CN207977771U - A kind of solar control system based on NB-lot - Google Patents

Abstract

The utility model is related to solar control system fields, and in particular to a kind of solar control system based on NB lot.The solar control system includes the main control module being arranged in solar controller and NB lot modules, and the solar control system further includes the base stations NB lot and Internet of Things administrative center；Wherein, the main control module is connect by NB lot modules with NB lot base station communications, and the base stations the NB lot can be communicated with multiple NB lot modules；Multiple base stations the NB lot are communicated to connect with Internet of Things administrative center, and constitute a NB lot Internet of Things networks.The utility model constitutes a NB lot Internet of Things networks, NB Iot technical solutions are using single lamp and the direct-connected mode in base station, and without centralized manager, message transmission rate is faster more stable for centre by the way that NB lot modules are arranged in solar controller.

Description

A kind of solar control system based on NB-lot

Technical field

The utility model is related to solar control system fields, and in particular to a kind of solar control system based on NB-lot System.

Background technology

Solar controller full name is solar charging discharging controller, is in solar power system, controlling multichannel Solar cell array to accumulator charge and accumulator to solar inverter load supplying automatic control equipment.It is right The charge and discharge condition of accumulator is provided and is controlled, and controls solar module and electric power storage according to the power supply requirement of load Pond exports the electric energy of load, is the core control portions of entire photovoltaic power supply system.

In general, solar controller is communicated using various wireless modes, 433M, ZigBee, LoRa and WiFi, However, 433M channels are not general, foreign countries may be limited；ZigBee- wireless networking scale is smallers, the time delay of multi-hop transmission can not Control is easy in transmission process by external interference, while also lacking corresponding safety standard because it is operated in the free frequency ranges of 2.4G With perfect standard；LoRa is operated in the free frequency ranges of ISM, its protocol specification be it is disclosed, this with regard to vulnerable, in addition it Need newly-built base station, cost higher；WiFi-- power consumptions are compared with high, access amount is few, safety is very low.

Specifically, original scheme uses 433M or Zigbee adhoc modes, and 433Mhz is implanted into each single-lamp controller Or Zigbee wireless communication modules, ad hoc network carries out data interaction between single-lamp controller, after N number of single-lamp controller networking with Centralized Controller communicates, and is transferred to by the GPRS network and GPRS base station communications of Centralized Controller the data of interaction are needed Solar Street Lighting System administrative center, user can check that/setting/monitors by PC or APP.Centralized manager is passed through in centre, Message transmission rate may be unstable, and rate is also limited.

How a kind of communication mode based on solar controller is provided, is the problem of those skilled in the art study always One of.

Utility model content

The technical problem to be solved by the present invention is to for the drawbacks described above of the prior art, provide a kind of based on NB- The solar control system of lot, solves that the communication of existing solar controller is dangerous, access point is few, of high cost, stability is controllable Property difference problem.

Technical solution adopted by the utility model to solve its technical problems is：A kind of sun based on NB-lot is provided Energy control system, solar control system includes solar controller, solar panels, accumulator and load, the solar energy control System processed includes the main control module being arranged in solar controller and NB-lot modules, and the solar control system also wraps Include the base stations NB-lot and Internet of Things administrative center；Wherein, the main control module passes through NB-lot modules and NB-lot base station communications Connection, the base stations NB-lot can be communicated with multiple NB-lot modules；During multiple base stations NB-lot are managed with Internet of Things The heart communicates to connect, and constitutes a NB-lot Internet of Things networks.

Wherein, preferred version is：The solar controller further includes the charging control circuit being connect with main control module, institute It states solar panels to connect with accumulator by solar controller, the charging control circuit manages solar panels to accumulator Charging operations.

Wherein, preferred version is：The solar controller further includes the charge/discharge control circuit being connect with main control module, institute It states accumulator to connect by solar controller and load, the charge/discharge control circuit management of battery grasps the electric discharge of load Make.

