CN105204396A - Intelligent monitoring system suitable for dish-type Stirling generator set module - Google Patents

Abstract

The invention discloses an intelligent monitoring system suitable for a dish-type Stirling generator set module. The intelligent monitoring system comprises a remote monitor and at least one sub-monitoring system. The sub-monitoring system comprises a generator set module control panel, a main control panel and a local monitor, which are connected through buses and are used for carrying out data information exchange. The generator set module control panel is connected with the generator set module and is used for receiving a control instruction and driving the generator set module to execute the control instruction. The generator set module control panel comprises a Stirling control panel connected with a Stirling generator set and a condensation dish control panel connected with a condensation dish. The local monitor is used for realizing monitoring of the single generator set module connected therewith. The remote monitor is in communication connnection with the main control panel and is used for realizing remote monitoring of the intelligent monitoring system. The intelligent monitoring system can realize manual and automatic power generation control of the single generator set module and cluster power generation control of a plurality of generator set modules.

Description

A kind of intelligent monitor system being applicable to dish-style stirling generator group module

Technical field

The present invention relates to genset intelligent monitor system design field, is espespecially a kind of intelligent monitor system being applicable to dish-style stirling generator group module.

Background technology

At present, the energy-consuming of China, based on traditional fossil energy, result in problem of environmental pollution more and more serious; Sun power is a kind of regenerative resource, pollution-free, therefore obtains increasing application.Stirling engine is a kind of external-burning closed circulation reciprocating-piston Thermal Motor.Compared with internal combustion engine, the features such as Stirling engine has fuel wide accommodation, noise is low, maintaining expense is low, stable output power.Dish-style stirling generator group module is a kind of technology being produced high temperature and then the generating of promotion Stirling engine by focusing sunlight, is the one in focusing sunlight generating (ConcentratingSolarPower, CSP) technology.Because this technology has light gathering by force, the thermal efficiency high of prime mover.In CSP several technology, dish-style stirling generator group module conversion efficiency of thermoelectric is the highest, and its conversion efficiency of thermoelectric can reach more than 30%.Meanwhile, it is moderate that dish-style stirling generator group building block technique also has single-machine capacity, consumes the features such as water resource hardly, be conducive to applying.

In order to ensure optically focused dish and Stirling engine co-ordination, improve systems generate electricity efficiency and reliability, need to arrange the sensor of some quantity and the state of topworks's detection and control dish-style Stirling, each sensor and topworks all need a corresponding wire access supervisory system to realize automated system operation, due to sensor and topworks's quantity more, cause number of cables more, the sunshine that also cable will be prevented not to be focused burns out, also has strong electromagnetic interference (EMI) in dish-style stirling generator group Modular Pack Mine System body simultaneously, very easily disturb sensor signal, and traditional monitor mode complex structure, automaticity is low, and its signal transmission distance is longer.

The applicant is devoted to provide a kind of intelligent monitor system being applicable to dish-style stirling generator group module.

Summary of the invention

The object of this invention is to provide a kind of intelligent monitor system being applicable to dish-style stirling generator group module, it is reasonable in design, cost is low, structure is simple, automaticity is high, practical, every platform dish-style stirling generator group module can normally be worked, and the cluster generating of multiple stage stirling generator group module can be realized, thus realize maximum generation power efficiency.

For solving the problems of the technologies described above, the invention provides a kind of intelligent monitor system being applicable to dish-style stirling generator group module, comprise remote monitor and at least one sub-supervisory system, described sub-supervisory system comprises power generation module control panel, master control board, the other watch-dog of machine;

Described power generation module control panel, master control board, the other watch-dog of machine are connected, for carrying out data information exchange by bus;

Described power generation module control panel is connected with a power generation module, and described power generation module control panel is for receiving steering order and driving described power generation module to perform described steering order;

Described power generation module control panel comprises Stirling control panel and optically focused dish control panel;

Described Stirling control panel is connected with described stirling generator group, and described optically focused dish control panel is connected with described optically focused dish;

The other watch-dog of described machine is for realizing the monitoring to power generation module described in connected separate unit;

Described remote monitor and described master control board pass through communication connection, for realizing the remote monitoring of described intelligent monitor system.

