CN207663230U - Intelligent domestic system based on Enocean - Google Patents

Abstract

The utility model discloses the intelligent domestic system based on Enocean, including smart home practice teaching subsystem and the environmental monitoring subsystem, intelligent lighting subsystem, intelligent curtain subsystem, intelligent security guard subsystem, intelligent video subsystem, intelligent temperature control subsystem, voice control subsystem, the energy monitor subsystem that are separately connected with smart home practice teaching subsystem.The utility model can customize different function, the intelligent domestic system of different scales according to customer demand；The control to electric appliance can be realized by different communication and control mode according to on-site actual situations and customer requirement；After intelligent domestic system deployment, user can be as needed, voluntarily extends control device；The room fitted up can be transformed, achieve the effect that system upgrade and energy saving, by the technology of wireless and passive, in the case where not repeating to fit up, realize the intelligentized rapid deployment in room, save social resources, reduce finishing pollution.

Description

Intelligent home system based on Enocean

Technical Field

The utility model relates to a technical field of intelligence house especially relates to wisdom home systems based on Enocean.

Background

The origin of the smart home concept is very early, but no specific Building case has appeared until United states technology 1 science Building System (United technology 1 science Building System) applies the Building equipment informatization and integration concept to the city plan Building of Hartford, canadian, United states of america, the first "smart Building" appeared in 1984, and thus the whole world disputes the Building of smart homes.

Through the accumulation of demands for many years, smart homes are generally defined to organically combine various subsystems related to home life into a system through a home information management platform by using computer, network and comprehensive wiring technologies. Firstly, a communication network is established in a home to provide necessary access for home information, and the control and monitoring of all home appliances and equipment on the home network are realized through corresponding hardware and an execution mechanism under the control of a home network operating system. Secondly, various devices form a communication channel with the outside through a certain network platform so as to communicate information with the world outside the family and meet the requirements of remote control, monitoring and information exchange. Finally, the requirements of people on safety, comfort, convenience and environmental protection are met.

Along with the development and change of social economic structures, family population structures and information technologies and the improvement of safety, comfort and efficiency requirements of human beings on household environments, the demand for household intellectualization is greatly increased, meanwhile, more and more families require that intelligent household products not only meet some basic requirements, but also require that an intelligent household system can be simple, convenient and safe in the aspects of function expansion, extension and even service.

The development of modern technology drives the development of intelligent houses, so that the building electrical and computer technology is integrated with the building, and the work and life of people are more comfortable, convenient and safe. Especially in recent years, with the development of society and science and technology, the purchasing power of people is continuously improved, and meanwhile, the cost of smart home products is continuously reduced, so that smart homes are more and more popularized.

With the rapid expansion of the smart home market, many enterprises at home and abroad put a large amount of capital and talents into the research, development and production fields of smart home products. Therefore, corresponding standard smart home solutions can be provided for different residential situations.

Smart homes may be defined as a system. The system takes a house as a platform, and organically combines various subsystems related to the home life by utilizing advanced computer technology, network communication technology, comprehensive wiring technology and wireless technology.

Compared with the common home, the smart home has the following 4 characteristics.

Intelligentization: the original passive static structure is changed into a tool with active intelligence.

Informationization: provides an all-directional message exchange function, and helps the family and the outside to keep message communication smooth.

Humanization: the subjective initiative of people is enhanced, and the coordination between people and living environment is emphasized, so that the user can control the indoor living environment at will.

Energy conservation: through various strategies, the power utilization mode of the household appliances is intelligently controlled, and the power utilization of the household appliances is managed according to different conditions, so that the electric energy is saved.

Disclosure of Invention

In order to overcome the not enough of prior art, the utility model aims to provide a wisdom home systems based on enocaan aims at solving prior art's smart home systems can't teach real standard, can't customize the problem of functional module according to customer's demand.