Wherein, preferred version is：The solar control system further includes NB-lot core nets, multiple NB-lot bases Stand connect with NB-lot core nets and multiple NB-lot core nets with Internet of Things administrative center communicate to connect, and Constitute a NB-lot Internet of Things networks.

Wherein, preferred version is：The solar control system further includes Internet of Things application server, and the Internet of Things is answered It is communicated to connect with server and Internet of Things administrative center, and acquires the data information of all solar controllers.

Wherein, preferred version is：The solar control system further includes management platform, and the management platform was arranged at end In end equipment, and obtain the related data information in Internet of Things application server.

Wherein, preferred version is：The main control module obtains the data information of solar controller itself, and obtains too The data information of positive energy plate, accumulator and load, and be sent in Internet of Things administrative center by NB-lot modules.

Wherein, preferred version is：The solar controller is arranged on street lamp, and the load is street lamp.

The beneficial effects of the utility model are that compared with prior art, the utility model passes through in solar controller Upper setting NB-lot modules constitute a NB-lot Internet of Things networks, and NB-Iot technical solutions use single lamp and the direct-connected mode in base station, Without centralized manager, message transmission rate is faster more stable for centre.

Description of the drawings

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing：

Fig. 1 is the structure diagram of the utility model solar control system；

Fig. 2 is the structural schematic diagram of the utility model solar control system；

Fig. 3 is the structure diagram based on Fig. 2.

Specific implementation mode

In conjunction with attached drawing, elaborate to the preferred embodiment of the utility model.

As shown in Figure 1, the utility model provides a kind of preferred embodiment of the solar control system based on NB-lot.

A kind of solar control system based on NB-lot, solar control system include solar controller 11, the sun Energy plate 12, accumulator 13 and load 14, the solar control system includes the master control mould being arranged in solar controller 11 Block 111 and NB-lot modules 112, the solar control system further include the base stations NB-lot 21 and Internet of Things administrative center 31； Wherein, the main control module 111 is communicated to connect by NB-lot modules 112 and the base stations NB-lot 21, the base stations NB-lot 21 It can be communicated with multiple NB-lot modules 112；Multiple base stations NB-lot 21 are communicated to connect with Internet of Things administrative center 31, And constitute a NB-lot Internet of Things networks.

Wherein, NB-IoT has six big advantages：

First, extensively covering, under same frequency range, NB-IoT is equivalent to than existing network gain 20dB and improves 100 The ability of times overlay area；Second is that having the ability of support magnanimity connection, mono- sector NB-IoT can support 100,000 connections, The network architecture of support low latency sensitivity, ultralow equipment cost, low equipment power dissipation and optimization；Third, more low-power consumption, NB- The stand-by time of IoT terminal modules is 10 years；Fourth, lower module cost, single successive module expected from enterprise is not More than 5 dollars；Fifth, network is safer and stablizes, it is not easy to be interfered by outer signals；Sixth, data transmission bauds is fast, lamps and lanterns control Real-time processed is more preferable.

Preferably, the solar controller 11 is arranged on street lamp, and the load 14 is street lamp.

In the present embodiment, a kind of preferred version of solar controller 11 is provided.

The solar controller 11 further includes the charging control circuit 113 being connect with main control module 111, the solar energy Plate 12 is connect by solar controller 11 with accumulator 13, and the charging control circuit 113 manages solar panels 12 to electric power storage The charging operations in pond 13.Specifically, charging control circuit 113 controls the input of 12 electric energy of solar panels, and control input electric power storage The electric energy in pond 13, the charging control circuit 113 may include the logic circuit that pure electronic component is constituted, or pass through The control circuit that chip and external circuit are constituted.

And the solar controller 11 further includes the charge/discharge control circuit 114 being connect with main control module 111, it is described Accumulator 13 is connect by solar controller 11 with load 14, and 114 management of battery 13 of the charge/discharge control circuit is to load 14 discharge operation.Specifically, charge/discharge control circuit 114 controls the electric energy output of accumulator 13, and control input load 14 Electric energy, the charge/discharge control circuit 114 may include the logic circuit that pure electronic component is constituted, or pass through chip And the control circuit that external circuit is constituted.

