CN207692113U - Illumination control system and data platform - Google Patents

Abstract

The utility model is related to field of agricultural production technologies, a kind of illumination control system and data platform are provided.The illumination control system includes Illumination adjusting subsystem, communication equipment and monitoring host computer.Illumination adjusting subsystem is mounted in planting greenhouse, for detect the photometric data in acquisition planting greenhouse and adjusting the ambient lighting in planting greenhouse, and photometric data is sent to monitoring host computer by communication equipment.Monitoring host computer is used to generate control instruction according to user's operation, and control instruction is sent to Illumination adjusting subsystem by communication equipment, and Illumination adjusting subsystem is additionally operable to based on the ambient lighting in control instruction content adjustment planting greenhouse.Communication equipment includes power line carrier module and network communication module, is communicated to connect by power line carrier module or network module between Illumination adjusting subsystem and monitoring host computer.Above-mentioned illumination control system high degree of automation, illumination control effect is good, while reliability is high, applied widely.

Description

Illumination control system and data platform

Technical field

The utility model is related to field of agricultural production technologies, flat in particular to a kind of illumination control system and data Platform.

Background technology

Standardization Agricultural Activities all too many levels in, need to certain key parameters (such as illumination, temperature with And humidity etc.) monitored in real time, and according to the floating situation of parameter, start corresponding counter-measure to ensure these parameters It is able to maintain that in particular range, to ensure being smoothed out for Agricultural Activities.Currently, the degree of automation of agriculture field It is also relatively low, the monitoring process of above-mentioned parameter and the control process taken when exceeded for parameter, mostly or by employment Work is completed.

Utility model content

In view of this, a kind of illumination control system of the utility model embodiment offer and data platform.

The embodiments of the present invention are achieved through the following technical solutions：

In a first aspect, the utility model embodiment provides a kind of illumination control system, including：Illumination adjusting subsystem leads to Believe equipment and monitoring host computer；

Illumination adjusting subsystem is mounted in planting greenhouse, and is communicated to connect by communication equipment and monitoring host computer, illumination It adjusts subsystem and is used to detect the photometric data obtained in planting greenhouse, and the environment in planting greenhouse is adjusted based on photometric data Illumination, Illumination adjusting subsystem are additionally operable to photometric data being sent to monitoring host computer by communication equipment, so that monitoring host computer User can know ambient lighting；

Monitoring host computer is used to generate control instruction according to user's operation, and control instruction is sent to light by communication equipment According to subsystem is adjusted, Illumination adjusting subsystem is additionally operable to when receiving control instruction, is based on control instruction adjusting ambient illumination；

Communication equipment includes power line carrier module and network communication module, and Illumination adjusting subsystem passes through power carrier mould Block or network communication module are communicated to connect with monitoring host computer.

Optionally, Illumination adjusting subsystem includes：Illumination detection device, control device and execution equipment；

Illumination detection device is communicated to connect with control device, and illumination detection device obtains photometric data for detecting, and will Photometric data is sent to control device；

Control device is used to execute equipment regulation ring based on photometric data control with equipment communication connection, control device is executed Border illumination；

Control device is also communicated to connect by communication equipment and monitoring host computer, and control device is additionally operable to pass through photometric data Communication equipment is sent to monitoring host computer, and when receiving the control instruction of monitoring host computer generation, is controlled based on control instruction Execute equipment adjusting ambient illumination.

Optionally, control device includes：Signal processing module and control module；

Signal processing module is communicated to connect with illumination detection device and control module, and signal processing module is for receiving simultaneously Photometric data is handled, and photometric data is sent to control module by treated.

Control module is used to execute equipment regulation ring based on photometric data control with equipment communication connection, control module is executed Border illumination；

Control module is also communicated to connect by communication equipment and monitoring host computer, and control module is additionally operable to pass through photometric data Communication equipment is sent to monitoring host computer, and when receiving the control instruction of monitoring host computer generation, is controlled based on control instruction Execute equipment adjusting ambient illumination.

Optionally, illumination detection device includes at least one optical sensor being mounted in planting greenhouse, signal processing The sensor interface to match at least one optical sensor is provided in module.