Preferably, described Stirling control panel comprises Stirling MCU module, Stirling simulating signal load module, Stirling analog signal output module, Stirling switching signal load module, Stirling switching signal output module, Stirling transceiver module, the first Stirling isolation module, the second Stirling isolation module, the 3rd Stirling isolation module;

Described Stirling MCU module receives the first Stirling switching signal that described Stirling switching signal load module sends, generate the second Stirling switching signal after process and send it to described Stirling switching signal output module, described Stirling MCU module receives the first Stirling simulating signal that described Stirling simulating signal load module sends, generate the second Stirling simulating signal after process and send it to described Stirling analog signal output module, described Stirling MCU module is connected with described bus by described Stirling transceiver module;

The first Stirling isolation module is provided with between described Stirling MCU module and described Stirling simulating signal load module, described Stirling analog signal output module, be provided with the second Stirling isolation module between described Stirling MCU module and described Stirling switching signal load module, described Stirling switching signal output module, between described Stirling MCU module and described Stirling transceiver module, be provided with the 3rd Stirling isolation module;

And/or;

Described optically focused dish control panel comprises optically focused dish MCU module, optically focused dish simulating signal load module, optically focused dish analog signal output module, optically focused dish switching signal load module, optically focused dish switching signal output module, optically focused dish transceiver module, the first optically focused dish isolation module, the second optically focused dish isolation module, trimerization laser disc isolation module;

Described optically focused dish MCU module receives the first optically focused dish switching signal that described optically focused dish switching signal load module sends, generate the second optically focused dish switching signal after process and send it to described optically focused dish switching signal output module, described optically focused dish MCU module receives the first optically focused dish simulating signal that described optically focused dish simulating signal load module sends, generate the second optically focused dish simulating signal after process and send it to described optically focused dish analog signal output module, described optically focused dish MCU module is connected with described bus by described optically focused dish transceiver module;

The first optically focused dish isolation module is provided with between described optically focused dish MCU module and described optically focused dish simulating signal load module, described optically focused dish analog signal output module, be provided with the second optically focused dish isolation module between described optically focused dish MCU module and described optically focused dish switching signal load module, described optically focused dish switching signal output module, between described optically focused dish MCU module and described optically focused dish transceiver module, be provided with trimerization laser disc isolation module;

And/or;

Described master control board comprises master control board MCU module, wireless module, memory module, transceiver module, the first communications transceiver module, the second communications transceiver module, the first master control board isolation module, the second master control board isolation module, the 3rd master control board isolation module;

The first wireless signal that described master control board MCU module sends for receiving described wireless module, generate the second wireless signal after process and send it to described memory module, the first communication signal that described master control board MCU module sends for receiving described first communications transceiver module, generates the second communication signal after process and sends it to the second communications transceiver module;

Described first master control board isolation module is provided with between described master control board MCU module and described wireless module, described memory module, be provided with the second master control board isolation module between described master control board MCU module and described first communications transceiver module, described second communications transceiver module, between described master control board MCU module and described transceiver module, be provided with the 3rd master control board isolation module.

Preferably, described power generation module control panel is arranged on described power generation module, and described master control board and the other watch-dog of machine are arranged in the ground strut of described power generation module, and described remote monitor is arranged on control center indoor.

Be arranged on its monitored object nearby by each ingredient of intelligent monitor system, effectively can shorten line length, data information transfer is more accurate, and efficiency is higher, and security performance is good, and configuration is succinct, convenient installation and debugging.

Preferably, the other watch-dog of machine comprises the first machine interactive interface, for showing the state parameter of power generation module described in coupled separate unit, and obtains the on-site control data of manually input;

And/or;

Remote monitor comprises the second human-computer interaction interface, for showing the state parameter of whole described power generation module, and obtains the remote control data of manually input.

