CN111244675A - Intelligent home manager and system - Google Patents

Abstract

The invention relates to an intelligent home manager and a system, wherein the intelligent home manager comprises a communication module, a control module and a socket body matched with a 86 box embedded in a wall body, so that the intelligent home manager is conveniently installed in the 86 box; the communication module comprises a radio frequency communication component and a terminal communication component; the radio frequency communication assembly, the terminal communication assembly and the control module are all arranged in the socket body; the socket body comprises a jack and a terminal; the jack is used for matching with an electric plug, and the wiring end is used for being connected with a power line; the control module receives a control instruction of the target terminal through the terminal communication assembly and sends the control instruction to the target intelligent home through the radio frequency communication assembly, so that the target terminal controls the running state of the target intelligent home, the occupied space is effectively reduced, and the installation and the use of a user are facilitated.

Description

Intelligent home manager and system

Technical Field

The invention relates to the technical field of intelligent home, in particular to an intelligent home manager and an intelligent home system.

Background

The intelligent home system applies advanced sensor technology, network technology, communication technology, computer technology and automatic control technology to the home field, connects and integrates electrical equipment and living facilities in the home, and improves the safety and comfort of the home. Compared with the common home, the smart home provides the living function of the traditional home, realizes the interaction between the user and the home, and optimizes the life style of the user.

The home manager is the core of the whole intelligent home system, and has the functions of completing the working state control home environment information detection of each home device in the system and the communication control of the system, the current management of the intelligent home system is that a user is usually connected to a main control module of an intelligent home entrance through a network, sends a control signal to the intelligent control device, and the intelligent control device analyzes a control command of the main control module and then executes a corresponding action.

At present, most of main control modules or control equipment are installed in a guide rail or rack type installation mode, so that a large extra space is required to be occupied during installation.

Disclosure of Invention

In view of this, the present invention provides an intelligent home manager and a system thereof, which are convenient for a user to install and save the occupied space.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent home manager comprises a communication module, a control module and a socket body matched with an 86 box embedded in a wall body, so that the intelligent home manager is installed in the 86 box;

the communication module comprises a radio frequency communication component and a terminal communication component;

the radio frequency communication assembly, the terminal communication assembly and the control module are all arranged in the socket body;

the socket body comprises a jack and a terminal; the jack is used for being matched with an electric plug, and the wiring end is used for being connected with a power line;

the control module receives a control instruction of a target terminal through the terminal communication assembly and sends the control instruction to the target intelligent home through the radio frequency communication assembly, so that the target terminal controls the running state of the target intelligent home.

Optionally, the radio frequency communication module includes: the radio frequency encoding and decoding circuit, the radio frequency filtering and amplifying circuit and the wireless antenna;

the radio frequency coding and decoding circuit is used for realizing signal transmission between the intelligent home manager and the target intelligent home;

the radio frequency filtering and amplifying circuit is used for improving the stability of signal transmission;

the wireless antenna is used for identifying a target signal and reading and writing the target signal.

Optionally, the terminal communication component includes a cellular narrowband internet of things communication;

the control module controls the communication of the cellular narrowband Internet of things according to the running state of the intelligent home manager to realize the mutual conversion of a connection state, an idle state and an energy-saving mode.

Optionally, the socket body includes: the socket comprises a bottom shell, a power connection assembly, an insulating protective shell, a socket shell and a socket frame;

the bottom shell is embedded into the 86 box, the electric connection assembly is arranged on the bottom shell, and the electric connection assembly is connected with a power line through a wiring hole in the bottom shell;

the insulation protection shell is used for isolating the power-on end on the power connection assembly corresponding to each jack;

the socket shell is matched with the bottom shell to isolate the power connection assembly from the outside;

the socket frame is arranged on the socket shell and used for arranging the intelligent furniture manager in the 86 boxes.

Optionally, the socket body further includes: a jack dust-proof component;

the jack dustproof assembly is arranged on the socket shell, and when the jacks are in an idle state, the jack dustproof assembly is used for sealing the jacks so as to ensure that the jacks are clean.

Optionally, the smart home manager further includes a floor lamp and a floor lamp window;

the floor lamp is connected with the control module, and a floor lamp window is further arranged on the socket shell;

the footlight window comprises at least one rib, and each rib is arranged at a preset angle so that light of the footlight irradiates to a target space at the preset angle.

