CN110311470A - A kind of wisdom power supply system based on solar energy photovoltaic panel - Google Patents

Abstract

The wisdom power supply system based on solar energy photovoltaic panel that the present invention provides a kind of, the system include: monitor terminal, communication server and multiple photovoltaic power supply subsystems；Each photovoltaic power supply subsystem carries out information exchange by the communication server and the monitor terminal 10；The monitor terminal is used to monitor the operating status of each photovoltaic power supply subsystem.Wisdom power supply system based on solar energy photovoltaic panel of the invention, can convert the solar into electric energy, while being storable in solar storage battery group, and then be powered for electrical equipment, the power supply system not only cleanliness without any pollution, but also the use of saving alternating current.

Description

A kind of wisdom power supply system based on solar energy photovoltaic panel

Technical field

The present invention relates to photovoltaic power supply technical fields more particularly to a kind of wisdom based on solar energy photovoltaic panel to power and be System.

Background technique

A kind of renewable energy of the solar energy as flood tide, the radiation energy for reaching earth surface daily are equivalent to several hundred million ten thousand The energy of bucket oil combustion.Abundant, wide solar energy is developed and utilized, seldom pollution environment can not be generated or be generated. Whether it from economic society walks Sustainable Development Road and protects the height of ball ecological environment for the survival of mankind to examine closely, Or real energy supply is solved the problems, such as from specific use, development and utilization solar energy all has great strategic significance.Due to Photovoltaic power supply has the incomparable superiority of many traditional energies, be recognized be the optimal energy supply mode of the mankind it One.Existing photovoltaic power supply system is all made of numerous solar energy photovoltaic panels, will once solar energy photovoltaic panel breaks down The power supply efficiency for directly affecting photovoltaic power supply system may lead ignition calamity when serious.

Summary of the invention

In view of the above-mentioned problems, the present invention provides a kind of wisdom power supply system based on solar energy photovoltaic panel.

The purpose of the present invention is realized using following technical scheme:

A kind of wisdom power supply system based on solar energy photovoltaic panel, the system include: monitor terminal, communication server and more A photovoltaic power supply subsystem；Each photovoltaic power supply subsystem carries out information friendship by the communication server and the monitor terminal Mutually；The monitor terminal is used to monitor the operating status of each photovoltaic power supply subsystem；

The photovoltaic power supply subsystem includes: photovoltaic board group, solar controller, solar storage battery group and inverse Become device；The photovoltaic board group is erected on outdoor bracket and towards sunniness direction, and the bracket rear side is fixed There is electronic box, the solar controller, solar storage battery group and inverter are placed in the electronic box, the solar energy photovoltaic panel Group, solar controller, solar storage battery group charging connection, the solar controller is to the solar storage battery group Charge and discharge process is controlled and is provided overcurrent protection, the photovoltaic board group, solar storage battery group as power supply with The inverter electrical connection, the inverter turn the direct current that the photovoltaic board group, solar storage battery group export Being changed to 220V alternating current is power supply for electrical equipment.

Preferably, the monitor terminal includes: data acquisition module and remote monitoring center；

The data acquisition module for acquiring the running state data of each photovoltaic power supply subsystem, and transmits it to The remote monitoring center；

The remote monitoring center analyzes each photovoltaic power supply subsystem for handling to receiving running state data The operating status of system, and alarm in photovoltaic power supply subsystem work exception.

Preferably, the data acquisition module includes the nothing being made of multiple sensor monitoring nodes and a base station equipment Line sensor network, the sensor monitoring node are used to acquire the running state data of monitored position, and transmit it to Base station equipment, the base station equipment converge the running state data of each sensor monitoring node acquisition, and transmit it to described Remote monitoring center.

Preferably, the sensor monitoring node includes: voltage sensor, current sensor, photosensitive sensor, temperature biography One or more of sensor, photovoltaic illuminance transducer.

Preferably, the base station equipment is set to the center in monitoring region, and each sensor monitoring node is deployed in each light The monitoring position of volt power supply subsystem, after the completion of deployment, each sensor monitoring node constitutes one by Ad hoc mode and is used for Acquire the wireless sensor network of the running state data of each photovoltaic power supply subsystem.