The purpose of the utility model is realized by adopting the following technical scheme:

an Enocean-based smart home system comprises a smart home teaching and training subsystem; wherein,

the intelligent home teaching training subsystem comprises an operation platform, a sensor, an actuator, a gateway, communication node equipment, a control module, a LAN (local area network) module, a power supply module and a PC (personal computer) display;

the sensor, the actuator, the gateway and the communication node equipment are arranged on the operation platform;

the control module is connected with the LAN network module, the LAN network module is also respectively connected with a gateway and communication node equipment, and the gateway is also connected with a sensor or an actuator;

the control module is also connected with the power module and the PC display respectively;

the power supply module is also connected with the sensor, the actuator and the PC display.

On the basis of the foregoing embodiments, preferably, the LAN network module includes one or more of a WIFI communication module, a bluetooth communication module, a Zigbee communication module, and a wireless passive communication module.

On the basis of any of the above embodiments, preferably, the operating platform is made of iron; the structure of operation panel is inferior smooth microgroove spraying plastics structure.

On the basis of any of the above embodiments, preferably, the operating platform is further provided with a drawer and a storage cabinet; and universal moving wheels are further arranged below the operating platform.

On the basis of the above embodiment, preferably, the universal moving wheel is a universal moving wheel with a foot brake.

On the basis of any of the above embodiments, preferably, the system further comprises an environment monitoring subsystem connected with the intelligent home teaching training subsystem;

the environment monitoring subsystem comprises an environment monitoring control module, an Enocean wifi conversion gateway, a temperature and humidity sensor, an illuminance sensor, a 485 wifi conversion gateway and a CO sensor;

the environment monitoring control module, the Enocean-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the Enocean-to-wifi gateway is also connected with the illuminance sensor;

the environment monitoring control module, the 485-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the 485-to-wifi gateway is further connected with the CO sensor and the illuminance sensor respectively.

On the basis of any of the above embodiments, preferably, the system further comprises an intelligent lighting subsystem connected with the intelligent home teaching training subsystem;

the intelligent lighting subsystem comprises an intelligent lighting control module, a wifi-to-RF/Enocean gateway, an RF lamp and an Enocean lamp; the intelligent lighting control module, the wifi-to-RF/Enocean gateway and the RF lamps are sequentially connected, and the wifi-to-RF/Enocean gateway is further connected with the Enocean lamps.

On the basis of any of the above embodiments, preferably, the system further comprises an intelligent security subsystem connected with the intelligent home teaching training subsystem;

the intelligent security subsystem comprises a security monitoring control module, an Enocean gateway, a passive wireless security device, a network camera, a Modbus gateway, a harmful gas monitoring device, a network relay, a human body infrared device, an infrared curtain device and a smoke monitoring device;

the security monitoring control module is respectively connected with the Enocean gateway, the network camera, the Modbus gateway and the network relay;

the Enocean gateway is also connected with the passive wireless security equipment;

the Modbus gateway is also connected with harmful gas monitoring equipment;

the network relay is also respectively connected with the human body infrared equipment, the infrared curtain equipment and the smoke monitoring equipment.

On the basis of any of the above embodiments, preferably, the intelligent home teaching training system further comprises an intelligent curtain subsystem, an intelligent audio-video subsystem and an intelligent temperature control subsystem which are respectively connected with the intelligent home teaching training subsystem;

the intelligent curtain subsystem comprises an intelligent curtain control module, a wifi-to-RF gateway and an RF curtain controller which are sequentially connected; the intelligent audio-video subsystem comprises an intelligent audio-video control module, a wifi-infrared conversion gateway and a television/set top box which are sequentially connected; the intelligent temperature control subsystem comprises an intelligent temperature control module, a wifi-infrared conversion gateway and an air conditioner which are sequentially connected.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses an intelligent home system based on Enocean, which can customize intelligent home systems with different functions and different scales according to the requirements of customers; the control of the electric appliance can be realized through different communication and control modes according to the actual situation on site and the requirements of customers; after the intelligent home system is deployed, a user can automatically expand the control equipment according to the requirement; the intelligent indoor room decoration system can transform decorated rooms, achieves the effects of system upgrading and energy saving, realizes intelligent rapid deployment of rooms through a wireless passive technology under the condition of no repeated decoration, saves social resources, and reduces decoration pollution.