Optionally, the smart home manager further includes a light intensity detector;

the light intensity detector is used for detecting the light intensity in the target space, and when the light intensity is greater than a preset light intensity threshold value, the control module sends a closing instruction to the floor lamp so as to close the floor lamp;

when the light intensity is smaller than or equal to a preset light intensity threshold value, the control module sends a starting instruction to the foot lamp so as to start the foot lamp.

On the other hand, the intelligent home management system comprises a terminal and at least two intelligent home managers as described in any one of the above;

the communication module of any intelligent home manager also comprises a power line carrier communication component;

when any control module detects a faulty intelligent home manager, any control module determines fault-free intelligent home management through a grid computing algorithm, and sends the control instruction to the fault-free intelligent home manager through the power carrier communication assembly, so that the terminal controls the running state of the target intelligent home through the fault-free intelligent home manager.

Optionally, any of the control modules is further configured to:

detecting a non-fault intelligent home manager closest to the fault intelligent home manager through a grid computing algorithm;

and the nearest fault-free intelligent home manager receives a control instruction of the terminal so that the terminal controls the running state of the target intelligent home through the nearest fault-free intelligent home manager.

Optionally, the power carrier communication module includes: the power line interface circuit, the coupling filter circuit and the power encoding and decoding circuit;

the power line interface circuit is used for realizing the conduction of the intelligent home manager and a power line;

the coupling filter circuit is used for realizing the waveform smooth transmission of the power carrier communication;

the electric power coding and decoding circuit is used for realizing signal transmission between the intelligent home managers.

The invention adopts an intelligent home manager and a system, the intelligent home manager comprises a communication module, a control module and a socket body matched with 86 boxes embedded in a wall body, the communication module comprises a radio frequency communication component and a terminal communication component, the communication between the intelligent home manager and a target intelligent home is realized through the radio frequency communication component, the communication between the intelligent home manager and a target terminal is realized through the terminal communication component, the radio frequency communication component, the terminal communication component and the control module are all arranged in the socket body, the socket body is matched with the 86 boxes in size, the size of the manager is effectively reduced, the installation is convenient, the manager does not need to be assembled and disassembled on a large scale in the installation process, only the manager needs to be installed in the 86 boxes in the existing wall body, the occupied space is effectively saved, and each intelligent home manager is also provided with a power carrier communication component, when the intelligent home manager with the fault is found, the running state of the target intelligent home can be controlled through other intelligent home managers without the fault, and the user can be ensured to complete the control of the intelligent home in time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent home manager provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another angle of the smart home manager in fig. 1;

fig. 3 is an exploded view of the smart home manager of fig. 1;

fig. 4 is a schematic structural diagram of an intelligent home management system provided in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Fig. 1 is a schematic structural diagram of an intelligent home manager provided in an embodiment of the present invention, fig. 2 is a schematic structural diagram of the intelligent home manager in fig. 1 from another angle, and fig. 3 is an exploded schematic diagram of the intelligent home manager in fig. 1.

As shown in fig. 1 to fig. 3, the smart home manager of the present embodiment includes a communication module, a control module 2, and a socket body that matches with an 86 box embedded in a wall body, so as to install the smart home manager in the 86 box; the communication module comprises a radio frequency communication assembly 11 and a terminal communication assembly 12, the radio frequency communication assembly 11, the terminal communication assembly 12 and the control module 2 are all arranged in the socket body, and the socket body comprises a jack 31 and a terminal 32; jack 31 is used for matching with the power consumption plug, and terminal 32 is used for linking to each other with the power cord, and control module 2 receives the control command of target terminal through terminal communication subassembly 12 to send control command to target intelligent house through radio frequency communication subassembly 11, so that the running state of target intelligent house is controlled to the target terminal.

