CN117518851A - Intelligent household system - Google Patents

Abstract

The utility model relates to a house control technology field discloses an intelligent home system, including house control system, house control system output is connected with the instruction and sends the module, the instruction is sent the module and is used for the user to house adjustment instruction, instruction is sent module output electric connection and is had instruction receiving module, instruction receiving module is used for receiving the adjustment instruction that the user sent, instruction receiving module output electric connection has central server module, central server module input is connected with discernment positioning module. The household equipment is conveniently controlled by the user sending the instruction, the system can automatically process the instruction, realize automatic operation, and further has the characteristics of energy saving management, safety guarantee, personalized learning and intelligent adjustment, positioning and navigation functions, remote access and control and the like, and the effects improve the comfort, convenience and intelligent level of the household.

Description

Intelligent household system

Technical Field

The invention relates to the technical field of household control, in particular to an intelligent household system.

Background

The intelligent home is an important application component of the Internet of things, an Internet of things gateway in the intelligent home system is in communication connection with various sensors and clients in the system, so that the sensing of multiple items of information such as theft prevention, robbery prevention, water and fire prevention, emergency rescue and the like of the home and the real-time treatment of the information can be realized, the technical prevention, the physical prevention and the personal prevention are organically combined together, the goal of safe home is achieved, and the family happiness feeling of common people living is promoted.

At present, most of existing home control systems depend on remote controllers or mobile phone APP for control, are not convenient enough, and meanwhile lack real-time monitoring of outdoor dangerous conditions

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent home system, which solves the problems that the existing home control system mostly depends on a remote controller or a mobile phone APP to control and is not convenient enough.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an intelligent home system, includes home control system, home control system output is connected with the instruction and sends the module, the instruction sends the module and is used for the user to house adjustment instruction, instruction sends module output electric connection and has the instruction receiving module, the instruction receiving module is used for receiving the adjustment instruction that the user sent, instruction receiving module output electric connection has a central server module, central server module input is connected with discernment positioning module, discernment positioning module is used for location house position and signal coverage location, central server module input is connected with main control center module, main control center module output electric connection has energy consumption management module, energy consumption management module is used for reducing the loss of energy consumption's management, energy consumption management module output is connected with the safety inspection module, the safety inspection module output is connected with self-adaptation learning module, self-adaptation learning module output is connected with.

Preferably, the instruction receiving module comprises an input interface unit, the output end of the input interface unit is electrically connected with a data analysis unit, the data analysis unit is used for processing and analyzing the received instruction and triggering related events according to the execution of related operations of the instruction content, the output end of the data analysis unit is electrically connected with an instruction processing unit, the output end of the instruction processing unit is connected with an instruction storage unit, the output end of the instruction storage unit is connected with an error processing unit, the output end of the error processing unit is connected with a state monitoring unit, and the output end of the state monitoring unit is electrically connected with an interface output unit.

Preferably, the central server module comprises a data receiving unit, the output end of the data receiving unit is connected with a data processing unit, the data processing unit is used for processing and analyzing received data, the output end of the data processing unit is electrically connected with a user management unit, the output end of the user management unit is connected with an equipment management unit, the output end of the equipment management unit is electrically connected with an instruction execution unit, and the output end of the instruction execution unit is electrically connected with a maintenance unit.

Preferably, the energy consumption management module comprises an energy consumption detection unit, the output end of the energy consumption detection unit is electrically connected with an energy consumption control unit, the output end of the energy consumption control unit is electrically connected with an energy consumption calculation unit, the output end of the energy consumption calculation unit is electrically connected with an energy consumption cost management unit, the output end of the energy consumption cost management unit is electrically connected with an energy consumption alarm unit, and the output end of the energy consumption alarm unit is connected with a bill pushing unit.

Preferably, the identification positioning module comprises a human body identification unit, the output end of the human body identification unit is connected with a human face identification unit, the output end of the human face identification unit is electrically connected with a position sensor unit, the output end of the position sensor unit is electrically connected with an indoor positioning unit, and the output end of the indoor positioning unit is connected with a data fusion unit.

