CN212060942U - Monitoring system based on cloud platform - Google Patents

Abstract

The utility model relates to a monitoring system based on a cloud platform, which comprises an acquisition terminal, an intelligent terminal, a cloud server, a public platform server and a monitoring terminal; the acquisition terminal comprises a sensor group, a module capable of automatically sending short messages or making calls, a communication module, an alarm and a processor; the method and the system can enable boiler monitoring personnel to monitor the operation conditions of boilers in different areas on line in real time, when the boilers are lack of water and have overpressure, the system can give an alarm on site at the same time, and the system can remind operators to take safety measures in a short message or conversation mode; when the combustion working condition or load of the boiler changes, energy-saving judgment can be made according to the on-line thermal efficiency and energy efficiency parameters, and an operator is quickly guided to adjust the combustion condition of the boiler through a video or conversation mode, so that the aim of economic combustion is fulfilled. The system not only can effectively reduce the potential safety hazard of the boiler, but also can effectively improve the energy-saving management level of the boiler.

Description

Monitoring system based on cloud platform

Technical Field

The utility model belongs to the technical field of the energy monitoring, concretely relates to monitoring system based on cloud platform.

Background

At present, industrial boilers in China have many defects, low mechanization and automation degree, low efficiency, high energy consumption and serious pollution, which are the biggest defects of the existing industrial boilers and are also the key points of energy conservation and emission reduction. Meanwhile, boiler operators often have problems of low quality, low responsibility and the like, and are easy to generate boiler accidents due to the fact that dynamic parameters such as pressure, temperature, water level and the like are not monitored tightly.

In the related technology, the overall level of the industrial boiler equipment technology is low, the overall thermal efficiency of the industrial boiler is low, and the energy-saving performance of a using unit to the boiler is not strong. The using unit lacks the endogenous power of boiler energy saving and the necessary energy-saving investment; the energy-saving operation skill of boiler operators is low; the existing energy-saving and emission-reducing policy has insufficient popularity for energy conservation of boilers. The energy-saving administrative supervision of the boiler is insufficient. There is a lack of administrative enforcement for energy inefficient boilers. Resources for boiler energy-saving supervision of relevant government departments need to be further integrated, working resultant force is further formed, and the boiler energy-saving working systematicness is further enhanced. According to the conventional method for judging whether the boiler operates in an energy-saving mode, after the energy efficiency is tested, an energy efficiency testing mechanism can issue a diagnostic book, and a boiler efficiency improvement and transformation scheme is provided. However, since the operation of the boiler is a dynamic process and most enterprises have low management level in practical use, the energy efficiency ratio of the improved boiler is reduced after the improved boiler is operated for a period of time. In order to keep the boiler in a healthy running state, daily running state monitoring must be enhanced, and the running mode must be processed and adjusted at any time.

To sum up, the energy-saving detection work of the boiler energy efficiency testing mechanism needs to be carried out on site manually, dynamic data of boiler operation is difficult to effectively acquire, real-time data records of boiler operation are discontinuous, incomplete and inaccurate, and the current situation of boiler operation cannot be known in time.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming prior art's is not enough, provides a monitoring system based on cloud platform and is difficult to effectively acquire boiler operation dynamic data in order to solve current system, and boiler operation real-time data record is discontinuous, incomplete, the inaccuracy, can not in time know the problem of boiler operation current situation.

In order to realize the above purpose, the utility model adopts the following technical scheme: a cloud platform based monitoring system comprising: the system comprises an acquisition terminal, an intelligent terminal, a cloud server, a public platform server and a monitoring terminal, wherein the acquisition terminal, the public platform server and the monitoring terminal are respectively in communication connection with the cloud server; the public platform server is in communication connection with the intelligent terminal;

the acquisition terminal comprises: the system comprises a sensor group, a module capable of automatically sending short messages or making calls, a communication module, an alarm and a processor, wherein the sensor group, the module capable of automatically sending short messages or making calls, the communication module and the alarm are respectively connected with the processor;

the cloud server is provided with a storage module and a data analysis module; the storage module is used for storing the monitoring data and the threshold value which are acquired by the acquisition terminal, the data analysis module is used for analyzing and comparing the received monitoring data with the threshold value, and the data analysis module is also used for drawing a data monitoring schematic diagram according to the monitoring data and sending the data monitoring schematic diagram to the monitoring terminal for displaying;

the monitoring terminal is provided with a report generation module and is used for receiving the monitoring data sent by the cloud server and making a report.

Further, the sensor group includes:

soft water hardness sensor, steam pressure sensor, steam temperature sensor, feed water temperature sensor, ambient temperature sensor, exhaust gas oxygen sensor, current sensor, voltage sensor, high water level sensor, low water level sensor.