Optionally, control device further includes：Relay module；

Relay module is used to pass through relay mould with control module and execution equipment communication connection, control module respectively Block control executes equipment adjusting ambient illumination.

Optionally, executing equipment includes：It at least one ventilation device in planting greenhouse and/or at least one spills Water installations and/or at least one heating device.

Optionally, power line carrier module includes：First power carrier submodule and the second power carrier submodule；

First power carrier submodule is mounted on Illumination adjusting subsystem, is communicated to connect with control module, the second electric power Carrier wave submodule is mounted on monitoring host computer, is communicated to connect with monitoring host computer, and the first power carrier submodule and the second electric power carry Marble module is communicated to connect by electric power networks.

Control module is used to send photometric data through the first power carrier submodule and the second power carrier submodule To monitoring host computer；Monitoring host computer is used to send out control instruction through the second power carrier submodule and the first power carrier submodule It send to control module.

Optionally, the first power carrier submodule includes：First signal transceiver, first carrier Transmit-Receive Unit and first Transformer, the second power carrier submodule include：Second signal transceiver, the second carrier transmitting-receiving unit and the second transformer；

Control module, the first signal transceiver, first carrier Transmit-Receive Unit and the first transformer communicate to connect successively, the Two transformers, the second carrier transmitting-receiving unit, second signal transceiver and monitoring host computer communicate to connect successively, the first transformer with Second transformer is communicated to connect by electric power networks.

Control module is used for photometric data through the first signal transceiver, first carrier Transmit-Receive Unit, the first transformer, the Two transformers, the second carrier transmitting-receiving unit and second signal transceiver are sent to monitoring host computer；Monitoring host computer will be for that will control Instruction is through second signal transceiver, the second carrier transmitting-receiving unit, the second transformer, the first transformer, first carrier Transmit-Receive Unit And first signal transceiver be sent to control module.

Optionally, network communication module includes：First network communicates submodule and the second network communication submodule；

First network communicates submodule and is mounted on Illumination adjusting subsystem, is communicated to connect with control module, the second network It communicates submodule to be mounted on monitoring host computer, be communicated to connect with monitoring host computer, first network communicates submodule and the second network is logical Letter submodule is connected by communication.

Control module is used to photometric data communicating submodule through first network and the second network communication submodule is sent To monitoring host computer；Monitoring host computer is used for control instruction through the second network communication submodule and first network communication submodule hair It send to control module.

Second aspect, the utility model embodiment provide a kind of illumination control data platform, including：At least one above-mentioned light According to control system and data server；

Data server is communicated to connect at least one illumination control system, and data server is for obtaining at least one light Refer to according to the photometric data and control instruction in each illumination control system in control system, and by photometric data and control Order is stored in the storage unit of data server.

The technical solution of the utility model at least has the advantages that：

The illumination control system that the utility model embodiment provides, including Illumination adjusting subsystem, communication equipment and prison Control host.Wherein, Illumination adjusting subsystem be mounted on planting greenhouse in, can detect obtain planting greenhouse in photometric data simultaneously The ambient lighting in planting greenhouse is adjusted according to the photometric data, photometric data is also passed through communication equipment by Illumination adjusting subsystem It is sent to monitoring host computer.After the user of monitoring host computer knows the ambient lighting in planting greenhouse, it can be executed on monitoring host computer Corresponding user's operation, monitoring host computer can generate control instruction according to user's operation, and control instruction is passed through communication equipment It is sent to Illumination adjusting subsystem, Illumination adjusting subsystem is according to the ambient lighting in control instruction content adjustment planting greenhouse. Communication equipment includes power line carrier module and network communication module, and the data between Illumination adjusting subsystem and monitoring host computer are handed over It can mutually be realized by power line carrier module according to actual conditions or be realized by network module.In above-mentioned illumination control system Illumination adjusting subsystem realize the monitoring to ambient lighting in planting greenhouse and adjusting, high degree of automation, simultaneously Other than above-mentioned automation Illumination adjusting mode, Illumination adjusting subsystem can also be big to planting under the control of monitoring host computer Ambient lighting in canopy carries out long-range manual control, flexible working mode, and Illumination adjusting is imitated, and Illumination adjusting subsystem Power line carrier module or the two different modes of network communication module can be selected to be communicated between system and monitoring host computer, it can By property height, suitable for being disposed in different agriculture production environments.The illumination that the utility model embodiment provides controls data Platform, including at least one above-mentioned illumination control system and data server, data server are obtained from illumination control system The control instruction of the photometric data of planting greenhouse and corresponding monitoring host computer and preservation, can be later user's decision and The improvement of illumination control system provides data supporting.