The intelligent home teaching and training subsystem can master knowledge points of the intelligent home system under the condition that the overall use environment of the intelligent home is not influenced, and an Internet of things experiment environment is established in a real scene by using various devices of the system; the whole smart home system is conveniently split into independent subsystems by adopting software modular design, modular debugging control can be realized by simple configuration, and a user can conveniently complete various system experiments by taking the subsystems as a unit; the system related communication protocol, the interface and the software source code are fully opened, and a user can manufacture equipment conforming to the communication protocol by himself, so that the self-made equipment can be controlled by the system, and the self-made equipment can be accessed by modifying the source code; after the system structure memory principle is fully known, a user can build an Internet of things intelligent home system, and functions of display, experience, teaching and innovation of an intelligent home teaching training subsystem are really realized.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 shows a schematic structural diagram of an intelligent home system based on Enocean provided by the embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1, an embodiment of the present invention provides an intelligent home system based on enocaan, including an intelligent home teaching training subsystem; wherein,

the intelligent home teaching training subsystem comprises an operation platform, a sensor, an actuator, a gateway, communication node equipment, a control module, a LAN (local area network) module, a power supply module and a PC (personal computer) display;

the sensor, the actuator, the gateway and the communication node equipment are arranged on the operation platform;

the control module is connected with the LAN network module, the LAN network module is also respectively connected with a gateway and communication node equipment, and the gateway is also connected with a sensor or an actuator;

the control module is also connected with the power module and the PC display respectively;

the power supply module is also connected with the sensor, the actuator and the PC display.

Preferably, the LAN network module may include one or more of a WIFI communication module, a bluetooth communication module, a Zigbee communication module, and a wireless passive communication module.

Preferably, the operating platform can be made of iron; the structure of operation panel is inferior smooth microgroove spraying plastics structure.

Preferably, the operating platform can be further provided with a drawer and a storage cabinet; the universal moving wheels can be arranged below the operating platform.

Preferably, the universal moving wheel can be a universal moving wheel with a foot brake.

Preferably, the embodiment of the utility model also can include an environment monitoring subsystem connected with the intelligent home teaching training subsystem; the environment monitoring subsystem comprises an environment monitoring control module, an Enocean wifi conversion gateway, a temperature and humidity sensor, an illuminance sensor, a 485 wifi conversion gateway and a CO sensor; the environment monitoring control module, the Enocean-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the Enocean-to-wifi gateway is also connected with the illuminance sensor; the environment monitoring control module, the 485-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the 485-to-wifi gateway is further connected with the CO sensor and the illuminance sensor respectively.

Preferably, the embodiment of the utility model also can include the intelligent lighting subsystem connected with the intelligent home teaching training subsystem; the intelligent lighting subsystem comprises an intelligent lighting control module, a wifi-to-RF/Enocean gateway, an RF lamp and an Enocean lamp; the intelligent lighting control module, the wifi-to-RF/Enocean gateway and the RF lamps are sequentially connected, and the wifi-to-RF/Enocean gateway is further connected with the Enocean lamps.

Preferably, the embodiment of the utility model also can include the intelligent security subsystem connected with the intelligent home teaching training subsystem; the intelligent security subsystem comprises a security monitoring control module, an Enocean gateway, a passive wireless security device, a network camera, a Modbus gateway, a harmful gas monitoring device, a network relay, a human body infrared device, an infrared curtain device and a smoke monitoring device; the security monitoring control module is respectively connected with the Enocean gateway, the network camera, the Modbus gateway and the network relay; the Enocean gateway is also connected with the passive wireless security equipment; the Modbus gateway is also connected with harmful gas monitoring equipment; the network relay is also respectively connected with the human body infrared equipment, the infrared curtain equipment and the smoke monitoring equipment. The embodiment of the utility model provides an in passive wireless security protection equipment can include human infrared passive wireless security protection equipment and door/window magnetism passive wireless security protection equipment. The embodiment of the utility model provides an in harmful gas monitoring facilities can include carbon dioxide monitoring facilities and carbon monoxide monitoring facilities.