Preferably, after the completion of sensor monitoring node and base station equipment are disposed, each sensor monitoring node is according to preset Cluster rule constructs wireless sensor network, and the preset cluster rule is specifically:

(1) it is positive hexagonal centre point, the monitoring region is split with regular hexagon, directly with the base station equipment To the entire monitoring region of covering, multiple monitoring subregions are obtained, wherein the side length of regular hexagon is a；

(2) base station equipment issues sub-clustering instruction to the whole network, and each sensor monitoring node monitored in subregion receives To after sub-clustering instruction, the ability value of the cluster head where itself capable of serving as it in monitoring subregion is calculated according to the following formula:

In formula, A_pThe ability value of cluster head where it can be served as sensor monitoring node p in monitoring subregion, E_res (p) the current remaining value for being sensor monitoring node p, d (p, Sink) are sensor monitoring node p and the base station equipment Distance, T_currentFor current environmental temperature value, T₀It (p) is ecotopia temperature value needed for sensor monitoring node p, ε is ring Border fissipation factor, N_pFor the sensor monitoring node number where sensor monitoring node p in monitoring subregion, E₁For sensor prison Survey energy loss value per unit time of the node for communication, E₂It is sensor monitoring node for calculating and transmitting per unit Energy loss value in time；

(3) the maximum sensor monitoring node of ability value in each monitoring subregion is selected to monitor sub as cluster head, place Remaining sensor monitoring node in region is added in its cluster as bunch member node, finally realizes sub-clustering.

The invention has the benefit that the wisdom power supply system of the invention based on solar energy photovoltaic panel, it can be by the sun Electric energy can be converted to, while being storable in solar storage battery group, and then be powered for electrical equipment, the power supply system is not Only cleanliness without any pollution, and save the use of alternating current.

The wireless monitor to the system may be implemented using wireless sensor network technology, carry out inspection without maintenance personal Maintenance, saves the investment of manpower and material resources.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings, but the embodiment in attached drawing is not constituted to any limit of the invention System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings Other attached drawings.

Fig. 1 is a kind of structural representation of wisdom power supply system based on solar energy photovoltaic panel provided in an embodiment of the present invention Figure；

Fig. 2 is the structural schematic diagram of photovoltaic power supply subsystem provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of monitor terminal provided in an embodiment of the present invention.

Appended drawing reference: monitor terminal 10；Communication server 20；Photovoltaic power supply subsystem 30；Data acquisition module 11；Remotely Monitoring center 12；Intelligent terminal 13；Photovoltaic board group 31；Solar controller 32；Solar storage battery group 33；It is inverse Become device 34；Electrical equipment 35.

Specific embodiment

The invention will be further described with the following Examples.

A kind of wisdom power supply system based on solar energy photovoltaic panel, the system include: monitor terminal 10, communication server 20 With multiple photovoltaic power supply subsystems 30；Each photovoltaic power supply subsystem 30 passes through the communication server 20 and the monitor terminal 10 carry out information exchange；The monitor terminal 10 is used to monitor the operating status of each photovoltaic power supply subsystem 30.

In an optional embodiment, the photovoltaic power supply subsystem 30 includes: photovoltaic board group 31, the sun It can control device 32, solar storage battery group 33 and inverter 34；The photovoltaic board group 31 is erected on outdoor bracket And towards sunniness direction, the bracket rear side is fixed with electronic box, the solar controller 32, solar storage battery group 33 It is placed in the electronic box with inverter 32, the photovoltaic board group 31, solar controller 32, solar storage battery group 33 Charging connection, the solar controller 32 are controlled and were provided to the charge and discharge process of the solar storage battery group 33 Electric protection, the photovoltaic board group 31, solar storage battery group 33 are electrically connected as power supply with the inverter 34, described The direct current that the photovoltaic board group 31, solar storage battery group 33 export is converted to 220V alternating current by inverter 34 Electrical equipment 35 is powered.

In an optional embodiment, the monitor terminal 10 includes: in data acquisition module 11 and long-range monitoring The heart 12；

The data acquisition module 11 for acquiring the running state data of each photovoltaic power supply subsystem, and is transmitted To the remote monitoring center 12；

The remote monitoring center 12 analyzes each photovoltaic power supply for handling to receiving running state data The operating status of system 30, and alarm in photovoltaic power supply 30 operation irregularity of subsystem.