Description of the drawings

It, below will be to required use in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 shows the structural schematic diagram for the illumination control system that the utility model embodiment provides；

Fig. 2 shows the structural schematic diagrams for the power line carrier module that the utility model embodiment provides；

Fig. 3 shows the structural schematic diagram for the network communication module that the utility model embodiment provides；

Fig. 4 shows the structural schematic diagram for the illumination control data platform that the utility model embodiment provides.

In figure, 1- illumination controls data platform；10- illumination control systems；100- Illumination adjusting subsystems；110- light According to detection device；120- control devices；122- signal processing modules；124- control modules；126- relay module； 130- execution modules；20- data servers；200- communication equipments；210- power line carrier modules；The first electric power of 212- carries Marble module；The first signal transceivers of 2120-；2122- first carrier Transmit-Receive Units；The first microcontrollers of 2122a-； 2122b- first carrier transceivers；The first transformers of 2124-；214- the second power carrier submodules；2140- second signals Transceiver；2142- the second carrier transmitting-receiving units；The second microcontrollers of 2142a-；The second carrier transceivers of 2142b-； The second transformers of 2144-；220- network communication modules；222- first networks communicate submodule；The second network communications of 224- Submodule；300- monitoring host computers；

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiments of the present invention to providing in the accompanying drawings is not intended to limit requirement below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts, all Belong to the range of the utility model protection.

It should be noted that：Similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, or The utility model product using when the orientation or positional relationship usually put, be merely for convenience of description the utility model and letter Change description, do not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and Operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " etc. are only used for area Divide description, is not understood to indicate or imply relative importance.

In addition, the terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, and It is that can be slightly tilted.It is not to indicate the structure if "horizontal" refers to only that its direction is more horizontal with respect to for "vertical" It has to fully horizontally, but can be slightly tilted.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, Or it is integrally connected；It can be mechanical connection, can also be electrical connection；It can be directly connected, intermediary can also be passed through It is indirectly connected, can be the connection inside two elements.It for the ordinary skill in the art, can be according to specific feelings Condition understands the concrete meaning of above-mentioned term in the present invention.

Other feature and advantage of the utility model will illustrate in subsequent specification, also, partly from specification It becomes apparent, or is understood by implementing the utility model embodiment.The purpose of this utility model and other advantages can It realizes and obtains by specifically noted structure in the specification, claims and attached drawing write.

In traditional mode of agriculture, the key parameter that generally monitors agricultural production by manually going on patrol (such as Illumination, temperature and humidity etc.), once it is found beyond specified range, then by manually starting corresponding counter-measure.

It has been recognised by the inventors that at least there is following defect in this manual work mode：(1) waste of manpower resource, with manpower The increasingly rising of cost, Chinese population bonus fade away, and this problem will become increasingly conspicuous；(2) real-time is poor, is manually patrolled The low influence of the frequency patrolled, monitoring activity can lag behind the variation of parameter, and being monitored that parameter is for a period of time exceeded may It is just found, this lag may bring some direct losses produced；(3) integrity problem, monitored parameter compared with It is more, under the scene that warning value flexibly floats, it is difficult to ensure the reliable of parameter monitoring and state modulator dependent on patrol is manually carried out Property；(4) region that agricultural production often relates to is bigger, by artificial progress parameter monitoring and takes counter-measure time-consuming Arduously.

An artificial environment being isolated with external environment, therefore its can be regarded as by taking planting greenhouse as an example, in planting greenhouse The quality of the upgrowth situation of middle crop is more dependent on manual control, and the above problem shows more prominent.If completely by people Work is monitored and takes corresponding counter-measure to the relevant environmental parameter of plant growth, will expend huge human resources at This, does not meet the development trend of modern agriculture yet.In the prior art, for the ambient lighting parameter in planting greenhouse, part Planting greenhouse realizes the automatic monitoring to ambient lighting by the way that optical sensor is arranged, but is finding the exceeded when institute of ambient lighting The control process taken, compared to the mode of production of traditional agriculture, is improved extremely limited still by being accomplished manually.This practicality is new A kind of illumination control system of type embodiment offer and data platform, to improve the above problem, this practicality present in planting greenhouse The illumination control system and data platform that new embodiment provides, have that high degree of automation, illumination control effect be good, reliability The advantages that high, applied widely.