Preferably, in power generation module automatic Debugging operational process described in separate unit, described power generation module control panel is for identifying and receiving the first signal that described power generation module sends and generate secondary signal, described master control board is used for receiving and processing described secondary signal and generate the first steering order, described power generation module control panel for receiving described first steering order, and drives described power generation module to perform described first steering order; Described remote monitor and the other watch-dog of described machine are for showing the state parameter of described power generation module.

The present invention can identify the first signal that cluster engine sends automatically, and makes corresponding reaction, thus realizes the centerized fusion of intelligent monitor system to separate unit cluster engine.

Preferably, described first signal is digital signal and/or simulating signal.

Preferably, described power generation module control panel and/or master control board comprise isolation module, for isolating described digital signal and simulating signal.

Isolation module can isolate digital signal and simulating signal, thus the reliability of effective raising system.

Preferably, in the manual commissioning process of power generation module described in separate unit, the other watch-dog of described machine or remote monitor are for receiving the first control data, generate the second steering order after process and send it to described master control board, described master control board receives the second steering order and sends it to described power generation module control panel, and described power generation module control panel receives described second steering order and drives described power generation module to perform described second steering order.

By directly inputting the first control data to the other watch-dog of machine, and by the process of master control board, intelligent monitor system can be realized for the point-to-point distributed AC servo system of separate unit power generation module.

Preferably, power generation module described in multiple stage carries out in the process of cluster generating, described remote monitor receives the second control data and generates the 3rd steering order, described master control board receives described 3rd steering order, generate the 4th steering order after process and send it to described power generation module control panel, described power generation module control panel receives described 4th steering order and drives described power generation module to perform described 4th steering order.

Preferably, described power generation module control panel comprises Stirling control panel and optically focused dish control panel;

Described power generation module comprises described stirling generator group and optically focused dish;

Described Stirling control panel is connected with described stirling generator group, and described optically focused dish control panel is connected with described optically focused dish.

Intelligent system of the present invention can be applied in the power generation process of dish-style stirling generator group module well, thus realizes the maximum generated output of stirling generator group module and efficiency.

The present invention can realize following beneficial effect:

1, the intelligent monitor system being applicable to dish-style stirling generator group module of the present invention is reasonable in design, cost is low, structure is simple, automaticity is high, practical.Namely can realize the automatic control for separate unit power generation module or Non-follow control in the present invention, the Long-distance Control of multiple stage power generation module cluster generating can be realized again, thus make power generation module reach maximum generated output and efficiency;

2, intelligent monitor system of the present invention adopts the principle of installing nearby, each control panel is arranged on the object of its monitoring, thus effectively reduce signal transmission distance, be convenient to the installment and debugging of system, reduce system installation and maintenance cost, and effectively prevent the misoperation that signal wire easily scurries into interference and supervisory system, thus effectively improve reliability and the security of system;

3, the present invention by being provided with isolation module on power generation module control panel, can isolation mode analog signal and digital signal, thus the reliability of effective raising system.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail:

Fig. 1 is the structural representation of the intelligent monitor system specific embodiment being applicable to dish-style stirling generator group module.

Drawing reference numeral illustrates:

Stirling control panel 10, Stirling MCU module 11, Stirling simulating signal load module 12, Stirling analog signal output module 13, Stirling switching signal load module 14, Stirling switching signal output module 15, Stirling transceiver module 16, first Stirling isolation module 17, second Stirling isolation module the 18, three Stirling isolation module 19;

Optically focused dish control panel 20, optically focused dish MCU module 21, optically focused dish simulating signal load module 22, optically focused dish analog signal output module 23, optically focused dish switching signal load module 24, optically focused dish switching signal output module 25, optically focused dish transceiver module 26, first optically focused dish isolation module 27, second optically focused dish isolation module 28, trimerization laser disc isolation module 29;

Master control board 30, master control board MCU module 31, wireless module 32, memory module 33, first communications transceiver module 34, second communications transceiver module 35, transceiver module 36, first master control board isolation module 37, second master control board isolation module the 38, three master control board isolation module 39;

The other watch-dog 40 of machine; Remote monitor 50; Bus 60; Communication interface 70; Debugging interface 80.

