CN206547113U - Intellectual remote controlling system based on Internet of Things - Google Patents

Abstract

The utility model discloses the intellectual remote controlling system based on Internet of Things, including photovoltaic green-house, home server, Cloud Server, mobile terminal and PC, photovoltaic green-house includes glass greenhouse main body and greenhouse ceiling, support frame is provided with the top of glass greenhouse main body, greenhouse ceiling is fixed with support frame, interval, which is provided with solar panel and transparent glass, glass greenhouse main body, on greenhouse ceiling is additionally provided with the solar protection devices corresponding with transparent glass position；The remote control component includes control main frame, irrigation assembly, environment acquisition component and monitor component, and irrigation assembly includes drip irrigation appliance and rainer.Photovoltaic agricultural and agricultural modernization integration of equipments are a system by the utility model, can carry out remote monitoring to the crops in photovoltaic green-house, it is to avoid tradition causes the problem of power cost is too high by commercial power supply crops System, simple in construction, strong applicability.

Description

Intellectual remote controlling system based on Internet of Things

Technical field

The utility model is related to wisdom agriculture field, is based particularly on the intellectual remote controlling system of Internet of Things.

Background technology

With the fast development of electronic information technology, traditional agriculture there occurs earth-shaking change also with electronic revolution Change, the epoch of traditional slash-and-burn cultivation have been gone for ever.The existing agriculture external environment for collection crops of science and technology, and root According to the related equipment of the external environment data control of collection, to reach the optimum growing environment of crops.But existing intelligence Agricultural is seldom combined together with photovoltaic green-house, it is impossible to carry out remote monitoring to the crops in photovoltaic green-house, can not will be many Individual integration of equipments is a reliable system.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art that there is provided the intellectual remote controlling based on Internet of Things Photovoltaic agricultural and agricultural modernization integration of equipments are a system by system, the system, and the crops in photovoltaic green-house can be entered Row remote monitoring, it is to avoid tradition causes the problem of power cost is too high by commercial power supply crops System, simple in construction, is applicable Property is strong.

The purpose of this utility model is achieved through the following technical solutions：Intellectual remote controlling based on Internet of Things Remote control is additionally provided with system, including photovoltaic green-house, home server, Cloud Server, mobile terminal and PC, photovoltaic green-house Component, remote control component is connected with home server, and home server is connected by network with Cloud Server, and Cloud Server leads to Network is crossed respectively with mobile terminal and PC to be connected；

The photovoltaic green-house includes glass greenhouse main body and greenhouse ceiling, and glass greenhouse main body is cuboid structure, glass It is provided with the top of greenhouse main body on support frame, support frame and is fixed with greenhouse ceiling, the greenhouse ceiling is splayed structure, greenhouse On top interval be provided with solar panel and transparent glass, glass greenhouse main body be additionally provided with it is corresponding with transparent glass position Solar protection devices；Glass greenhouse main body is additionally provided with battery and electric power controller, and solar panel is filled by power management Put and be connected with battery；

The remote control component includes control main frame, irrigation assembly, environment acquisition component and monitor component, irrigation assembly Including drip irrigation appliance and rainer；Environment acquisition component includes aerial temperature and humidity sensor, ammonia detection device, carbon dioxide Detection means, optical sensor, soil humidity sensor and soil temperature sensor；Monitor component includes camera, buzzer And alarm lamp；Control main frame is connected by relay with irrigation assembly, signal input part and the environment acquisition component of control main frame Signal output part be connected, the signal end of control main frame is also connected with the signal end of monitor component, and control main frame also passes through relay Device is connected with solar protection devices.

In the utility model, solar panel outer surface is also coated with being used for self-cleaning nano photocatalyst catalytic material, The nano photocatalyst catalytic material can be by the effect of sunshine so that the impurity and dirt of solar panel outer surface are cleaned clearly Reason is fallen, and is conducive to improving photoelectric transformation efficiency.

In the utility model, it is connected between control main frame and the relay of irrigation assembly by RS485 buses, is enhanced The stability of data transfer.