First embodiment：

Fig. 1 shows the structural schematic diagram for the illumination control system 10 that the utility model embodiment provides.Referring to Fig.1, light Include Illumination adjusting subsystem 100, communication equipment 200 and monitoring host computer 300 according to control system 10.

Illumination adjusting subsystem 100 be mounted on planting greenhouse in, including illumination detection device 110, control device 120 and Equipment is executed, control device 120 includes signal processing module 122, control module 124 and relay module 126.

Illumination detection device 110 includes at least one optical sensor, is rule of thumb planting optical sensor setting Precalculated position in greenhouse, such as in air or in soil.Optical sensor generally comprises light sensitive element, light sensitive member Part can experience the ambient lighting in planting greenhouse, and be translated into electric signal, i.e., photometric data exports.

Optical sensor is communicated to connect with signal processing module 122, and the photometric data of acquisition can be output at signal Manage module 122.In general, in the case of no specified otherwise, the communication connection in the utility model embodiment refers to mutual Can uniaxially or bidirectionally carry out information exchange between the entity of connection, connection type can be it is wired, can also It is wireless, in the present embodiment, is connected using iic bus between optical sensor and signal processing module 122, it is possible to understand that Other connection types can also be used in the other embodiment of the utility model.Illumination sensing in the utility model embodiment Device can be various models, and the operating voltage of the optical sensor of different model is different, for instance it can be possible that 3V, 5V or 12V etc..Letter It is provided with multiple sensor interfaces in number processing module 122, sensor interface is iic bus interface, while different sensors Interface supply voltage is different, so as to the optical sensor of compatible connection different model.Since signal processing module 122 connects Optical sensor model may be different, so its photometric data form for receiving also disunity, is united by signal processing module 122 After one processing, by treated, photometric data is sent to the control module 124 communicated to connect with signal processing module 122.Signal Processing module 122 may be, but not limited to, microcontroller.

Control module 124 is communicated to connect by relay module 126 and execution module 130, and relay module 126 includes extremely A few relay, execution module 130 includes multiple execution equipment in planting greenhouse, for example, it may be but unlimited In at least one ventilation device and/or at least one watering device and/or at least one heating device, wherein ventilation device and spill Water installations are for the cooling in planting greenhouse, and heating device is for the heating in planting greenhouse.Control module 124 can by after At least one of electrical appliance module 126 relay respectively controls each execution equipment, to realize to environment in planting greenhouse The adjusting of illumination.Specifically, being stored with preset determining program in control module 124 and executing instruction, to control module 124 can judge that the Illumination adjusting to be executed is operated according to the photometric data received, such as one is preset in control module 124 Illumination threshold value shows illumination in planting greenhouse when the ambient lighting that the photometric data received is characterized is less than the illumination threshold value Too low, crop has freeze injury hidden danger, control module 124 to execute preset illumination and increase instruction, is embodied in control heating dress The relay set sends electric signal, so that relay contact is closed, heating device is started to work.It is appreciated that above-mentioned control mould The course of work of block 124 is merely illustrative, does not constitute any restrictions to the scope of protection of the utility model.Control module 124 can be with It is, but is not limited to microcontroller.

In short, Illumination adjusting subsystem 100 can detect the photometric data obtained in planting greenhouse, and it is based on the illumination number According to the ambient lighting adjusted in planting greenhouse, the detection and adjusting of illumination are automatically performed, and are not necessarily to manual intervention, are automated journey Degree is high, saves cost of human resources.Illumination adjusting subsystem 100 generally uses electric power networks, such as electricity network to be supplied Electricity, it is also possible to including spare generating equipment, be used to power to Illumination adjusting subsystem 100 when electric power networks have a power failure To maintain its normal operation.