Embodiment

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

As shown in Figure 1, this specific embodiment discloses a kind of intelligent monitor system being applicable to dish-style stirling generator group, comprise remote monitor 50 and at least one sub-supervisory system, sub-supervisory system comprises power generation module control panel, master control board 30, the other watch-dog 40 of machine; In the present embodiment, power generation module control panel comprises Stirling control panel 10 and optically focused dish control panel 20; Stirling control panel 10 is connected by bus 60 with optically focused dish control panel 20, master control board 30, the other watch-dog 40 of machine, for carrying out data information exchange, wherein bus 60 can select CAN, RS-485 bus, FF, LonWorks or Profitbus etc.; Power generation module control panel is connected with a power generation module, and power generation module control panel is for receiving steering order and driving described power generation module to perform described steering order; In this specific embodiment, power generation module comprises stirling generator group and optically focused dish, and wherein Stirling control panel 10 is connected with stirling generator group, and optically focused dish control panel 20 is connected with optically focused dish, realizes the tracking of optically focused dish to the sun; The other watch-dog 40 of machine is for realizing the monitoring to connected separate unit power generation module; Remote monitor 50 and master control board 30 pass through communication connection, for realizing the remote monitoring of intelligent monitor system.

Concrete, conveniently Installation and Debugging and shorten the length of connection line in intelligent system, in this specific embodiment, intelligent monitor system adopts the principle of installing nearby, each control panel installs distribution nearby on its monitored object, wherein power generation module control panel is arranged on power generation module, that is, in the present embodiment, Stirling control panel 10 is arranged in stirling generator group, optically focused dish control panel 20 is arranged on optically focused dish, master control board 30 and the other watch-dog 40 of machine are arranged in the ground strut of power generation module, remote monitor 50 is arranged on control center indoor.

Concrete, the other watch-dog 40 of machine comprises the first machine interactive interface, for showing the state parameter of power generation module described in coupled separate unit, and obtains on-site control data; Remote monitor 50 comprises the second human-computer interaction interface, for showing the state parameter of whole described power generation module, and obtains remote control data.The other watch-dog 40 of machine and remote monitor 50 can select home PC, commercial PC, Industrial PC Computer, text display, HMI display or touch-screen etc.

Concrete, in separate unit power generation module automatic Debugging operational process, power generation module control panel is for identifying and receiving the first signal that power generation module sends and generate secondary signal, that is in the present embodiment, Stirling control panel 10 generates the second Stirling signal after identifying the first Stirling signal transacting that stirling generator group sends, optically focused dish control panel 20 generates the second optically focused dish signal after identifying the first optically focused dish signal transacting that optically focused dish sends, master control board 30 is for receiving and processing the second Stirling signal and the second optically focused dish signal and generate the first steering order, power generation module control panel receives described first steering order, and drive power generation module to perform described first steering order, namely Stirling control panel 10 receives the first steering order and drives stirling generator group to perform the first steering order, optically focused dish control panel 20 receives the first steering order and drives optically focused dish to perform the first steering order, in the process, master control board 30 is cores of intelligent monitor system, completes control algolithm, logic and communication function, and remote monitor 50 and the other watch-dog 40 of machine are only for showing the state parameter of power generation module simultaneously.

Exemplary, the first signal in the present embodiment is digital signal and simulating signal.Concrete, power generation module control panel comprises isolation module, namely the Stirling control panel 10 in the present embodiment and optically focused dish control panel 20 include isolation module, master control board 30 also comprises isolation module, isolation module is for isolating digital signal and simulating signal, and isolation module can selective light electric isolution or transformer isolation.