In the utility model, if photovoltaic green-house both sides are additionally provided with dry side windowing, side windowing is provided with blower fan, blower fan side Humidifier is additionally provided with, is conducive to increasing the air humidity in photovoltaic green-house, while changing the air circulation in photovoltaic green-house It is kind.

It is also equipped with that benefit is installed on plant cultivating support, plant cultivating support in the utility model, in photovoltaic green-house Light lamp.

In the utility model, be additionally provided with rainwater collection pool outside glass greenhouse main body, rainwater collection pool by filtering ponds with Irrigation assembly is connected, and the rainwater collection pool is irrigated after rainwater-collecting to the agriculture in photovoltaic green-house by filtering ponds, then by rainwater Crop, is conducive to the utilization of resources, it is to avoid the waste of water resource.

The beneficial effects of the utility model are：

（1）It is a system by photovoltaic agricultural and agricultural modernization integration of equipments, the crops in photovoltaic green-house can be entered Row remote monitoring, it is to avoid tradition causes the problem of power cost is too high by commercial power supply crops System；

（2）Provided with nano photocatalyst catalytic material, can in the presence of sunshine automatically cleaning solar cell plate surface dirt And impurity；

（3）Greenhouse ceiling is interval with solar panel and transparent glass, is conducive to the indoor lighting of photovoltaic green-house, together When can also convert light energy into electric energy, used with the equipment supplied in photovoltaic green-house, environmental protection, save the energy；

（4）It can remotely be monitored by Cloud Server, mobile terminal, be for one by the scattered integration of equipments of tradition System, is conducive to the monitoring and management of intelligent agriculture.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, before creative labor is not paid Put, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the utility model structural representation；

Fig. 2 is the annexation schematic diagram of the utility model system；

Fig. 3 is the structural representation of the utility model remote control component；

In figure, 10- photovoltaic green-houses, 20- home servers, 30- Cloud Servers, 40- mobile terminals, 50-PC machines, 101- glass Glass greenhouse main body, 102- greenhouse ceilings, 103- solar panels, 104- transparent glass, the windowing of 105- sides, 106- support frames, 111- control main frames, 112- irrigation assemblies, 113- monitor components, 114- environment acquisition components.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

Embodiment：

As depicted in figs. 1 and 2, the intellectual remote controlling system based on Internet of Things, including photovoltaic green-house 10, local service Remote control component, remote control group are additionally provided with device 20, Cloud Server 30, mobile terminal 40 and PC 50, photovoltaic green-house 10 Part is connected with home server 20, and home server 20 is connected by network with Cloud Server 30, and Cloud Server 30 passes through network It is connected respectively with mobile terminal 40 and PC 50；

The photovoltaic green-house 10 includes glass greenhouse main body 101 and greenhouse ceiling 102, and glass greenhouse main body 101 is rectangle Body structure, the top of glass greenhouse main body 101 is provided with support frame 106, support frame 106 and is fixed with greenhouse ceiling 102, the greenhouse Ceiling 102 is that interval is provided with solar panel 103 and transparent glass 104, glass on splayed structure, greenhouse ceiling 102 The solar protection devices corresponding with the position of transparent glass 104 is additionally provided with greenhouse main body 101；Glass greenhouse main body 101 is additionally provided with storage Battery and electric power controller, solar panel 103 are connected by electric power controller with battery；

As shown in figure 3, the remote control component includes control main frame 111, irrigation assembly 112, environment acquisition component 114 With monitor component 113, irrigation assembly 112 includes drip irrigation appliance and rainer；Environment acquisition component 114 includes aerial temperature and humidity Sensor, ammonia detection device, carbon dioxide detection device, optical sensor, soil humidity sensor and soil moisture sensing Device；Monitor component 113 includes camera, buzzer and alarm lamp；Control main frame 111 passes through relay and the phase of irrigation assembly 112 Even, the signal input part of control main frame 111 is connected with the signal output part of environment acquisition component 114, the signal of control main frame 111 The signal end also with monitor component 113 is held to be connected, control main frame 111 is also connected by relay with solar protection devices.