In a concrete implementation, 86 boxes can select for use common 86 types, also can be 118 types and 120 types, and specific model can be selected according to user's self demand, and its purpose is space-saving, and the 86 box structure of preferred in this embodiment is as implementation, and when using, socket ontology can direct mount on 86 boxes, and the user alright with easily install, need not to carry out the dismouting to wall body or other structures, has saved operating time, also need not to destroy the wall of original house. Control module 2, radio frequency communication subassembly 11 and terminal control unit can be integrated on same circuit board, saves intelligent home furnishing manager self space, and wiring end 32 on the socket ontology can make intelligent home furnishing manager and power cord establish being connected, and jack 31 on the socket ontology can make the plug lug connection of intelligent home furnishing, even ordinary consumer also can charge through this intelligent home furnishing manager. The radio frequency communication assembly 11 enables communication connection to be established between the intelligent home manager and the target furniture so as to ensure that the intelligent home manager can perform information interaction with the target furniture, and the terminal control unit establishes information connection between the intelligent home manager and the terminal so as to enable the intelligent home manager to perform information interaction with the terminal. The whole running process can be as follows: the terminal is connected with the intelligent home manager, the intelligent home manager is connected with the intelligent home, a user sends a control instruction through the terminal, the control instruction is transmitted to the control module 2 of the intelligent home manager through the terminal communication assembly 12, and after receiving the control instruction, the control module 2 sends the control instruction to the corresponding target home through the radio frequency communication assembly 11, so that the user can complete control over the target intelligent home through the terminal.

The radio frequency communication component 11 may also be an infrared communication component, where the radio frequency communication component includes a radio frequency encoding and decoding circuit, a radio frequency filtering and amplifying circuit, and a wireless antenna, the radio frequency encoding and decoding circuit is used to implement signal transmission between the smart home manager and a target smart home, the radio frequency filtering and amplifying circuit is used to improve the stability of signal transmission, the wireless antenna is used to identify a target signal and read and write the target signal, and the infrared communication component is used to implement matching communication between the smart home manager and any smart home. The radio frequency communication assembly and the infrared communication assembly can adopt one mode or two modes so as to better adapt to the current functions of the smart home. The mode that adopts infrared communication can cover the intelligent house of the majority, and the mode that adopts the radio frequency then can realize remote transmission, can wear the wall and carry out signal transmission, and then can guarantee control signal transmission's accuracy better. The radio frequency encoding and decoding circuit, the radio frequency filter circuit amplifying circuit and the wireless antenna can be integrated on the same circuit board, and space is saved better. The specific communication method adopted is not specifically limited in this embodiment, as long as effective communication between the smart home manager and the target smart home can be achieved.

The terminal communication component 12 can be a honeycomb narrowband internet of things communication, and the control module 2 controls the honeycomb narrowband internet of things communication according to the running state of the intelligent home manager to realize the interconversion between the connection state, the idle state and the energy-saving mode, so that the energy is saved and the working efficiency is improved. The cellular-based narrowband Internet of things (NB-IoT) becomes an important branch of the Internet of everything, the NB-IoT is constructed in the cellular network, only consumes about 180KHz of bandwidth, and can be directly deployed in a GSM network, a UMTS network or an LTE network, so that the deployment cost is reduced, and smooth upgrade is realized. The NB-IoT supports cellular data connection of low-power consumption equipment in a wide area network, and is also called a low-power consumption wide area network (LPWA), the NB-IoT supports high-efficiency connection of equipment with long standby time and higher requirements for network connection, the service life of the NB-IoT equipment can be prolonged by at least 10 years, meanwhile, very comprehensive indoor cellular data connection coverage can be provided, the NBIOT only has an existing base station and is wide in popularity, and the NB-IoT focuses on the low-power consumption wide coverage (LPWA) internet of things (IOT) market, so that the NB-IoT is an emerging technology which can be widely applied in the global scope. The method has the characteristics of wide coverage, multiple connections, low speed, low cost, low power consumption, excellent architecture and the like.

The NB-IoT end-to-end system architecture includes terminals: ue (user equipment) connected to a base station (eNodeB) through an air interface. Wireless network side: the method comprises two networking modes, wherein one mode is an integral wireless access network (Singel RAN) which comprises a 2G/3G/4G/5G wireless network and an NB-IoT wireless network, and the other mode is that NB-IoT is newly built, mainly plays the roles of air interface access processing, cell management and other related functions, is connected with an IoT core network through an S1-lite interface, and forwards non-access layer data to a high-level network element for processing. A core network: and the EPC (evolved Packet core) is used for carrying out interaction with a non-access stratum of the terminal and forwarding the IoT service related data to the IoT platform for processing. Platform: such as telecommunications platforms. An application server: taking a telecommunication platform as an example, an application server controls equipment by calling an open API of the platform through http/https protocol and platform communication, the platform pushes data reported by the equipment to the application server, and the platform supports protocol analysis of the equipment data and converts the equipment data into standard json format data.