Concrete, in the manual commissioning process of separate unit power generation module, the other watch-dog 40 of machine or remote monitor 50 are for receiving the first control data, generate the second steering order after process and send it to master control board 30, master control board 30 receives the second steering order and sends it to power generation module control panel, power generation module control panel receives the second steering order and drives power generation module to perform the second steering order, that is, in this specific embodiment, Stirling control panel 10 receives the second steering order and drives stirling generator group to perform the second steering order, optically focused dish control panel 20 receives the second steering order and drives optically focused dish to perform the second steering order.

Concrete, multiple stage power generation module carries out in the process of cluster generating, remote monitor 50 receives the second control data and generates the 3rd steering order, master control board 30 receives the 3rd steering order, generate the 4th steering order after process and send it to power generation module control panel, power generation module control panel receives the 4th steering order and drives power generation module to perform described 4th steering order, that is, in this specific embodiment, Stirling control panel 10 receives the 4th steering order and drives stirling generator group to perform the 4th steering order, optically focused dish control panel 20 receives the 4th steering order and drives optically focused dish to perform the 4th steering order.In the process, remote monitoring center 50 is cores of intelligent monitor system, completes the control algolithm of multiple stage dish-style stirling generator group module cluster generating, logic and communication function.

Exemplary, Stirling control panel 10 comprises Stirling MCU module 11, Stirling simulating signal load module 12, Stirling analog signal output module 13, Stirling switching signal load module 14, Stirling switching signal output module 15, Stirling transceiver module 16, first Stirling isolation module 17, second Stirling isolation module 18, the 3rd Stirling isolation module 19; Stirling MCU module 11 receives the first Stirling switching signal that Stirling switching signal load module 14 sends, generate the second Stirling switching signal after process and send it to Stirling switching signal output module 15, Stirling MCU module 11 receives the first Stirling simulating signal that Stirling simulating signal load module 12 sends, generate the second Stirling simulating signal after process and send it to Stirling analog signal output module 13, Stirling MCU module 11 is connected with bus 60 by Stirling transceiver module 16; The first Stirling isolation module 17 is provided with between Stirling MCU module 11 and Stirling simulating signal load module 12, Stirling analog signal output module 13, be provided with the second Stirling isolation module 18 between Stirling MCU module 11 and Stirling switching signal load module 14, Stirling switching signal output module 15, between Stirling MCU module 11 and Stirling transceiver module 16, be provided with the 3rd Stirling isolation module 19.

Exemplary, optically focused dish control panel 20 comprises optically focused dish MCU module 21, optically focused dish simulating signal load module 22, optically focused dish analog signal output module 23, optically focused dish switching signal load module 24, optically focused dish switching signal output module 25, optically focused dish transceiver module 26, first optically focused dish isolation module 27, second optically focused dish isolation module 28, trimerization laser disc isolation module 29; Optically focused dish MCU module 11 receives the first optically focused dish switching signal that optically focused dish switching signal load module 24 sends, generate the second optically focused dish switching signal after process and send it to optically focused dish switching signal output module 25, optically focused dish MCU module 11 receives the first optically focused dish simulating signal that optically focused dish simulating signal load module 22 sends, generate the second optically focused dish simulating signal after process and send it to optically focused dish analog signal output module 23, optically focused dish MCU module 11 is connected with bus 60 by optically focused dish transceiver module 26; The first optically focused dish isolation module 27 is provided with between optically focused dish MCU module 21 and optically focused dish simulating signal load module 22, optically focused dish analog signal output module 23, be provided with the second optically focused dish isolation module 28 between optically focused dish MCU module 21 and optically focused dish switching signal load module 24, optically focused dish switching signal output module 25, between optically focused dish MCU module 21 and optically focused dish transceiver module 26, be provided with trimerization laser disc isolation module 29.