In the utility model, the outer surface of solar panel 103 is also coated with being used for self-cleaning nano photocatalyst medium materials Material, the nano photocatalyst catalytic material can be by the effect of sunshine so that the impurity and dirt quilt of the outer surface of solar panel 103 Purification is cleaned out, and is conducive to improving photoelectric transformation efficiency.

In the utility model, it is connected between control main frame 111 and the relay of irrigation assembly 112 by RS485 buses, Enhance the stability of data transfer.

In the utility model, if the both sides of photovoltaic green-house 10 are additionally provided with dry side windowing, side windowing 105 is provided with blower fan, wind Machine side is additionally provided with humidifier, is conducive to increasing the air humidity in photovoltaic green-house 10, while to the air in photovoltaic green-house 10 Circulation is improved.

In the utility model, it is also equipped with being provided with plant cultivating support, plant cultivating support in photovoltaic green-house 10 Light compensating lamp.

In the utility model, rainwater collection pool is additionally provided with outside glass greenhouse main body 101, rainwater collection pool passes through filtering ponds It is connected with irrigation assembly, the rainwater collection pool is irrigated after rainwater-collecting in photovoltaic green-house 10 by filtering ponds, then by rainwater Crops, be conducive to the utilization of resources, it is to avoid the waste of water resource.

Embodiment described above only expresses embodiment of the present utility model, and it describes more specific and detailed, But therefore it can not be interpreted as the limitation to the utility model the scope of the claims.It should be pointed out that for the common of this area For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In protection domain of the present utility model.

Claims (6)

1. the intellectual remote controlling system based on Internet of Things, it is characterised in that including photovoltaic green-house, home server, cloud clothes Remote control component, remote control component and home server phase are additionally provided with business device, mobile terminal and PC, photovoltaic green-house Even, home server is connected by network with Cloud Server, and Cloud Server is connected with mobile terminal and PC respectively by network；

The photovoltaic green-house includes glass greenhouse main body and greenhouse ceiling, and glass greenhouse main body is cuboid structure, glass greenhouse Body top, which is provided with support frame, support frame, is fixed with greenhouse ceiling, and the greenhouse ceiling is on splayed structure, greenhouse ceiling Interval, which is provided with solar panel and transparent glass, glass greenhouse main body, is additionally provided with the screening corresponding with transparent glass position Male device；Glass greenhouse main body is additionally provided with battery and electric power controller, solar panel by electric power controller with Battery is connected；

The remote control component includes control main frame, irrigation assembly, environment acquisition component and monitor component, and irrigation assembly includes Drip irrigation appliance and rainer；Environment acquisition component includes aerial temperature and humidity sensor, ammonia detection device, carbon dioxide detection Device, optical sensor, soil humidity sensor and soil temperature sensor；Monitor component includes camera, buzzer and report Warning lamp；Control main frame is connected by relay with irrigation assembly, the signal input part of control main frame and the letter of environment acquisition component Number output end is connected, and the signal end of control main frame is also connected with the signal end of monitor component, control main frame also by relay and Solar protection devices is connected.

2. the intellectual remote controlling system based on Internet of Things according to claim 1, it is characterised in that solar panel Outer surface is also coated with being used for self-cleaning nano photocatalyst catalytic material.

3. the intellectual remote controlling system based on Internet of Things according to claim 1, it is characterised in that control main frame is with filling Irrigate between the relay of component and to be connected by RS485 buses.

4. the intellectual remote controlling system based on Internet of Things according to claim 1, it is characterised in that photovoltaic green-house both sides If being additionally provided with dry side windowing, side windowing is provided with blower fan, and blower fan side is additionally provided with humidifier.

5. the intellectual remote controlling system based on Internet of Things according to claim 1, it is characterised in that in photovoltaic green-house also It is provided with plant cultivating support, plant cultivating support and light compensating lamp is installed.

6. the intellectual remote controlling system based on Internet of Things according to claim 1, it is characterised in that glass greenhouse main body Rainwater collection pool is additionally provided with outside, rainwater collection pool is connected by filtering ponds with irrigation assembly.