Preferably, the embodiment of the utility model can also comprise an intelligent curtain subsystem, an intelligent audio-visual subsystem and an intelligent temperature control subsystem which are respectively connected with the intelligent home teaching training subsystem; the intelligent curtain subsystem comprises an intelligent curtain control module, a wifi-to-RF gateway and an RF curtain controller which are sequentially connected; the intelligent audio-video subsystem comprises an intelligent audio-video control module, a wifi-infrared conversion gateway and a television/set top box which are sequentially connected; the intelligent temperature control subsystem comprises an intelligent temperature control module, a wifi-infrared conversion gateway and an air conditioner which are sequentially connected.

Preferably, the embodiment of the utility model provides a can also include the speech control subsystem, the energy monitoring subsystem of being connected respectively with the real subsystem of instructing of intelligent house teaching.

The intelligent home teaching subsystem is experimental training equipment integrating various Internet of things application examples including intelligent home, can adopt an iron matte dense-grain plastic spraying structure, is designed in a cabinet type, is provided with a drawer and a storage cabinet, and is provided with a universal moving wheel with a foot brake and an associated operating platform. The system can be macroscopically divided into three independent and associated practical training areas, namely a sensing layer, a network layer and an application layer. The panel can adopt a modular design and comprises various sensor actuators, embedded gateways and various communication nodes, and the regional hierarchy division is clear. All node devices, sensors, actuators, etc. may be mounted on a single plane of the console. The embedded control system, the LAN network, the safe power system, the PC display and the like provide an installation, wiring, debugging and operation platform of equipment for the practical training of users.

The system software can adopt an MQTT message queue telemetry transmission technology, and can show networking functions of 4 communication modes of WIFI, Bluetooth, Zigbee and wireless and passive in the practical training platform in the form of a network topological graph; the data acquisition of various sensors and the control function of the controlled object can be displayed by a graphical interface, and the communication between the MQTT protocol and the serial port protocol is supported.

The intelligent home teaching practical training subsystem is open in design, simple, light and easy to implement, and provides one-to-many message distribution and releases coupling between application programs by using a publish/subscribe message mode. When the intelligent gateway in the practical training operation platform communicates through a network, various nodes and sensor management monitoring modes in the practical training platform can be flexibly switched between a local area network and a wide area network according to the network position of MQTT proxy software connected with the gateway. The embedded intelligent home system, the intelligent agricultural system, the intelligent security system and the like can realize the functions of home environment data monitoring, manual and automatic control of household appliances, security alarm, monitoring of agricultural greenhouse environment data, automatic adjustment and the like; various application systems intelligently identify communication modes, simultaneously support serial ports, local area networks and wide area networks in configuration-free connection communication, and have three-layer internet of things communication architectures of node cloud, local area cloud and wide area cloud. The teaching and training subsystem can enable a user to learn an intelligent sensor technology, an embedded programming technology, a plurality of wireless networking technologies, a serial port and a network programming technology, help the user to further understand an intelligent home system and related technologies, and provide abundant experimental resources for the user to build the intelligent home system.

The embodiment of the utility model provides an intelligent home systems of different functions, different scales can be customized according to customer's demand; the control of the electric appliance can be realized through different communication and control modes according to the actual situation on site and the requirements of customers; after the intelligent home system is deployed, a user can automatically expand the control equipment according to the requirement; the intelligent indoor room decoration system can transform decorated rooms, achieves the effects of system upgrading and energy saving, realizes intelligent rapid deployment of rooms through a wireless passive technology under the condition of no repeated decoration, saves social resources, and reduces decoration pollution.

The embodiment of the utility model provides a user can be for the student of relevant specialty.