Exemplary, master control board 30 comprises master control board MCU module 31, wireless module 32, memory module 33, first communications transceiver module 34, second communications transceiver module 35, transceiver module 36, first master control board isolation module 37, second master control board isolation module 38, the 3rd master control board isolation module 39, wherein wireless module 32 can select GPRS, bluetooth or ZigBee, and memory module 33 can select SD card, CF card or hard disk; The first wireless signal that master control board MCU module 31 sends for receiving wireless module 32, generate the second wireless signal after process and send it to memory module 33, the first communication signal that master control board MCU module 31 sends for receiving the first communications transceiver module 34, generates the second communication signal after process and sends it to the second communications transceiver module 35; The first master control board isolation module 37 is provided with between master control board MCU module 31 and wireless module 32, memory module 33, be provided with the second master control board isolation module 38 between master control board MCU module 31 and the first communications transceiver module 34, second communications transceiver module 35, between master control board MCU module 31 and transceiver module 36, be provided with the 3rd master control board isolation module 39.In this specific embodiment, master control board 30 is connected with remote monitor 50 by the communication interface 70 in the second communications transceiver module 35, and communication interface 70 can select CAN, RS-485 bus, ethernet communication etc.; And the first communications transceiver module 34 is connected with a debugging interface 80.

In the present embodiment, each isolation module in Stirling control panel 10, optically focused dish control panel 20, master control board 30 can select same model also can select different models; Stirling MCU module 11, optically focused dish MCU module 21, master control board MCU module 31 all can select single-chip microcomputer, DSP, ARM or other micro-chip processor, and these three modules can be same model also can for different model.

Of course, in other specific embodiments, power generation module in the present invention can also comprise other devices except stirling generator group and optically focused dish, such as can also illumination apparatus, heat sink etc. be set, accordingly, power generation module control panel can also comprise other control panels except Stirling control panel and optically focused dish control panel; According to actual needs, master control board can be arranged on the other watch-dog of machine or the two is arranged on different positions respectively; Remote monitor and the other watch-dog of machine can receive the control data of manually input by human-computer interaction interface, also can be received the control data of phonetic entry by devices such as microphones; In addition, master control board can also be connected with remote monitor by wireless module; Master control board optionally can arrange wireless module and memory module or the first communications transceiver module and the second communications transceiver module, repeats no more herein.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (8)

1. be applicable to an intelligent monitor system for dish-style stirling generator group module, it is characterized in that:

Comprise remote monitor and at least one sub-supervisory system, described sub-supervisory system comprises power generation module control panel, master control board, the other watch-dog of machine;

Described power generation module control panel, master control board, the other watch-dog of machine are connected, for carrying out data information exchange by bus;

Described power generation module control panel is connected with a power generation module, and described power generation module control panel is for receiving steering order and driving described power generation module to perform described steering order;

Described power generation module control panel comprises Stirling control panel and optically focused dish control panel;

Described Stirling control panel is connected with described stirling generator group, and described optically focused dish control panel is connected with described optically focused dish;

The other watch-dog of described machine is for realizing the monitoring to connected separate unit power generation module;

Described remote monitor is connected by communication interface with described master control board, for realizing the remote monitoring of described intelligent monitor system.

2. intelligent monitor system as claimed in claim 1, is characterized in that:

Described Stirling control panel comprises Stirling MCU module, Stirling simulating signal load module, Stirling analog signal output module, Stirling switching signal load module, Stirling switching signal output module, Stirling transceiver module, the first Stirling isolation module, the second Stirling isolation module, the 3rd Stirling isolation module;

Described Stirling MCU module receives the first Stirling switching signal that described Stirling switching signal load module sends, generate the second Stirling switching signal after process and send it to described Stirling switching signal output module, described Stirling MCU module receives the first Stirling simulating signal that described Stirling simulating signal load module sends, generate the second Stirling simulating signal after process and send it to described Stirling analog signal output module, described Stirling MCU module is connected with described bus by described Stirling transceiver module;

The first Stirling isolation module is provided with between described Stirling MCU module and described Stirling simulating signal load module, described Stirling analog signal output module, be provided with the second Stirling isolation module between described Stirling MCU module and described Stirling switching signal load module, described Stirling switching signal output module, between described Stirling MCU module and described Stirling transceiver module, be provided with the 3rd Stirling isolation module;

And/or;