Preferably, the output end of the data fusion unit is electrically connected with a map construction unit, the output end of the map construction unit is connected with a positioning management unit, the output end of the positioning management unit is electrically connected with a data storage unit, the output end of the data storage unit is connected with a user interface unit, and the output end of the user interface unit is electrically connected with a remote access module.

Preferably, the user interface unit includes a touch screen control panel, a control application program, a remote controller, a web page interface, and a voice control device.

Preferably, the safety detection module comprises a safety camera, the output end of the safety camera is electrically connected with a door and window sensor, the output end of the door and window sensor is electrically connected with an environment detection sensor, the output end of the environment detection sensor is connected with a motion sensor, and the output end of the motion sensor is connected with a sound sensor.

Preferably, the output end of the sound sensor is electrically connected with a safety monitoring center, the output end of the safety monitoring center is electrically connected with an alarm and an alarm transmission unit, and the output ends of the alarm and the alarm transmission unit are connected with an intelligent lock and an access control unit.

Working principle: the user uses the instruction sending module in the home control system to send out home adjustment instructions, the instruction sending module transmits the instructions to the instruction receiving module, the input interface unit in the instruction receiving module receives and analyzes the instructions, the data analyzing unit processes and analyzes the received instructions and executes related operations according to the content of the instructions, the instruction processing unit triggers related events, the processed instructions are transmitted to the instruction storage unit to be stored, the error processing unit is responsible for processing error conditions possibly occurring in the instruction execution process, the state monitoring unit monitors the state of the system and outputs related information to the interface output unit, the central server module receives the instructions transmitted by the instruction receiving module, the data receiving unit receives and processes the data transmitted by the instruction receiving module, the data processing unit processes and analyzes the received data, the user management unit manages user information and authority, the device management unit manages each device in the intelligent home system, the instruction execution unit executes instructions and controls the operation of related devices, the maintenance unit is responsible for maintenance and management of the system, in addition, the main control center module is connected with the energy consumption management module, the energy consumption management module is used for managing and reducing energy consumption, the safety detection module is responsible for monitoring the safety condition of the home, the self-adaptive learning module is used for learning the behavior and the preference of the user and carrying out intelligent adjustment according to the learning result, other modules can be additional modules added according to specific requirements, the user interface unit and the remote access module, the modules jointly realize the identification positioning and data management functions of the home, and the safety detection modules are used for monitoring the safety state of the home, such as personnel activities, personnel activities and the like, door and window state, environmental condition etc., the safety monitoring center is responsible for the output of control safety camera to provide alarm function through siren and alarm transmission unit, intelligent lock and entrance guard's unit are used for controlling lock and access control system.

The invention provides an intelligent home system. The beneficial effects are as follows:

according to the intelligent household system, the instruction sending module sends the household adjustment instruction to realize flexible control of household equipment, convenient household control is provided, the instruction receiving module, the data analyzing unit and the instruction processing unit in the system can automatically process and execute the instruction sent by the user, automatic operation is realized, the need of manual intervention is reduced, in addition, the energy consumption management module can monitor, control and optimize the energy consumption, the effect of energy saving is realized, the safety detection module monitors the household in real time through various sensors, the safety alarm and monitoring function is provided, the safety of the household is enhanced, the self-adaptive learning module can learn according to the behaviors and the favors of the user, the household system is intelligently adjusted, personalized household service and experience are provided, in addition, the positioning module is identified to realize the positioning and signal coverage positioning of the household position, the functions of positioning and navigation are provided for the user, finally, the remote access module and the user interface unit allow the user to remotely access and control the intelligent household system through the control application program, the webpage interface or the sound control equipment, the intelligent household system is convenient, the automation, the energy saving, the safety, the individuation and the remote access and the intelligent household system has various beneficial effects, the intelligent household comfort level and the intelligent household system is provided.

Drawings

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic diagram of an instruction receiving module according to the present invention;

FIG. 3 is a schematic diagram of a central server module according to the present invention;

FIG. 4 is a schematic diagram of an energy consumption management module according to the present invention;

FIG. 5 is a schematic diagram of an identification positioning module according to the present invention;

fig. 6 is a schematic diagram of a security detection module according to the present invention.