Illumination adjusting subsystem 100 can automatically adjust the ambient lighting in planting greenhouse, but automatic illumination is adjusted after all It can only be adjusted according to the preset instructions in control module 124, best effective can not be reached to the control of ambient lighting sometimes Fruit.The illumination control system 10 that the utility model embodiment provides also supports the Illumination adjusting of manual intervention, but not Traditional Agricultural Being manually entered in planting greenhouse in the industry mode of production control the corresponding equipment that executes and is adjusted.Illumination adjusting subsystem The control module 124 of system 100 is also communicated to connect by communication equipment 200 and monitoring host computer 300, and monitoring host computer 300 can be meter Calculation machine or server, generally with planting greenhouse not in same place.After illumination control module 124 obtains photometric data, in addition to base Execution module 130 is controlled in photometric data, the photometric data is also sent to monitoring host computer 300 by communication equipment 200, is monitored The user of host 300 is generally the professional technician of agriculture field, can be with after user knows the ambient lighting in planting greenhouse It is made a policy based on the ambient lighting, for example whether to carry out manual intervention adjusting to the ambient lighting in greenhouse.It is appreciated that The information that control module 124 is sent to monitoring host computer 300 is not limited to photometric data, such as can also include that control module 124 will The preset instructions to be executed allow the user to judge whether the behavior of control module 124 is appropriate.User will be in planting greenhouse Ambient lighting when being controlled, corresponding operating is executed on monitoring host computer 300, monitoring host computer 300 is generated based on user's operation Control instruction, and control instruction is sent to control module 124 by communication equipment 200, control module 124 is receiving control When instruction, the content based on control instruction, control execution module 130 adjusts the ambient lighting in planting greenhouse.It is appreciated that prison The content for the control instruction that control host 300 is sent to control module 124 is not limited to Illumination adjusting instruction, for example, control module 124 In the threshold value that increases of preset illumination be 5 DEG C, later user has found that threshold value setting is unreasonable, can pass through monitoring host computer 300 To 124 sending threshold value of control module more new command, which is updated to 10 DEG C.

In short, by the communication connection of control module 124 and monitoring host computer 300,300 user of monitoring host computer is realized to kind The remote control for planting illumination in greenhouse, i.e., the adjusting of ambient lighting can be by Illumination adjusting subsystem 100 certainly in planting greenhouse It is dynamic to adjust, manual adjustment can also be carried out by long-range monitoring host computer 300, control mode is flexible, and illumination control effect is good.

Illumination adjusting subsystem 100 be mounted on planting greenhouse in, but planting greenhouse location may be located in it is remote or from Right environment is bad, is unsuitable for that computer room is arranged, so monitoring host computer 300 is generally arranged at other ground with a certain distance from planting greenhouse Point carries out data interaction by communication equipment 200 and Illumination adjusting subsystem 100.In the utility model embodiment, to ensure The reliability of above-mentioned data exchange process, communication equipment 200 include power line carrier module 210 and network communication module 220.Electricity Power carrier module 210 realizes the data interaction between control module 124 and monitoring host computer 300 by electric power networks.Network communication Module 220 by the communication networks such as computer network or mobile communications network realize control module 124 and monitoring host computer 300 it Between data interaction.Network communication module 220 is led using data interactive mode popular at present, but in agricultural production Domain, since planting greenhouse location may be located in, remote or natural environment is bad, and not ready-made communication network can utilize, If setting up communication network specifically for agricultural production, cost is higher, should not use in practice.Electric power can be utilized to carry at this time Wave module 210 carries out data interaction, and power line carrier module 210 is carrier, China's mesh with existing electric power networks, such as electricity network Preceding power infrastructures construction is fairly perfect, and overwhelming majority remote districts have been powered, and meeting power line carrier module 210 makes Prerequisite.The transmitting terminal of power line carrier module 210 is modulated carrier signal using the information to be transmitted, in electric power Modulated carrier signal is transmitted on line, receiving terminal carries out demodulation to carrier signal and can be obtained the information to be transmitted.