Described optically focused dish control panel comprises optically focused dish MCU module, optically focused dish simulating signal load module, optically focused dish analog signal output module, optically focused dish switching signal load module, optically focused dish switching signal output module, optically focused dish transceiver module, the first optically focused dish isolation module, the second optically focused dish isolation module, trimerization laser disc isolation module;

Described optically focused dish MCU module receives the first optically focused dish switching signal that described optically focused dish switching signal load module sends, generate the second optically focused dish switching signal after process and send it to described optically focused dish switching signal output module, described optically focused dish MCU module receives the first optically focused dish simulating signal that described optically focused dish simulating signal load module sends, generate the second optically focused dish simulating signal after process and send it to described optically focused dish analog signal output module, described optically focused dish MCU module is connected with described bus by described optically focused dish transceiver module;

The first optically focused dish isolation module is provided with between described optically focused dish MCU module and described optically focused dish simulating signal load module, described optically focused dish analog signal output module, be provided with the second optically focused dish isolation module between described optically focused dish MCU module and described optically focused dish switching signal load module, described optically focused dish switching signal output module, between described optically focused dish MCU module and described optically focused dish transceiver module, be provided with trimerization laser disc isolation module;

And/or;

Described master control board comprises master control board MCU module, wireless module, memory module, transceiver module, the first communications transceiver module, the second communications transceiver module, the first master control board isolation module, the second master control board isolation module, the 3rd master control board isolation module;

The first wireless signal that described master control board MCU module sends for receiving described wireless module, generate the second wireless signal after process and send it to described memory module, the first communication signal that described master control board MCU module sends for receiving described first communications transceiver module, generates the second communication signal after process and sends it to the second communications transceiver module;

Described first master control board isolation module is provided with between described master control board MCU module and described wireless module, described memory module, be provided with the second master control board isolation module between described master control board MCU module and described first communications transceiver module, described second communications transceiver module, between described master control board MCU module and described transceiver module, be provided with the 3rd master control board isolation module.

3. intelligent monitor system as claimed in claim 2, is characterized in that:

Described power generation module control panel is arranged on described power generation module, and described master control board and the other watch-dog of machine are arranged in the ground strut of described power generation module, and described remote monitor is arranged on control center indoor.

4. intelligent monitor system as claimed in claim 2 or claim 3, is characterized in that:

The other watch-dog of machine comprises the first machine interactive interface, for showing the state parameter of power generation module described in coupled separate unit, and obtains the on-site control data of manually input;

And/or;

Remote monitor comprises the second human-computer interaction interface, for showing the state parameter of whole described power generation module, and obtains the remote control data of manually input.

5. the intelligent monitor system any one of claims 1 to 3 as described in claim, it is characterized in that: in power generation module automatic Debugging operational process described in separate unit, described power generation module control panel is for identifying and receiving the first signal that described power generation module sends and generate secondary signal, described master control board is used for receiving and processing described secondary signal and generate the first steering order, described power generation module control panel for receiving described first steering order, and drives described power generation module to perform described first steering order; Described remote monitor and the other watch-dog of described machine are for showing the state parameter of described power generation module.

6. intelligent monitor system as claimed in claim 5, is characterized in that:

Described power generation module control panel and/or master control board comprise isolation module, for isolating described digital signal and simulating signal.

7. the intelligent monitor system any one of claims 1 to 3 as described in claim, it is characterized in that: in the manual commissioning process of power generation module described in separate unit, the other watch-dog of described machine or remote monitor are for receiving the first control data, generate the second steering order after process and send it to described master control board, described master control board receives the second steering order and sends it to described power generation module control panel, described power generation module control panel receives described second steering order and drives described power generation module to perform described second steering order.

8. the intelligent monitor system any one of claims 1 to 3 as described in claim, it is characterized in that: power generation module described in multiple stage carries out in the process of cluster generating, described remote monitor receives the second control data and generates the 3rd steering order, described master control board receives described 3rd steering order, generate the 4th steering order after process and send it to described power generation module control panel, described power generation module control panel receives described 4th steering order and drives described power generation module to perform described 4th steering order.