The general classification of NB-IoT is into three operational states: in the default state, there are three operating states of NB-IoT, which can be switched according to different configuration parameters, and the three states affect the characteristics of NB-IoT, for example, compared with the low power consumption characteristics of the conventional GPRS, all of which can be interpreted from them, and at the same time, when the NB-IoT is used and the related programs are designed, the three operating states also need to be appropriately customized according to the development requirements and product characteristics. The three operating states are as follows: connection state: the module is in the state after registering and accessing the network, can send and receive data, can enter the idle mode after no data interaction exceeds a period of time, and the time can be configured. In an idle state: the data can be received/sent, the received downlink data can enter a connection state, the energy-saving mode can be entered when no data interaction exceeds a period, and the time can be configured. In the energy-saving mode, the terminal closes the transceiver in the mode and does not monitor the paging of the wireless side, so that the terminal still registers in the network, but the signaling is not accessible, downlink data cannot be received, and the power is very low. The duration is configured by the core network, and the uplink data needs to be transmitted or the TAU cycle is ended, and the connection state is entered.

The general case of the NB-IoT three states of operation is as follows:

①, when the terminal finishes sending data, the terminal is in a connected state, starts an 'inactivity timer', defaults for 20 seconds, and has a configurable range of 1 s-3600 s;

②, when the 'inactivity Timer' is overtime, the terminal enters an idle state, and starts an Active-Timer (T3324), wherein the overtime configuration range is 2 seconds to 186 minutes;

③ Active-Timer overtime, the terminal enters PSM state, enters Connected state when TAU period ends, TAU period [ T3412 ] configuration range is 54 minutes-310 hours [ PS: TAU period refers to from Idle start to energy saving mode end ]

Case profiling of NB-IoT terminals in different operating states:

1. the NB-IoT is in an active state when sending data, and enters an idle state after the timeout time configured by the inactivity counter is exceeded;

2. an eDRX mechanism is introduced in an idle state, a plurality of eDRX cycles are included in a complete idle process, the eDRX cycles can be configured through a timer and range from 20.48 seconds to 2.92 hours, and each eDRX cycle includes a plurality of DRX paging cycles;

3. a Paging Time Window (PTW) is formed by a plurality of DRX paging cycles, the paging time window can be set by a timer, the range is 2.56 s-40.96 s, and the size of the window and the number of times of paging are determined by the value of the paging cycle;

4. after the Active Timer is overtime, the NB-IoT terminal enters a PSM state from an idle state, and in the state, the terminal does not page, does not receive downlink data and is in a dormant state;

5. the TAU Timer starts to time when the terminal enters an idle state, and the terminal exits from a PSM state after the Timer is overtime, initiates TAU operation and returns to an activated state;

6. when the terminal is in the energy-saving state, the terminal can also return to the activated state by actively sending uplink data.

The embodiment adopt an intelligent home manager, including communication module, control module 2 and with the 86 box assorted socket ontology in the embedding wall body, communication module includes radio frequency communication subassembly 11 and terminal communication subassembly 12, the communication of intelligent home manager and target intelligent house has been realized through radio frequency communication subassembly 11, the communication of intelligent home manager and target terminal has been realized through terminal communication subassembly 12, with radio frequency communication subassembly 11, terminal communication subassembly 12 and control module 2 all set up inside the socket ontology, and the socket ontology again with the size phase-match of 86 box, the volume of manager self has been reduced effectively, and be convenient for install, need not to carry out large-scale dismouting at the in-process of installation, only need with it install in the 86 box in the current wall body can, occupation space has been saved effectively.