Further, the acquisition terminal further includes:

the signal preprocessing module is used for preprocessing the signals sent by the sensor group to the processor;

one end of the signal preprocessing module is connected with the sensor group, and the other end of the signal preprocessing module is connected with the processor.

Further, the acquisition terminal further includes:

the fault self-detection module is connected with the processor;

the fault self-detection module is used for sending fault information generated by the acquisition terminal to the processor, and the processor receives the fault information to control the alarm to carry out fault alarm reminding.

Further, the fault self-detection module comprises:

short-circuit fault indicators, ground fault circuit breakers, overvoltage protection circuits, and overcurrent protection circuits.

Furthermore, the module capable of automatically sending short messages or making calls is GSM or TD-WCDMA.

Further, the communication module adopts

A wired network or a 3G wireless network.

Further, the acquisition terminal further includes:

the timer is used for uploading the monitoring data acquired by the acquisition terminal to the cloud server at regular time;

the timer is connected with the processor.

Further, the monitoring terminal further includes:

the LED display screen is used for displaying monitoring data and a data monitoring schematic diagram;

the LED display screen is connected with the processor.

Further, the monitoring terminal includes one or a combination of the following terminals:

television, cell-phone, panel computer, notebook computer.

The utility model adopts the above technical scheme, the beneficial effect that can reach includes:

according to the monitoring system based on the cloud platform, various sensors are installed at different parts of a boiler system, the existing sensors of the boiler are utilized, real-time operation parameters of the boiler are collected, coded and transmitted to a remote management platform, safety and energy efficiency indexes of the boiler to be detected are further analyzed, calculated and evaluated, and targeted optimization operation guidance is conducted on the boiler to be operated in modes of video, telephone, short message or field diagnosis and the like. The system can solve the problems that an operating parameter instrument system is not commonly used in an in-use boiler, operating personnel and management personnel cannot master the operating state of the boiler, the operating state is difficult to adjust, a man-machine complementary relation can be formed, the operating management level of the boiler is improved, and dynamic supervision of the boiler is realized. Not only effectively reduces the occurrence of boiler safety accidents, but also can improve the boiler efficiency and promote energy conservation and emission reduction. The remote dynamic monitoring system is equivalent to that a 'private doctor' is provided for each boiler in use, so that the boiler is guaranteed to be in the most healthy operation state, the lowest energy consumption and the lowest emission are achieved, and the safety is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a monitoring system based on a cloud platform provided by the present invention;

fig. 2 is another schematic structural diagram of the monitoring system based on the cloud platform provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A specific cloud platform-based monitoring system provided in the embodiments of the present application is described below with reference to the accompanying drawings.

As shown in fig. 1, the utility model provides a monitoring system based on cloud platform, include: the system comprises an acquisition terminal 1, an intelligent terminal 4, a cloud server 2, a public platform server 3 and a monitoring terminal 5, wherein the monitoring equipment, the public platform server 3 and the monitoring terminal 5 are respectively in communication connection with the cloud server 2; the public platform server 3 is in communication connection with the intelligent terminal 4;

as shown in fig. 2, the acquisition terminal 1 includes: the system comprises a sensor group 11, a module 12 capable of automatically sending short messages or making calls, a communication module 13, an alarm 14 and a processor 15, wherein the sensor group 11, the module 12 capable of automatically sending short messages or making calls, the communication module 13 and the alarm 14 are respectively connected with the processor 15;

the cloud server 2 is provided with a storage module 21 and a data analysis module 22; the storage module 21 is configured to store the monitoring data and the threshold value acquired by the acquisition terminal 1, the data analysis module 22 is configured to analyze and compare the received monitoring data with the threshold value, and the data analysis module 22 is further configured to draw a data monitoring schematic diagram according to the monitoring data and send the data monitoring schematic diagram to the monitoring terminal 5 for displaying;

the monitoring terminal 5 is provided with a report generation module (not shown in the figure) for receiving the monitoring data sent by the cloud server 2 and making a report.

The working principle of the monitoring system based on the cloud platform is that the acquisition terminal 1 acquires monitoring data through the sensor group 11 and sends the monitoring data to the cloud server 2 through the communication module 13, the cloud server 2 receives the monitoring data acquired by the acquisition terminal 1 for storage and analyzes and compares the received monitoring data with the threshold, meanwhile, the cloud server 2 compares and analyzes the monitoring data with the threshold, and when the monitoring data is abnormal, namely the monitoring data exceeds the threshold, the cloud server 2 sends an alarm signal to the acquisition terminal 1 and the monitoring terminal 5 for alarming; the cloud server 2 is further used for drawing a data monitoring schematic diagram according to the monitoring data and sending the data monitoring schematic diagram to the monitoring terminal 5 for displaying, and a user can check the condition of the monitoring data through the monitoring schematic diagram at any time. The collecting terminal 1 can also inform the monitoring terminal 5 in a telephone or short message mode when the monitoring data is abnormal, so that the personnel of the monitoring terminal 5 can obtain alarm information in time for processing.