In an optional embodiment, the monitor terminal further include: intelligent terminal 13, the intelligent terminal Equipment 13 and the remote monitoring center 12 communicate to connect, and the intelligent terminal 13 is subjected to point of remote monitoring center 12 Analysis is described as a result, in order to the operating status that maintenance personal can understand each photovoltaic power supply subsystem by intelligent terminal 13 Intelligent terminal 13 is also used to receive the warning message of remote monitoring center 12, in order to which maintenance personal takes timely measure pair The photovoltaic power supply subsystem of relevant work exception is safeguarded.Wherein, intelligent terminal 13 can be with are as follows: mobile phone, tablet computer, Notebook etc..

In an optional embodiment, the data acquisition module 11 includes by multiple sensor monitoring nodes and one The wireless sensor network that a base station equipment is constituted, the sensor monitoring node are used to acquire the operating status of monitored position Data, and base station equipment is transmitted it to, the base station equipment converges the running state data of each sensor monitoring node acquisition, And transmit it to the remote monitoring center 12.

The invention has the benefit that the wisdom power supply system provided in an embodiment of the present invention based on solar energy photovoltaic panel, Electric energy can be converted the solar into, while being storable in solar storage battery group, and then be powered for electrical equipment, it should Power supply system not only cleanliness without any pollution, but also the use of saving alternating current.

The wireless monitor to the system may be implemented using wireless sensor network technology, carry out inspection without maintenance personal Maintenance, saves the investment of manpower and material resources.

In an optional embodiment, the sensor monitoring node include: voltage sensor, current sensor, One or more of photosensitive sensor, temperature sensor, photovoltaic illuminance transducer.

In an optional embodiment, the base station equipment is set to the center in monitoring region, each sensor prison Node deployment is surveyed in the monitoring position of each photovoltaic power supply subsystem 30, after the completion of deployment, each sensor monitoring node is by from group The mode of knitting constitutes the wireless sensor network of a running state data for acquiring each photovoltaic power supply subsystem 30.

In an optional embodiment, after the completion of sensor monitoring node and base station equipment deployment, each sensor prison It surveys node and constructs wireless sensor network according to preset cluster rule, the preset cluster rule is specifically:

(1) it is positive hexagonal centre point, the monitoring region is split with regular hexagon, directly with the base station equipment To the entire monitoring region of covering, multiple monitoring subregions are obtained, wherein the side length of regular hexagon is a；

(2) base station equipment issues sub-clustering instruction to the whole network, and each sensor monitoring node monitored in subregion receives To after sub-clustering instruction, the ability value of the cluster head where itself capable of serving as it in monitoring subregion is calculated according to the following formula:

In formula, A_pThe ability value of cluster head where it can be served as sensor monitoring node p in monitoring subregion, E_res (p) the current remaining value for being sensor monitoring node p, d (p, Sink) are sensor monitoring node p and the base station equipment Distance, T_currentFor current environmental temperature value, T₀It (p) is ecotopia temperature value needed for sensor monitoring node p, ε is ring Border fissipation factor, N_pFor the sensor monitoring node number where sensor monitoring node p in monitoring subregion, E₁For sensor prison Survey energy loss value per unit time of the node for communication, E₂It is sensor monitoring node for calculating and transmitting per unit Energy loss value in time；

(3) the maximum sensor monitoring node of ability value in each monitoring subregion is selected to monitor sub as cluster head, place Remaining sensor monitoring node in region is added in its cluster as bunch member node, finally realizes sub-clustering.

In the above-described embodiment, multiple equal-sized monitoring subregions are divided by the way that region will be monitored, it is then sharp The ability value of cluster head can be served as by calculating each monitoring subregion inner sensor monitoring node with above formula, and then selective power value is most Big sensor monitoring node becomes cluster head, and remaining sensor monitoring node is added to corresponding cluster as bunch member node In, which not only allows for sensor monitoring node residual energy force value, it is also contemplated that current environmental temperature imitates working sensor The influence of rate and the influence of itself and the space length of base station equipment, so that the maximum sensor monitoring node of ability value serves as Cluster head, so that the balanced energy loss of entire wireless sensor network, avoids the low sensor monitoring node load of ability value The phenomenon that appointing cluster head and causing sensor monitoring node premature death generation, extends the service life of the wireless sensor network.