1, a home control system; 2. an instruction issuing module; 3. an instruction receiving module; 301. an input interface unit; 302. a data analysis unit; 303. an instruction processing unit; 304. an instruction storage unit; 305. an error processing unit; 306. a state monitoring unit; 307. an interface output unit; 4. a central server module; 401. a data receiving unit; 402. a data processing unit; 403. a user management unit; 404. an equipment management unit; 405. an instruction execution unit; 406. a maintenance unit; 5. a main control center module; 6. an energy consumption management module; 601. an energy consumption detection unit; 602. an energy consumption control unit; 603. an energy consumption calculation unit; 604. an energy consumption cost management unit; 605. an energy consumption alarm unit; 606. a bill pushing unit; 7. a security detection module; 701. a security camera; 702. door and window sensors; 703. an environment detection sensor; 704. a motion sensor; 705. a sound sensor; 706. an intelligent lock and an access control unit; 707. an alarm and an alarm transmission unit; 708. a safety monitoring center; 8. an adaptive learning module; 9. a remote access module; 10. identifying a positioning module; 1001. a human body recognition unit; 1002. a face recognition unit; 1003. a position sensor unit; 1004. an indoor positioning unit; 1005. a data fusion unit; 1006. a remote access module; 1007. a user interface unit; 1008. a data storage unit; 1009. a positioning management unit; 1010. and a map construction unit.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

referring to fig. 1, an embodiment of the present invention provides an intelligent home system, which includes a home control system 1, an instruction sending module 2 is connected to an output end of the home control system 1, the instruction sending module 2 is used for a user to adjust an energy consumption of a home, an output end of the instruction sending module 2 is electrically connected to an instruction receiving module 3, the instruction receiving module 3 is used for receiving an adjustment instruction sent by the user, an output end of the instruction receiving module 3 is electrically connected to a central server module 4, an input end of the central server module 4 is connected to an identification positioning module 10, the identification positioning module 10 is used for positioning a home location and signal coverage positioning, an input end of the central server module 4 is connected to a main control central module 5, an output end of the main control central module 5 is electrically connected to an energy consumption management module 6, an output end of the energy consumption management module 6 is connected to a safety detection module 7, an output end of the safety detection module 7 is connected to an adaptive learning module 8, and an output end of the adaptive learning module 8 is connected to 9.

The home control system 1 is a core of the whole system, and interacts with a user through an instruction sending module 2 to receive an adjustment instruction of the user for home, the instruction sending module 2 transmits the instruction of the user to an instruction receiving module 3, the instruction receiving module 3 is responsible for receiving, processing and analyzing the adjustment instruction sent by the user and transmitting the instruction to other modules, the instruction receiving module 3 can transmit the instruction of the user to the other modules for further processing and execution through connection with a central server module 4, and the central server module 4 is a central processing unit of the whole system and receives the instruction from the instruction receiving module 3 and transmits the instruction to the other modules for corresponding operation according to requirements. Meanwhile, the central server module 4 is further connected with the identification positioning module 10 and the main control center module 5, the identification positioning module 10 is used for positioning the position and signal coverage of the home so as to provide accurate positioning service, the accurate positioning of the home position can be achieved through components such as a human body identification unit, a face recognition unit and a position sensor unit, the main control center module 5 is responsible for communication and coordination with other modules, normal work and data transmission among the modules are ensured, the main control center module 5 is connected with the central server module 4, an instruction from the central server module 4 is received, the instruction is transmitted to the energy consumption management module 6, the energy consumption management module 6 is responsible for managing the energy consumption of the home, the aim of reducing the energy consumption is achieved, the energy consumption monitoring, the control and the calculation can be achieved through components such as an energy consumption detection unit, an energy consumption control unit and an energy consumption calculation unit, the safety detection module 7 is used for monitoring the safety state of the home, the components such as a safety camera, a door and window sensor and an environment detection sensor, the main control center module 5 can timely detect potential safety problems, corresponding alarms and safety measures are triggered, the self-adaptive learning module 8 can conduct learning and adjustment according to the energy consumption and preference of a user, intelligent home interaction and intelligent home service interaction and intelligent home experience can be achieved, and intelligent home interaction and intelligent home service experience can be achieved.