In the information acquisition device that provides in this application, sensor group 11 is used for gathering monitoring data, with monitoring data and send to treater 15, and treater 15 sends monitoring data to cloud server 2 through communication module 13, and cloud server 2 sends alarm information to treater 15 according to monitoring data, and treater 15 control alarm 14 reports to the police.

According to the method, various sensors are installed at different parts of a boiler system, the existing sensors of the boiler are utilized, real-time operation parameters of the boiler are collected, coded and transmitted to a remote management platform, safety and energy efficiency indexes of the boiler to be detected are further analyzed, calculated and evaluated, and targeted optimization operation guidance is conducted on the operating boiler in modes of video, telephone, short message or field diagnosis and the like. The system can solve the problems that an operating parameter instrument system is not commonly used in an in-use boiler, operating personnel and management personnel cannot master the operating state of the boiler, the operating state is difficult to adjust, a man-machine complementary relation can be formed, the operating management level of the boiler is improved, and dynamic supervision of the boiler is realized. Not only effectively reduces the occurrence of boiler safety accidents, but also can improve the boiler efficiency and promote energy conservation and emission reduction. The remote dynamic monitoring system is equivalent to that a 'private doctor' is provided for each boiler in use, so that the boiler is guaranteed to be in the most healthy operation state, the lowest energy consumption and the lowest emission are achieved, and the safety is guaranteed.

Wherein, the alarm 14 may be an audible and visual alarm.

In some embodiments, the monitoring terminal 5 in the present application includes one or a combination of the following terminals:

television, cell-phone, panel computer, notebook computer.

In addition, the user can bind a personal account number through the WeChat public number, namely, the condition of the acquisition terminal 1 can be inquired at any time through registration and login of the account number and the name, and historical data of the acquisition terminal 1 can be inquired through the WeChat public number.

Preferably, the sensor group 11 comprises:

soft water hardness sensor, steam pressure sensor, steam temperature sensor, feed water temperature sensor, ambient temperature sensor, exhaust gas oxygen sensor, current sensor, voltage sensor, high water level sensor, low water level sensor.

It should be noted that the technical solution provided by the present application may further include other sensors, and the present application is not specifically limited herein.

Preferably, the acquisition terminal 1 further includes:

the signal preprocessing module 19 is used for preprocessing the signals sent by the sensor group 11 to the processor 15;

one end of the signal preprocessing module 19 is connected with the sensor group 11, and the other end thereof is connected with the processor 15.

Specifically, the signal preprocessing module 19 includes functions of attenuation, amplification, filtering, and the like, and when the signal is too large to overflow the signal acquisition range, the signal needs to be attenuated in equal proportion to meet the signal acquisition requirement; conversely, when the signal is too small to affect the signal acquisition accuracy, the signal needs to be amplified in equal proportion for signal acquisition, and then the signal preprocessing module 19 transmits the preprocessed signal to the processor 15.

In some embodiments, the acquisition terminal 1 further includes:

a fault self-detection module 16, wherein the fault self-detection module 16 is connected with the processor 15;

the fault self-detection module 16 is used for sending fault information generated by the acquisition terminal 1 to the processor 15, and the processor 15 receives the fault information to control the alarm 14 to perform fault alarm reminding.

Preferably, the fault self-detection module 16 includes:

short-circuit fault indicators (not shown), ground fault circuit breakers (not shown), overvoltage protection circuits (not shown), and overcurrent protection circuits (not shown).

Specifically, the fault self-detection module 16 in the application can detect whether the acquisition terminal 1 has a fault problem in real time, when the fault occurs and the acquisition terminal cannot work, the fault self-detection module 16 sends a fault signal to the processor 15, and the processor 15 controls the alarm 14 to give an alarm. It should be noted that the fault self-detection module 16 in the present application may further include other detection circuits or protection circuits, which are not limited herein.

Preferably, the module 12 capable of automatically sending short messages or making calls is GSM or TD-WCDMA.

The communication module 13 adopts a wired network or a 3G wireless network.

Preferably, the acquisition terminal 1 further includes:

the timer 17 is used for uploading the data detected by the acquisition terminal 1 to the cloud server 2 at regular time;

the timer 17 is connected to the processor 15.

Specifically, the timer 17 transmits the data and the temperature and humidity data to the processor 15 for storage at regular time, and the worker can look up the historical monitoring data to inquire whether abnormal data appear in the historical monitoring data.