Further, as shown in fig. 1 to fig. 3, on the basis of the foregoing embodiments, the smart home manager of the embodiment includes: bottom shell 33, power connection assembly 34, insulating protective shell 35, socket shell 36 and socket frame 37, wherein bottom shell 33 is embedded in 86 box, power connection assembly 34 is arranged on bottom shell 33, and power connection assembly 34 is connected with a power line through a wiring hole on bottom shell 33; the insulating protective shell 35 is used for isolating the power-on end of the power connection assembly 34 corresponding to each jack 31, and the socket shell 36 is matched with the bottom shell 33 to isolate the power connection assembly 34 from the outside; the receptacle rim 37 is disposed on the receptacle housing 36, and the receptacle rim 37 is used to dispose the smart furniture manager within the 86 box.

The structural shape of the bottom shell 33 is matched with the 86 box type number corresponding to the household wall surface, and the 86 box is taken as an example for explanation, the size of the bottom shell 33 can be ensured to be stably embedded into the 86 box, and the bottom shell 33 is provided with three terminals 32 which are respectively marked with L, N and E, wherein L represents a live wire, N represents a zero wire, and E represents a ground wire, so that the specific wiring mode can be clearly understood. The power connection assembly 34 is made of metal materials, and the wires inserted into the power connection assembly are fixed in a screw mode to ensure that the power connection assembly 34 can be connected with a power supply, and the insulation protection shell 35 isolates the three jacks 31 corresponding to the live wire zero line and the grounding line from each other to ensure that the short circuit problem cannot occur in the power utilization process, and meanwhile, the plug can be stably connected with the power connection assembly 34. Socket shell 36 is then the better assurance power consumption safety, guarantee that intelligent home manager's outer wall can not take place the electric leakage condition, and for more pleasing to the eye, in socket shell 36's outside one side, still be provided with socket frame 37, socket frame 37 can realize better with 86 box fixed, and at actual in-process, the user can also select suitable socket frame 37 according to current family's fitment style, make can be better with fitment style phase-match, also can set up intelligent home manager is fixed inside 86 box better simultaneously.

Further, as shown in fig. 3, in order to ensure the using effect of the socket body, on the basis of the foregoing embodiment, the smart home manager of this embodiment further includes: the jack dust-proof assembly 38 is arranged on the socket shell 36, and when the jack 31 is in an idle state, the jack dust-proof assembly 38 is used for sealing the jack 31 so as to ensure the cleanness in the jack 31. The main effect of jack dustproof component 38 is that it falls into jack 31 inside and then influence electric conductive property to prevent debris such as dust, be provided with the spring on jack dustproof component 38 and block the piece, when the spring is in the bounce state, block that the piece seals jack 31 completely, and when inserting the plug into jack 31, the plug will block that the piece dials away, the spring is in compression state, when extracting the plug, the spring resumes to the bounce state again, cause to block the piece and seal jack 31 once more, thereby better assurance the cleanness in jack 31.

Further, as shown in fig. 3, in order to make the functions of the smart home manager more diversified, on the basis of the above-mentioned embodiment, the smart home manager of this embodiment further includes a floor lamp and a floor lamp window 39, the floor lamp is connected to the control module 2, the socket housing 36 is further provided with the floor lamp window 39, the floor lamp window 39 includes at least one rib, and each rib is arranged at a preset angle, so that the light of the floor lamp irradiates to the target space at the preset angle. Being provided with the footing light can make opening of user control footing light throw light on, luminance in the space has been guaranteed, and can not directly penetrate to cause amazing to people's eye in order to guarantee light, be provided with at least one rib on footing light window 39, and every rib is the angle setting of predetermineeing in addition, make the light of footing light can shine according to certain angle, produce more perfect light, specific angle does not clear and definite the injecing, the user can design the angle that corresponds according to the actual need of oneself.

In order to better control the on and off of the floor lamp, the smart home manager provided in this embodiment further includes a light intensity detector; the light intensity detector is used for detecting the light intensity in the target space, and when the light intensity is greater than a preset light intensity threshold value, the control module 2 sends a closing instruction to the floor lamp to close the floor lamp; when the light intensity is less than or equal to the preset light intensity threshold value, the control module 2 sends a turn-on instruction to the footlight so as to turn on the footlight. The light intensity detector can detect out the light intensity in the target space, and send current light intensity to control module 2, control module 2 compares current illumination intensity value with predetermineeing the illumination intensity threshold value, when current illumination intensity value is greater than predetermineeing the illumination intensity threshold value, control module 2 sends and closes the instruction, so that the footlight is in the off-state, when current illumination intensity value is less than or equal to predetermineeing the illumination intensity threshold value, control module 2 sends and opens instruction to the footlight, the footlight is opened, make intellectuality more.