Referring to fig. 2, the instruction receiving module 3 includes an input interface unit 301, an output end of the input interface unit 301 is electrically connected to a data analyzing unit 302, the data analyzing unit 302 is used for processing and analyzing a received instruction and executing a related operation according to an instruction content to trigger a related event, an output end of the data analyzing unit 302 is electrically connected to an instruction processing unit 303, an output end of the instruction processing unit 303 is connected to an instruction storage unit 304, an output end of the instruction storage unit 304 is connected to an error processing unit 305, an output end of the error processing unit 305 is connected to a state monitoring unit 306, and an output end of the state monitoring unit 306 is electrically connected to an interface output unit 307;

the input interface unit 301: the unit is responsible for receiving command inputs from the home control system 1. It may be a physical interface or a software interface, which is used to receive the adjustment instruction sent by the user, and the data parsing unit 302: the unit processes and analyzes the received instruction, analyzes the content of the instruction, performs related operations according to the content of the instruction, and triggers corresponding events. The data parsing unit 302 may parse according to the format, semantics, etc. of the instruction to determine the operation to be performed, and the instruction processing unit 303: the unit is responsible for the operations needed to actually execute the instruction. According to the instruction information provided by the data parsing unit 302, the corresponding operations are performed, for example, controlling the switching of the home device, adjusting the brightness, the temperature, etc., and the instruction storage unit 304: the unit is for storing the received instructions for subsequent reference and querying. The instruction storage unit 304 may record information such as time, source, and execution result of the instruction, so that a user and a system can trace and analyze the instruction history, and the error processing unit 305: the unit is responsible for handling possible error conditions during execution of the instruction, and if the instruction fails to execute or is abnormal, the error handling unit 305 takes corresponding measures, such as sending error notification information to the user or attempting to re-execute the instruction, and the state monitoring unit 306: the unit is used for monitoring state changes involved in the instruction execution process, can monitor the state of household equipment, the change of environmental parameters and the like, and feeds relevant information back to other modules or interfaces, and the interface output unit 307: the unit is responsible for outputting the instruction processing result to other modules or interfaces, and can transmit the execution result to the central server module 4 or other related modules so as to realize feedback and response of instruction execution, and through cooperation of the components, the instruction receiving module 3 can receive, analyze and process the adjustment instruction sent by the user, execute corresponding operation, and provide storage and error processing functions of the instruction so as to realize flexible control and reliable operation of the intelligent home system.

Referring to fig. 3, the central server module 4 includes a data receiving unit 401, an output end of the data receiving unit 401 is connected with a data processing unit 402, the data processing unit 402 is used for processing and analyzing received data, an output end of the data processing unit 402 is electrically connected with a user management unit 403, an output end of the user management unit 403 is connected with an equipment management unit 404, an output end of the equipment management unit 404 is electrically connected with an instruction execution unit 405, and an output end of the instruction execution unit 405 is electrically connected with a maintenance unit 406;

the data receiving unit 401: the unit is responsible for receiving data from the command receiving module 3 or other modules, which may receive commands issued by the user, data collected by the sensors, system status information, etc. The data receiving unit 401 transfers the received data to the data processing unit 402 of the next stage, and the data processing unit 402: the unit processes and analyzes the received data. The method can perform operations such as data cleaning, conversion, analysis and the like according to the type and the content of the data so as to extract useful information and prepare for subsequent processing. The data processing unit 402 may perform corresponding data processing algorithm and logic design according to specific application requirements, and the user management unit 403: the unit is responsible for managing user information in the system. The system can store information such as personal information, preference setting, authority and the like of the user, and perform user identity verification and authority control according to the needs. The user management unit 403 may interact with the instruction receiving module 3 or other modules to acquire and update user information, and the device management unit 404: the unit is used for managing equipment information in the intelligent home system. It can store information of the type, state, location, etc. of the device and provide management and control functions of the device. The device management unit 404 may communicate with the instruction receiving module 3 or other modules to acquire a device state, perform a device operation, etc., the instruction execution unit 405: the unit is responsible for executing instructions received from the instruction receiving module 3 or other modules. It performs corresponding operations, such as controlling the switching of home devices, adjusting the brightness, temperature, etc., according to the content of the instruction and the device information provided by the device management unit 404, and the maintenance unit 406: the unit is used for maintenance and management of the system. The system can monitor the running state of the system, process abnormal conditions, diagnose and repair faults, and the like. The maintenance unit 406 may also perform update and upgrade operations of the system to ensure stability and reliability of the system; through cooperation of the above components, the central server module 4 is able to receive, process and manage data and instructions in the system, including user information, device information, etc. The intelligent home system has the central processing and control functions of the system, and ensures the normal operation of the intelligent home system and the coordination work among all modules.