Preferably, the acquisition terminal 1 further includes:

an LED display screen 18 (not shown) for displaying monitoring data and a data monitoring schematic or video;

the LED display 18 is connected to the processor 15.

Specifically, the staff may observe the video or monitor the data through the LED display screen 18, and the LED display screen 18 may be a touch screen.

The method and the system can enable boiler monitoring personnel to monitor the operation conditions of boilers in different areas on line in real time, when the boilers are lack of water and have overpressure, the system can give an alarm on site at the same time, and the system can remind operators to take safety measures in a short message or conversation mode; when the combustion working condition or load of the boiler changes, energy-saving judgment can be made according to the on-line thermal efficiency and energy efficiency parameters, and an operator is quickly guided to adjust the combustion condition of the boiler through a video or conversation mode, so that the aim of economic combustion is fulfilled. The system not only can effectively reduce the potential safety hazard of the boiler, but also can effectively improve the energy-saving management level of the boiler.

In summary, the method integrates sensing detection, signal acquisition, data conversion, remote transmission, cloud server operation and fault detection, and realizes real-time signal acquisition and encoding detection by installing various sensors or acquisition terminals on the energy consumption equipment on site; and transmitting to a remote management platform through the Internet; the cloud server processes data and performs model operation, so that 24-hour online monitoring on the energy consumption equipment is realized; once abnormity or alarm exists, the platform can find in time, and monitoring personnel send out warning to a user to guide treatment in the forms of telephone, short message and the like through expert remote diagnosis; finally, the engineering technology center personnel realize continuous, efficient and green operation of the energy consumption equipment on site through comprehensive service modes such as management energy conservation, technical improvement energy conservation and the like.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A monitoring system based on a cloud platform, comprising: the system comprises an acquisition terminal, an intelligent terminal, a cloud server, a public platform server and a monitoring terminal, wherein the acquisition terminal, the public platform server and the monitoring terminal are respectively in communication connection with the cloud server; the public platform server is in communication connection with the intelligent terminal;

the acquisition terminal comprises: the system comprises a sensor group, a module capable of automatically sending short messages or making calls, a communication module, an alarm and a processor, wherein the sensor group, the module capable of automatically sending short messages or making calls, the communication module and the alarm are respectively connected with the processor;

the cloud server is provided with a storage module and a data analysis module; the storage module is used for storing the monitoring data and the threshold value which are acquired by the acquisition terminal, the data analysis module is used for analyzing and comparing the received monitoring data with the threshold value, and the data analysis module is also used for drawing a data monitoring schematic diagram according to the monitoring data and sending the data monitoring schematic diagram to the monitoring terminal for displaying;

the monitoring terminal is provided with a report generation module and is used for receiving the monitoring data sent by the cloud server and making a report.

2. The cloud platform-based monitoring system of claim 1, wherein the set of sensors comprises:

soft water hardness sensor, steam pressure sensor, steam temperature sensor, feed water temperature sensor, ambient temperature sensor, exhaust gas oxygen sensor, current sensor, voltage sensor, high water level sensor, low water level sensor.

3. The cloud platform-based monitoring system of claim 1, wherein the collection terminal further comprises:

the signal preprocessing module is used for preprocessing the signals sent by the sensor group to the processor;

one end of the signal preprocessing module is connected with the sensor group, and the other end of the signal preprocessing module is connected with the processor.

4. The cloud platform-based monitoring system of claim 1, wherein the collection terminal further comprises:

the fault self-detection module is connected with the processor;

the fault self-detection module is used for sending fault information generated by the acquisition terminal to the processor, and the processor receives the fault information to control the alarm to carry out fault alarm reminding.

5. The cloud platform-based monitoring system of claim 4, wherein the fault self-detection module comprises:

short-circuit fault indicators, ground fault circuit breakers, overvoltage protection circuits, and overcurrent protection circuits.

6. The cloud platform-based monitoring system of claim 1, wherein the module capable of automatically texting or making a call is GSM or TD-WCDMA.

7. The cloud platform-based monitoring system of claim 1, wherein said communication module employs

A wired network or a 3G wireless network.

8. The cloud platform-based monitoring system of claim 1, wherein the collection terminal further comprises:

the timer is used for uploading the monitoring data acquired by the acquisition terminal to the cloud server at regular time;

the timer is connected with the processor.

9. The cloud platform-based monitoring system of claim 1, wherein the monitor terminal further comprises:

the LED display screen is used for displaying monitoring data and a data monitoring schematic diagram;

the LED display screen is connected with the processor.

10. The cloud platform-based monitoring system of any one of claims 1 to 9, wherein the monitoring terminal comprises one or a combination of the following terminals:

television, cell-phone, panel computer, notebook computer.

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