In an optional embodiment, before being split to monitoring region, positive six can be determined by following process The side length a of side shape, and then the monitoring region is split:

(1) after the completion of sensor monitoring node and base station equipment are disposed, the base station equipment carries out the whole network broadcast, each to pass After sensor monitoring node receives broadcast, Xiang Suoshu base station equipment sends the data packet for carrying self information, the data packet It include: the performance parameter of the location information of sensor monitoring node, sensor monitoring node；

(2) base station equipment receives the data packet that each sensor monitoring node is sent, and determines positive six side according to the following formula The side length a of shape,

Wherein,Region inner sensor monitoring node is respectively monitored to the farthest of the base station equipment Distance and minimum distance,For the averag density of the monitoring region inner sensor monitoring node, S is the area in the monitoring region,Average distance for monitoring region inner sensor monitoring node to the base station equipment, σ_fsAnd σ_ampIt is free sky respectively Between channel model and the corresponding power amplification characteristic constant of multipath fading channels model.

In the above-described embodiment, in order to maximum equalising network energy energy consumption, the embodiment of the present invention is proposed When carrying out cluster head selection, region segmentation will be first monitored into regular hexagon of the same size, the monitoring sub-district then obtained from segmentation Cluster head selection is carried out in domain, and then obtains the wireless sensor network of sub-clustering.In above-described embodiment creatively in fashion described above Determine the side length of regular hexagon, the process not only consider sensor monitoring node to base station equipment distance factor influence, In view of the influence of the factors such as monitoring region inner sensor monitoring node density, so as to more reasonably determine regular hexagon Side length realizes the segmentation to the monitoring region, and then is conducive to the building of subsequent wireless sensor network.

In an optional embodiment, the sensor monitoring node due to serving as cluster head is responsible for connecing for data in cluster It receives and forwards, if persistently serving as cluster head will cause its premature death, and then influence monitor terminal to each photovoltaic power supply subsystem The real-time monitoring of operating status, it is necessary to set a penalty threshold, in order to serve as cluster head in the sensor monitoring node Number when being more than the penalty threshold, being capable of the maximum sensor prison of selection residual energy magnitude in the monitoring subregion where it Node is surveyed as new cluster head, then the cluster head for serving as sensor monitoring node before is added to new cluster head as bunch member node In, wherein the penalty threshold can be determined by following formula:

In formula, Th_iFor the penalty threshold for monitoring subregion i, M is monitoring subregion number,For in monitoring subregion i Cluster head primary power value,For monitoring subregion i in bunch member node it is initial when the average energy value, E_thIt can make to be preset For the minimum energy value of cluster head, ρ_iFor the density for monitoring subregion i inner sensor monitoring node, R_max、R_minRespectively monitoring Maximum distance and minimum distance of the bunch member node to its cluster head ch, q in the i of region_iIt can for bunch member node in monitoring subregion i The maximum value of the length of the datagram of transmission, E₁、E₂The respectively cluster head energy consumption that receives data, send data, d (ch, Sink) is For cluster head ch to the space length of the base station equipment, a is preset weight coefficient, meets 0 < a < 0.25.

In the above-described embodiment, data and Xiang Ji in reception cluster are responsible for due to serving as the sensor monitoring node of cluster head Station equipment forwards the task of data, and excessive energy will be lost in each round, if serving as cluster head for a long time, it is easy to because of energy Amount exhausts and can not receive data in cluster and carry out data forwarding, and then influences operation of the monitor terminal to photovoltaic power supply subsystem State is monitored, and accurate data information can not be provided for maintenance personal, and therefore, it is necessary to the sensor monitorings to cluster head is served as Node carries out rotation, to realize to the reliable transmissions of data, is creatively provided with penalty threshold in above-described embodiment, when serving as The number of the sensor monitoring node of cluster head is greater than the penalty threshold, then monitors again at it and determine a new cluster in subregion Head, and then complete data and transmit work.When solving the penalty threshold, where not only allowing for its cluster head in monitoring subregion Sensor node density, it is also contemplated that the influence of capacity factor, and then can be according to the actual conditions in each monitoring subregion Adaptive one penalty threshold of setting, solves the sensor monitoring node premature death for serving as cluster head, and it is wireless to extend this The service life of sensor network, the balanced energy consumption of entire wireless sensor network.

Finally it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than the present invention is protected The limitation of range is protected, although explaining in detail referring to preferred embodiment to the present invention, those skilled in the art are answered Work as understanding, it can be with modification or equivalent replacement of the technical solution of the present invention are made, without departing from the reality of technical solution of the present invention Matter and range.