The utility model discloses from the use purpose, in efficiency, point of view such as progress and novelty explains, the practical progressive nature that it has, the function that has accorded with the patent law emphasis is promoted and is used the essential element, the above description and the attached drawing only do the utility model discloses a preferred embodiment has, and is not so limited the utility model discloses, consequently, all with the utility model discloses the structure, the device is waited to symbolize etc. and is similar, identical, all should all be according to the equivalent replacement or the decoration etc. that the patent application scope was made promptly, all should belong to within the scope of the patent application protection of the utility model.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. Although the present invention has been described to a certain extent, it is apparent that appropriate changes in various conditions may be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not limited to the described embodiments, but is to be accorded the scope consistent with the claims, including equivalents of each element described. Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (9)

1. An intelligent home system based on Enocean is characterized by comprising an intelligent home teaching and training subsystem; wherein,

the intelligent home teaching training subsystem comprises an operation platform, a sensor, an actuator, a gateway, communication node equipment, a control module, a LAN (local area network) module, a power supply module and a PC (personal computer) display;

the sensor, the actuator, the gateway and the communication node equipment are arranged on the operation platform;

the control module is connected with the LAN network module, the LAN network module is also respectively connected with a gateway and communication node equipment, and the gateway is also connected with a sensor or an actuator;

the control module is also connected with the power module and the PC display respectively;

the power supply module is also connected with the sensor, the actuator and the PC display.

2. The Enocean-based smart home system of claim 1, wherein the LAN network module comprises one or more of a WIFI communication module, a bluetooth communication module, a Zigbee communication module, and a wireless passive communication module.

3. The Enocean-based smart home system according to claim 1 or 2, wherein the console is made of iron; the structure of operation panel is inferior smooth microgroove spraying plastics structure.

4. The Enocean-based smart home system according to claim 1 or 2, wherein the console is further provided with a drawer and a locker; and universal moving wheels are further arranged below the operating platform.

5. The Enocean-based smart home system according to claim 4, wherein the universal moving wheels are universal moving wheels with foot brakes.

6. The Enocean-based smart home system according to claim 1 or 2, further comprising an environment monitoring subsystem connected with the smart home teaching training subsystem;

the environment monitoring subsystem comprises an environment monitoring control module, an Enocean wifi conversion gateway, a temperature and humidity sensor, an illuminance sensor, a 485 wifi conversion gateway and a CO sensor;

the environment monitoring control module, the Enocean-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the Enocean-to-wifi gateway is also connected with the illuminance sensor;

the environment monitoring control module, the 485-to-wifi gateway and the temperature and humidity sensor are sequentially connected, and the 485-to-wifi gateway is further connected with the CO sensor and the illuminance sensor respectively.

7. The Enocean-based smart home system according to claim 1 or 2, further comprising an intelligent lighting subsystem connected with the intelligent home teaching training subsystem;

the intelligent lighting subsystem comprises an intelligent lighting control module, a wifi-to-RF/Enocean gateway, an RF lamp and an Enocean lamp; the intelligent lighting control module, the wifi-to-RF/Enocean gateway and the RF lamps are sequentially connected, and the wifi-to-RF/Enocean gateway is further connected with the Enocean lamps.

8. The Enocean-based smart home system according to claim 1 or 2, further comprising an intelligent security subsystem connected with the intelligent home teaching training subsystem;

the intelligent security subsystem comprises a security monitoring control module, an Enocean gateway, a passive wireless security device, a network camera, a Modbus gateway, a harmful gas monitoring device, a network relay, a human body infrared device, an infrared curtain device and a smoke monitoring device;

the security monitoring control module is respectively connected with the Enocean gateway, the network camera, the Modbus gateway and the network relay;

the Enocean gateway is also connected with the passive wireless security equipment;

the Modbus gateway is also connected with harmful gas monitoring equipment;

the network relay is also respectively connected with the human body infrared equipment, the infrared curtain equipment and the smoke monitoring equipment.

9. The Enocean-based smart home system according to claim 1 or 2, further comprising an intelligent curtain subsystem, an intelligent audio-video subsystem and an intelligent temperature control subsystem which are respectively connected with the intelligent home teaching training subsystem;

the intelligent curtain subsystem comprises an intelligent curtain control module, a wifi-to-RF gateway and an RF curtain controller which are sequentially connected; the intelligent audio-video subsystem comprises an intelligent audio-video control module, a wifi-infrared conversion gateway and a television/set top box which are sequentially connected; the intelligent temperature control subsystem comprises an intelligent temperature control module, a wifi-infrared conversion gateway and an air conditioner which are sequentially connected.