Fig. 4 is a schematic structural diagram of an intelligent home management system provided in an embodiment of the present invention.

As shown in fig. 4, the smart home management system of this embodiment is characterized by comprising a terminal C and at least two smart home managers a described in any one of the above embodiments, where a communication module of any one of the smart home managers a further includes a power carrier communication component, when any one of the control modules detects a faulty smart home manager a, any one of the control modules determines fault-free smart home management through a grid computing algorithm, and sends a control instruction to the fault-free smart home manager a through the power carrier communication component, so that the terminal C controls an operating state of a target smart home B through the fault-free smart home manager a, and meanwhile, any one of the control modules is further configured to send fault information to a user terminal or a server, so that a user can master operating conditions of all the smart home managers at any time, and when a faulty smart home manager is found, the maintenance process can be performed in time.

In this embodiment, three smart home managers a, three smart homes B and one terminal C are used for illustration, in a normal working state, the terminal C controls the corresponding smart home B through the respective corresponding smart home manager a, and certainly, one of the smart home managers a may also be defined as a master controller, the master controller implements communication with the terminal C, in this embodiment, it is not explicitly defined, when a fault occurs in one of the smart home managers a, since information interaction is performed among the three smart home managers a through the power carrier communication component, any one of the control modules performs detection, and after the fault occurs in the one of the smart home managers a, a control instruction of the terminal C is sent to the fault-free smart home manager a, so as to ensure that a target home can be controlled through the fault-free smart home manager a, because the intelligent home manager A and the intelligent home B can be in a radio frequency communication mode, the transmission of the control signals cannot be blocked even if walls exist. In order to better ensure that the intelligent home B is controlled through the fault-free intelligent home manager A, the control module is also used for detecting the fault-free intelligent home manager A nearest to the fault-free intelligent home manager A, and the nearest fault-free intelligent home manager A receives the control instruction of the terminal C, so that the terminal C controls the running state of the target intelligent home B through the nearest fault-free intelligent home manager A. For example, when the leftmost smart home manager a in fig. 4 fails, the control module sends a control instruction to the middle smart home manager a, and controls the target smart home B through the middle smart home manager a, so that the control of the smart home B can be better ensured. A grid computing algorithm, namely distributed computing, is adopted among the multiple managers, so that the computing pressure can be effectively relieved, and the control on the target smart home B can be accurately and timely completed when the smart home manager A with a fault exists.

In order to better save raw materials and ensure stable transmission of signals, the power carrier communication component can also be a network communication component; the power carrier communication assembly comprises: the power line interface circuit, the coupling filter circuit and the power encoding and decoding circuit; the power line interface circuit is used for realizing the conduction of the intelligent home manager A and a power line; the coupling filter circuit is used for realizing the waveform stable transmission of power carrier communication; the electric power coding and decoding circuit is used for realizing signal transmission between the intelligent home managers A; the network communication component is used for realizing data interaction between the intelligent home managers A. The power line carrier communication technology makes full use of the existing power grid, modems are added at two ends of the power line carrier communication technology, 50Hz alternating current is directly used as a carrier, pulses of hundreds of KHz are used as modulation signals, signal transmission and control are conducted, the power line carrier communication technology has obvious advantages, the cost is low, a ready-made power line and a line are dual-purpose, the price is low, the extension is convenient, a network does not need to be built again, data transmission can be conducted as long as a power line exists, the existing power grid is fully utilized, household intelligence transformation can be simply achieved, and the power line carrier communication technology can be used only in the environment of the power supply network. The power line carrier transmits signals through a real power line, so that radio frequency interference harmful to human bodies is avoided, extra wiring is not needed, the intelligent household improvement can be simply realized by fully utilizing the existing power network, a user can realize intelligent control only by changing a switch, the possibility of enjoying the intelligent household B is provided for households decorated with houses, the interference of the so-called wall penetrating capability is avoided, zero-live lines of the power line are all communicated in any place, and the signals can be transmitted as long as the zero-live lines are communicated.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that the terms "first," "second," and the like in the description of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Further, in the description of the present invention, the meaning of "a plurality" means at least two unless otherwise specified.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. The intelligent home manager is characterized by comprising a communication module, a control module and a socket body matched with an 86 box embedded in a wall body, so that the intelligent home manager is installed in the 86 box;