Claims (6)

1. a kind of wisdom power supply system based on solar energy photovoltaic panel characterized by comprising monitor terminal, communication server With multiple photovoltaic power supply subsystems；Each photovoltaic power supply subsystem carries out letter by the communication server and the monitor terminal Breath interaction；The monitor terminal is used to monitor the operating status of each photovoltaic power supply subsystem；

The photovoltaic power supply subsystem includes: photovoltaic board group, solar controller, solar storage battery group and inversion Device；The photovoltaic board group is erected on outdoor bracket and towards sunniness direction, and the bracket rear side is fixed with Electronic box, the solar controller, solar storage battery group and inverter are placed in the electronic box, the solar energy photovoltaic panel Group, solar controller, solar storage battery group charging connection, the solar controller is to the solar storage battery group Charge and discharge process is controlled and is provided overcurrent protection, the photovoltaic board group, solar storage battery group as power supply with The inverter electrical connection, the inverter turn the direct current that the photovoltaic board group, solar storage battery group export Being changed to 220V alternating current is power supply for electrical equipment.

2. the wisdom power supply system according to claim 1 based on solar energy photovoltaic panel, which is characterized in that the monitoring is eventually End includes: data acquisition module and remote monitoring center；

The data acquisition module for acquiring the running state data of each photovoltaic power supply subsystem, and transmits it to described Remote monitoring center；

The remote monitoring center analyzes each photovoltaic power supply subsystem for handling to receiving running state data Operating status, and alarm in photovoltaic power supply subsystem work exception.

3. the wisdom power supply system according to claim 2 based on solar energy photovoltaic panel, which is characterized in that the data are adopted Collecting module includes the wireless sensor network being made of multiple sensor monitoring nodes and a base station equipment, the sensor prison The running state data that node is used to acquire monitored position is surveyed, and transmits it to base station equipment, the base station equipment convergence The running state data of each sensor monitoring node acquisition, and transmit it to the remote monitoring center.

4. the wisdom power supply system according to claim 3 based on solar energy photovoltaic panel, which is characterized in that the sensor Monitoring node includes: voltage sensor, current sensor, photosensitive sensor, temperature sensor, one in photovoltaic illuminance transducer Kind is a variety of.

5. the wisdom power supply system according to claim 3 based on solar energy photovoltaic panel, which is characterized in that the base station is set The standby center for being set to monitoring region, each sensor monitoring node are deployed in the monitoring position of each photovoltaic power supply subsystem, portion After the completion of administration, each sensor monitoring node constitutes one for acquiring the operation of each photovoltaic power supply subsystem by Ad hoc mode The wireless sensor network of status data.

6. the wisdom power supply system according to claim 5 based on solar energy photovoltaic panel, which is characterized in that sensor monitoring After the completion of node and base station equipment deployment, each sensor monitoring node constructs wireless sensor network according to preset cluster rule Network, the preset cluster rule is specifically:

(1) it is positive hexagonal centre point with the base station equipment, the monitoring region is split with regular hexagon, until covering The entire monitoring region of lid, obtains multiple monitoring subregions, wherein the side length of regular hexagon is a；

(2) base station equipment issues sub-clustering instruction to the whole network, and each sensor monitoring node monitored in subregion receives point After cluster instruction, the ability value of the cluster head where itself capable of serving as it in monitoring subregion is calculated according to the following formula:

In formula, A_pThe ability value of cluster head where it can be served as sensor monitoring node p in monitoring subregion, E_res(p) it is The current remaining value of sensor monitoring node p, d (p, Sink) be sensor monitoring node p and the base station equipment away from From T_currentFor current environmental temperature value, T₀It (p) is ecotopia temperature value needed for sensor monitoring node p, ε is environment damage Consume the factor, N_pFor the sensor monitoring node number where sensor monitoring node p in monitoring subregion, E₁It monitors and saves for sensor Energy loss value per unit time of the point for communication, E₂It is sensor monitoring node for calculating and transmitting per unit time Interior energy loss value；

(3) select in each monitoring subregion the maximum sensor monitoring node of ability value as cluster head, where monitor subregion Interior remaining sensor monitoring node is added in its cluster as bunch member node, finally realizes sub-clustering.