The communication equipment 200 that the utility model embodiment provides, while including power line carrier module 210 and network communication Module 220 can select when use to use one of which communication mode according to the specific environment in planting greenhouse location.Also, When used communication mode breaks down, another communication mode can also be switched to.For example, the control of certain planting greenhouse Module 124 is communicated to connect by power line carrier module 210 and monitoring host computer 300 to carry out data interaction, but after because of natural calamity Power line used in power line carrier module 210 is caused to disconnect.At this point, control module 124 and monitoring host computer 300 can be attempted to cut It shifts to network communication module 220 to be communicatively coupled, manual type may be used in switching mode, can also be according to pre-set programs It carries out.

Fig. 2 shows the structural schematic diagrams for the power line carrier module 210 that the utility model embodiment provides.With reference to Fig. 2, electricity Power carrier module 210 includes the first power carrier submodule 212 and the second power carrier submodule 214, the first power carrier Submodule 212 is mounted on Illumination adjusting subsystem 100, is communicated to connect with control module 124, the second power carrier submodule 214 are mounted on monitoring host computer 300, are communicated to connect with monitoring host computer 300, the first power carrier submodule 212 and the second electric power Carrier wave submodule 214 is communicated to connect by electric power networks.First power carrier submodule 212 and the second power carrier submodule 214 can carry out data transmit-receive.

Specifically, the first power carrier submodule 212 includes the first signal transceiver 2120, first carrier Transmit-Receive Unit 2122 and first transformer 2124.Wherein, first carrier Transmit-Receive Unit 2122 includes the first microcontroller 2122a and first Carrier transceiver 2122b.Second power carrier submodule 214 includes second signal transceiver 2140, the second carrier transmitting-receiving unit 2142 and second transformer 2144.Wherein, the second carrier transmitting-receiving unit 2142 includes the second microcontroller 2142a and second Carrier transceiver 2142b.Control module 124, the first signal transceiver 2120, the first microcontroller 2122a, first carrier transmitting-receiving Device 2122b and the first transformer 2124 communicate to connect successively, the second transformer 2144, the second carrier transceiver 2142b, second Microcontroller 2142a, second signal transceiver 2140 and monitoring host computer 300 communicate to connect successively, the first transformer 2124 with Second transformer 2144 is communicated to connect by electric power networks.

First signal transceiver 2120 can be, but be not limited to RS485 transceivers.First carrier Transmit-Receive Unit 2122 is used for Realize the modulation and demodulation of carrier signal, wherein the first microcontroller 2122a can be, but be not limited to microcontroller, first carrier Transceiver 2122b can be, but be not limited to ST7538 power carrier chips, and the first microcontroller 2122a is used for first carrier Transceiver 2122b is controlled to realize the modulation and demodulation of carrier signal.First transformer 2124 is used for carrier signal coupling It is bonded on power line and sends, or couple the carrier signal on power line to first carrier Transmit-Receive Unit 2122 and receive.Second Power carrier submodule 214 can be with 212 structure and function having the same of the first power carrier submodule.

When using power line carrier module 210, control module 124 and the specific data exchange process of monitoring host computer 300 are： Control module 124 is by photometric data through the first signal transceiver 2120, the first microcontroller 2122a, first carrier transceiver 2122b, the first transformer 2124, the second transformer 2144, the second carrier transceiver 2142b, the second microcontroller 2142a and Second signal transceiver 2140 is sent to monitoring host computer 300；Monitoring host computer 300 is by control instruction through second signal transceiver 2140, the second microcontroller 2142a, the second carrier transceiver 2142b, the second transformer 2144, the first transformer 2124, first Carrier transceiver 2122b, the first microcontroller 2122a and the first signal transceiver 2120 are sent to control module 124.

Fig. 3 shows the structural schematic diagram for the network communication module 220 that the utility model embodiment provides.With reference to Fig. 3, net Network communication module 220 includes first network communication submodule 222 and the second network communication submodule 224, first network communication Submodule 222 is mounted on Illumination adjusting subsystem 100, is communicated to connect with control module 124, the second network communication submodule 224 are mounted on monitoring host computer 300, are communicated to connect with monitoring host computer 300, and first network communicates submodule 222 and the second network Communication submodule 224 is connected by communication.First network communicates submodule 222 and the second network communication submodule 224 can carry out data transmit-receive.

