9. The system of claim 1, further comprising: an extension 485 bus;

the expansion 485 bus is connected with the processor through a sixth isolation module and used as an expansion communication interface.

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