Referring to fig. 4, the energy consumption management module 6 includes an energy consumption detection unit 601, an output end of the energy consumption detection unit 601 is electrically connected to an energy consumption control unit 602, an output end of the energy consumption control unit 602 is electrically connected to an energy consumption calculation unit 603, an output end of the energy consumption calculation unit 603 is electrically connected to an energy consumption cost management unit 604, an output end of the energy consumption cost management unit 604 is electrically connected to an energy consumption alarm unit 605, and an output end of the energy consumption alarm unit 605 is connected to a bill pushing unit 606.

Energy consumption detection unit 601: the unit is used for monitoring and detecting the energy consumption condition of each device in the intelligent home system, and can acquire the energy consumption data of the device, such as power consumption, energy consumption and the like, in real time through a sensor or other detection modes. The energy consumption detection unit 601 may transmit the detected energy consumption data to the energy consumption control unit 602 of the next stage, and the energy consumption control unit 602: the unit is responsible for controlling the energy consumption of the devices in the smart home system according to the data provided by the energy consumption detection unit 601. The device can automatically adjust the working state of the equipment according to the system setting or the energy consumption limit set by a user so as to achieve the purposes of energy saving and energy consumption optimization. The energy consumption control unit 602 may send corresponding instructions to the device according to the control policy to implement control of energy consumption, and the energy consumption calculation unit 603: the unit is used for calculating and analyzing the energy consumption data of the intelligent home system. It may calculate the energy consumption situation of the device, the area or the whole system, such as energy consumption statistics, energy efficiency assessment, etc., based on the real-time data provided by the energy consumption detection unit 601. The energy consumption calculation unit 603 may provide visual presentation and reporting of energy consumption data to help the user to better understand and manage the energy consumption situation, the energy consumption cost management unit 604: the unit is used for managing the energy consumption cost of the intelligent home system, and can calculate the cost of energy consumption according to the energy consumption data provided by the energy consumption calculating unit 603 and combining the energy price and the charging rule, and record and manage the energy consumption cost. The energy consumption cost management unit 604 may provide real-time monitoring and reporting of energy consumption costs to help users rationally plan and control energy consumption expenses, the energy consumption alarm unit 605: the unit is used for monitoring the energy consumption situation and giving an energy consumption alarm. It may compare with a set energy consumption threshold according to the data provided by the energy consumption detection unit 601, when the energy consumption exceeds the preset threshold, the energy consumption alarm unit 605 triggers an alarm mechanism, and sends an alarm notification to related personnel, so as to take measures in time to perform energy consumption adjustment or fault investigation, and the bill pushing unit 606: the unit is used for pushing the billing information related to the energy consumption to the user. The energy consumption management module 6 can generate corresponding bills according to the energy consumption data and the charging rules provided by the energy consumption calculation unit 603, and push bill information to a user so that the user can know and manage the energy consumption cost, and through cooperation of the components, the energy consumption management module 6 can realize the functions of energy consumption monitoring, energy consumption control, energy consumption calculation, energy consumption cost management and the like of the intelligent home system. The system can help users to know the energy consumption condition in real time, optimize energy use, reduce energy consumption cost, provide services such as alarm and bill pushing, and the like, so as to realize intelligent, efficient and sustainable energy consumption management

Referring to fig. 5, the identification positioning module 10 includes a human body identification unit 1001, an output end of the human body identification unit 1001 is connected with a face recognition unit 1002, an output end of the face recognition unit 1002 is electrically connected with a position sensor unit 1003, an output end of the position sensor unit 1003 is electrically connected with an indoor positioning unit 1004, an output end of the indoor positioning unit 1004 is connected with a data fusion unit 1005, an output end of the data fusion unit 1005 is electrically connected with a map building unit 1010, an output end of the map building unit 1010 is connected with a positioning management unit 1009, an output end of the positioning management unit 1009 is electrically connected with a data storage unit 1008, an output end of the data storage unit 1008 is connected with a user interface unit 1007, an output end of the user interface unit 1007 is electrically connected with a remote access module 1006, and the user interface unit 1007 includes a touch screen control panel, a control application, a remote controller, a web page interface and a sound control device.