It can be 4G wireless communication modules that first network, which communicates submodule 222, be carried out using existing cordless communication network Communication, or wireless network card is communicated to connect with neighbouring wireless router, led to using existing computer network Letter, it is clear that first network communication submodule 222 can also be other existing network equipments.Second network communication submodule 224 222 structure and function having the same of submodule can be communicated with first network.

When using network communication module 220, control module 124 and the specific data exchange process of monitoring host computer 300 are： Photometric data is communicated submodule 222 to control module 124 through first network and the second network communication submodule 224 is sent to prison Control host 300；Control instruction is communicated submodule by monitoring host computer 300 through the second network communication submodule 224 and first network 222 are sent to control module 124.

In short, communication equipment 200 has available power line carrier module 210 and network communication module, Yong Huke simultaneously It is applied widely to be disposed according to the actual environment in planting greenhouse location, while above two mould is in the block wherein A kind of spare module when can break down as another kind, the reliability of entire communication equipment 200 are high.

In conclusion the illumination control system 10 that the utility model embodiment provides, is applied to planting greenhouse, automation Degree is high, can avoid various drawbacks caused by the use manual type in traditional agriculture production process, meanwhile, the illumination control System 10 processed has both artificial remotely controlling function, and illumination control effect is good, and the remote control function can pass through electric power Carrier module 210 and 220 two ways of network communication module are realized, applied widely, and reliability is high.

Second embodiment：

Fig. 4 shows the structural schematic diagram for the illumination control data platform 1 that the utility model embodiment provides.Reference Fig. 4, Illumination controls data platform 1：The illumination control system 10 and data server 20 that at least one first embodiment provides. Data server 20 is communicated to connect with each illumination control system 10, such as can be with the monitoring in each illumination control system 10 Host 300 connects.Data server 20 can obtain photometric data and control instruction from monitoring host computer 300, and by illumination number According to this and control instruction is stored in the storage unit of data server 20.These data can also feed back to monitoring host computer 300, The foundation of illumination control is carried out as 300 user of monitoring host computer.Such as a certain user does not know that this is held under current environment illumination Which kind of illumination control operation of row, the user can access the service of the offer of data server 20, check other users in same batten The operation taken under part, the foundation as its decision.Meanwhile the professional technician of agriculture field can also be to data service The data preserved on device 20 are analyzed, to improve the automatic illumination control of Illumination adjusting subsystem 100 in illumination control system 10 Logic processed.

Obviously, above-described embodiment of the utility model is used for the purpose of clearly illustrating the utility model example, and It is not the restriction to the embodiment of the utility model.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments It is exhaustive.All any modification, equivalent and improvement made within the spirit and principle of the present invention etc., should be included in Within the protection domain of the utility model claims.

Claims (10)

1. a kind of illumination control system, which is characterized in that including：Illumination adjusting subsystem, communication equipment and monitoring host computer；

The Illumination adjusting subsystem is mounted in planting greenhouse, and passes through the communication equipment and the monitoring host computer communication link It connects, the Illumination adjusting subsystem is used to detect the photometric data obtained in the planting greenhouse, and is based on the photometric data The ambient lighting in the planting greenhouse is adjusted, the Illumination adjusting subsystem is additionally operable to pass through the photometric data described logical Letter equipment is sent to the monitoring host computer, so that the user of the monitoring host computer can know the ambient lighting；

The monitoring host computer is used to generate control instruction according to user's operation, and the control instruction is passed through the communication equipment It is sent to the Illumination adjusting subsystem, the Illumination adjusting subsystem is additionally operable to, when receiving the control instruction, be based on The control instruction adjusts the ambient lighting；

The communication equipment includes power line carrier module and network communication module, and the Illumination adjusting subsystem passes through the electricity Power carrier module or the network communication module are communicated to connect with the monitoring host computer.

2. illumination control system according to claim 1, which is characterized in that the Illumination adjusting subsystem includes：Illumination Detection device, control device and execution equipment；

The illumination detection device is communicated to connect with the control device, and the illumination detection device obtains the light for detecting It is sent to the control device according to data, and by the photometric data；

The control device is communicated to connect with the execution equipment, and the control device is used to control institute based on the photometric data It states and executes the equipment adjusting ambient lighting；

The control device is also communicated to connect by the communication equipment and the monitoring host computer, the control device be additionally operable to by The photometric data is sent to the monitoring host computer by the communication equipment, and is receiving what the monitoring host computer generated When the control instruction, the execution equipment is controlled based on the control instruction and adjusts the ambient lighting.