Further, charging control circuit 113 and charge/discharge control circuit 114 are provided in patrolling on main control module 111 Collect circuit module.The main control module 111 is the combination of main control chip and external circuit structure.

As shown in Figures 2 and 3, the utility model provides a kind of preferred embodiment of solar control system.

The solar control system further includes NB-lot core nets 22, and multiple base stations NB-lot 21 are and NB- Lot core nets 22 connect and multiple NB-lot core nets 22 are communicated to connect with Internet of Things administrative center 31, and constitute One NB-lot Internet of Things networks.

And the solar control system further includes Internet of Things application server 32, the Internet of Things application server 32 communicate to connect with Internet of Things administrative center 31, and acquire the data information of all solar controllers 11.

And the solar control system further includes management platform 40, the management platform 40 is arranged in terminal device In, and obtain the related data information in Internet of Things application server 32.

Specifically, the acquisition solar controller 11 of the main control module 111 data information of itself, and obtain solar energy Plate 12, accumulator 13 and the data information for loading 14, and be sent in Internet of Things administrative center 31 by NB-lot modules 112. 112 data informations of multiple NB-lot modules are sent to the specified base stations NB-lot 21, and, and pass through the base stations NB-lot 21 NB-lot core nets 22 are sent to, a large-scale NB-lot Internet of Things network is formed.

Wherein, data information is collected in Internet of Things administrative center 31 by NB-lot core nets 22 by high in the clouds, Internet of Things Administrative center 31 stores data to Internet of Things application server 32, external terminal device according to the control of management platform 40, Such as mobile phone or tablet 42, computer 41 are by network accessing internet of things application server 32, or directly accessing internet of things management Center 31 obtains related data.

As described above, only the best embodiment of the utility model is not intended to limit the scope of the utility model, All equivalent change or modifications made according to the patent scope of the utility model are all that the utility model is covered.

Claims (8)

1. a kind of solar control system based on NB-lot, solar control system include solar controller, solar panels, Accumulator and load, it is characterised in that：The solar control system includes the main control module being arranged in solar controller With NB-lot modules, the solar control system further includes the base stations NB-lot and Internet of Things administrative center；Wherein,

The main control module is connect by NB-lot modules with NB-lot base station communications, and the base stations NB-lot can be with multiple NB- Lot modules communicate；Multiple base stations NB-lot are communicated to connect with Internet of Things administrative center, and constitute a NB-lot Internet of Things Network.

2. solar control system according to claim 1, it is characterised in that：The solar controller further includes and leads The charging control circuit of module connection is controlled, the solar panels are connect by solar controller with accumulator, the charging control Charging operations of the Circuit management solar panels processed to accumulator.

3. solar control system according to claim 2, it is characterised in that：The solar controller further includes and leads The charge/discharge control circuit of module connection is controlled, the accumulator is connected by solar controller and load, the control of discharge electricity Discharge operation of the road management of battery to load.

4. solar control system according to claim 1, it is characterised in that：The solar control system further includes NB-lot core nets, multiple base stations NB-lot are connect with NB-lot core nets and multiple NB-lot core nets It is communicated to connect with Internet of Things administrative center, and constitutes a NB-lot Internet of Things networks.

5. solar control system according to claim 1 or 4, it is characterised in that：The solar control system also wraps Include Internet of Things application server, the Internet of Things application server is communicated to connect with Internet of Things administrative center, and acquire it is all too The data information of positive energy controller.

6. solar control system according to claim 5, it is characterised in that：The solar control system further includes pipe Platform, the management platform is arranged in terminal device, and obtains the related data information in Internet of Things application server.

7. solar control system according to claim 1, it is characterised in that：The main control module obtains solar control The data information of device itself, and the data information of solar panels, accumulator and load is obtained, and sent by NB-lot modules Into Internet of Things administrative center.

8. solar control system according to claim 1, it is characterised in that：The solar controller is arranged in street lamp On, the load is street lamp.