the communication module comprises a terminal communication component and a radio frequency communication component;

the radio frequency communication assembly, the terminal communication assembly and the control module are all arranged in the socket body;

the socket body comprises a jack and a terminal; the jack is used for being matched with an electric plug, and the wiring end is used for being connected with a power line;

the control module receives a control instruction of a target terminal through the terminal communication assembly and sends the control instruction to the target intelligent home through the radio frequency communication assembly, so that the target terminal controls the running state of the target intelligent home.

2. The smart home manager of claim 1, wherein the radio frequency communication component comprises:

the radio frequency encoding and decoding circuit, the radio frequency filtering and amplifying circuit and the wireless antenna are arranged in the wireless communication system;

the radio frequency coding and decoding circuit is used for realizing signal transmission between the intelligent home manager and the target intelligent home;

the radio frequency filtering and amplifying circuit is used for improving the stability of signal transmission;

the wireless antenna is used for identifying a target signal and reading and writing the target signal.

3. The smart home manager of claim 1, wherein the terminal communication component comprises a cellular narrowband internet of things communication;

the control module controls the communication of the cellular narrowband Internet of things according to the running state of the intelligent home manager to realize the mutual conversion of a connection state, an idle state and an energy-saving mode.

4. The smart home manager of claim 1, wherein the socket body comprises: the socket comprises a bottom shell, a power connection assembly, an insulating protective shell, a socket shell and a socket frame;

the bottom shell is embedded into the 86 box, the electric connection assembly is arranged on the bottom shell, and the electric connection assembly is connected with a power line through a wiring hole in the bottom shell;

the insulation protection shell is used for isolating the power-on end on the power connection assembly corresponding to each jack;

the socket shell is matched with the bottom shell to isolate the power connection assembly from the outside;

the socket frame is arranged on the socket shell and used for arranging the intelligent furniture manager in the 86 boxes.

5. The smart home manager of claim 4, wherein the outlet body further comprises: a jack dust-proof component;

the jack dustproof assembly is arranged on the socket shell, and when the jacks are in an idle state, the jack dustproof assembly is used for sealing the jacks so as to ensure that the jacks are clean.

6. The smart home manager of claim 4, further comprising a floor light and a floor light window;

the floor lamp is connected with the control module, and a floor lamp window is further arranged on the socket shell;

the footlight window comprises at least one rib, and each rib is arranged at a preset angle so that light of the footlight irradiates to a target space at the preset angle.

7. The smart home manager of claim 6, further comprising a light intensity detector;

the light intensity detector is used for detecting the light intensity in the target space, and when the light intensity is greater than a preset light intensity threshold value, the control module sends a closing instruction to the floor lamp so as to close the floor lamp;

when the light intensity is smaller than or equal to a preset light intensity threshold value, the control module sends a starting instruction to the foot lamp so as to start the foot lamp.

8. An intelligent home management system, which is characterized by comprising a terminal and at least two intelligent home managers according to any one of claims 1 to 7;

the communication module of any intelligent home manager also comprises a power line carrier communication component;

when any control module detects a faulty intelligent home manager, any control module determines fault-free intelligent home management through a grid computing algorithm, and sends the control instruction to the fault-free intelligent home manager through the power carrier communication assembly, so that the terminal controls the running state of the target intelligent home through the fault-free intelligent home manager.

9. The smart home management system of claim 8, wherein any one of the control modules is further configured to:

detecting a non-fault intelligent home manager closest to the fault intelligent home manager through a grid computing algorithm;

and the nearest fault-free intelligent home manager receives a control instruction of the terminal so that the terminal controls the running state of the target intelligent home through the nearest fault-free intelligent home manager.

10. The smart home management system of claim 8, wherein the power carrier communication component comprises: the power line interface circuit, the coupling filter circuit and the power encoding and decoding circuit;

the power line interface circuit is used for realizing the conduction of the intelligent home manager and a power line;

the coupling filter circuit is used for realizing the waveform smooth transmission of the power carrier communication;

the electric power coding and decoding circuit is used for realizing signal transmission between the intelligent home managers.

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