3. illumination control system according to claim 2, which is characterized in that the control device includes：Signal processing mould Block and control module；

The signal processing module is communicated to connect with the illumination detection device and the control module, the signal processing mould Block is for receiving and processing the photometric data, and the photometric data is sent to the control module by treated；

The control module is communicated to connect with the execution equipment, and the control module is used to control institute based on the photometric data It states and executes the equipment adjusting ambient lighting；

The control module is also communicated to connect by the communication equipment and the monitoring host computer, the control module be additionally operable to by The photometric data is sent to the monitoring host computer by the communication equipment, and is receiving what the monitoring host computer generated When the control instruction, the execution equipment is controlled based on the control instruction and adjusts the ambient lighting.

4. illumination control system according to claim 3, which is characterized in that the illumination detection device includes mounted on described At least one optical sensor in planting greenhouse, is provided on the signal processing module and at least one illumination senses The sensor interface that device matches.

5. illumination control system according to claim 3, which is characterized in that the control device further includes：Relay mould Block；

The relay module is communicated to connect with the control module and the execution equipment respectively, and the control module is used for The execution equipment, which is controlled, by the relay module adjusts the ambient lighting.

6. illumination control system according to claim 5, which is characterized in that the execution equipment includes：Mounted on described At least one ventilation device and/or at least one watering device in planting greenhouse and/or at least one heating device.

7. according to the illumination control system described in any claim in claim 3-6, which is characterized in that the power carrier mould Block includes：First power carrier submodule and the second power carrier submodule；

The first power carrier submodule is mounted on the Illumination adjusting subsystem, is communicated to connect with the control module, The second power carrier submodule is mounted on the monitoring host computer, is communicated to connect with the monitoring host computer, first electricity Power carrier wave submodule is communicated to connect with the second power carrier submodule by electric power networks；

The control module is used to carry the photometric data through the first power carrier submodule and second electric power Marble module is sent to the monitoring host computer；The monitoring host computer is used for the control instruction through second power carrier Module and the first power carrier submodule are sent to the control module.

8. illumination control system according to claim 7, which is characterized in that the first power carrier submodule includes： First signal transceiver, first carrier Transmit-Receive Unit and the first transformer, the second power carrier submodule include：Second Signal transceiver, the second carrier transmitting-receiving unit and the second transformer；

The control module, first signal transceiver, the first carrier Transmit-Receive Unit and first transformer according to Secondary communication connection, second transformer, the second carrier transmitting-receiving unit, the second signal transceiver and the monitoring Host communicates to connect successively, and first transformer is communicated to connect with second transformer by the electric power networks；

The control module be used for by the photometric data through first signal transceiver, the first carrier Transmit-Receive Unit, First transformer, second transformer, the second carrier transmitting-receiving unit and the second signal transceiver are sent To the monitoring host computer；The monitoring host computer is used to carry the control instruction through the second signal transceiver, described second Wave Transmit-Receive Unit, second transformer, first transformer, the first carrier Transmit-Receive Unit and first signal Transceiver is sent to the control module.

9. according to the illumination control system described in any claim in claim 3-6, which is characterized in that the network communication mould Block includes：First network communicates submodule and the second network communication submodule；

The first network communication submodule is mounted on the Illumination adjusting subsystem, is communicated to connect with the control module, The second network communication submodule is mounted on the monitoring host computer, is communicated to connect with the monitoring host computer, first net Network communication submodule is connect with the second network communication submodule by communication；

The control module is used to the photometric data communicating submodule through the first network and second network leads to Letter submodule is sent to the monitoring host computer；The monitoring host computer is used for the control instruction through second network communication Module and first network communication submodule are sent to the control module.

10. a kind of illumination controls data platform, which is characterized in that including：Any claim at least one such as claim 1-9 The illumination control system and data server；

The data server is communicated to connect at least one illumination control system, and the data server is for obtaining Take the photometric data in each of at least one illumination control system illumination control system and institute Control instruction is stated, and the photometric data and the control instruction are stored in the storage unit of the data server.