Human body recognition unit 1001: the unit is used for identifying and detecting human bodies in the room; the human body in the room can be identified and tracked through devices such as a sensor or a camera. The human body recognition unit 1001 transmits the recognized human body information to the next-stage face recognition unit 1002; face recognition unit 1002: the unit is responsible for recognizing the face of the recognized human body, and can determine the identity of the human body by analyzing the features of the human body, such as facial contours, eyes, mouth, etc., and the face recognition unit 1002 will transmit the recognized face information to the position sensor unit 1003; the position sensor unit 1003: the unit is used for acquiring the position information of each device in the intelligent home system. It may acquire real-time location data of the device via sensors or other positioning techniques. The position sensor unit 1003 transmits the position information to the indoor positioning unit 1004; indoor positioning unit 1004: the unit is responsible for indoor positioning functions, i.e. determining the specific position of a person or device in the room. It may perform positioning algorithms and processes in combination with the position data provided by the position sensor unit 1003 to determine accurate position information. The indoor positioning unit 1004 transfers the positioning result to the data fusion unit 1005; a data fusion unit 1005: the unit is used for fusing and integrating data from different sources. The method can combine the data provided by the human body recognition, face recognition, indoor positioning and other units to obtain more comprehensive and accurate positioning information. The data fusion unit 1005 transfers the fused data to the map construction unit 1010; map construction unit 1010: the unit is used for constructing an indoor map. It can create a map model of the indoor environment from the positioning information provided by the data fusion unit 1005. The map construction unit 1010 passes the map data to the position management unit 1009; positioning management unit 1009: the unit is responsible for managing and processing the positioning information. It can manage, query and update the positioning information according to the map data provided by the map construction unit 1010. The positioning management unit 1009 passes the positioning result to the data storage unit 1008; data storage unit 1008: the unit is for storing positioning related data. It may store the location information in a database or other storage medium for subsequent querying and analysis. The data storage unit 1008 transfers the stored data to the user interface unit 1007; user interface unit 1007: the unit provides an interface for a user to interact with the smart home system. The system comprises a touch screen control panel, a control application program, a remote controller, a webpage interface, a voice control device and other user interfaces in various forms. The user interface unit 1007 may display positioning information, control device location, perform remote access and control, and the like; remote access module 1006: the module allows a user to remotely access the smart home system via a network. It can be connected with the user interface unit 1007 to implement functions of remote monitoring, control and management of the smart home system; through the cooperation of the components, the recognition and positioning module 10 can realize functions of human body recognition, face recognition, indoor positioning, map construction and the like. The intelligent home system can provide accurate positioning information, and a user can conveniently monitor and control the intelligent home system through the user interface unit 1007 and the remote access module 1006, so that a more intelligent, convenient and personalized user experience is provided.

Referring to fig. 6, the security detection module 7 includes a security camera 701, an output end of the security camera 701 is electrically connected with a door and window sensor 702, an output end of the door and window sensor 702 is electrically connected with an environment detection sensor 703, an output end of the environment detection sensor 703 is connected with a motion sensor 704, an output end of the motion sensor 704 is connected with a sound sensor 705, an output end of the sound sensor 705 is electrically connected with a security monitoring center 708, an output end of the security monitoring center 708 is electrically connected with an alarm and alarm transmission unit 707, and an output end of the alarm and alarm transmission unit 707 is connected with an intelligent lock and an access control unit 706.

Safety camera 701: the camera is used for monitoring indoor or outdoor safety conditions. It can shoot video or image in real time to the door and window sensor 702 of next level, door and window sensor 702: the sensor is used for detecting the open and closed states of doors and windows. It can judge whether there is potential invasion risk through the physical change of perception door and window, such as on-off state, vibration etc.. The door and window sensor 702 transmits the detected information to the environment detection sensor 703, and the environment detection sensor 703: the sensor is used for detecting various parameters of the indoor environment. It can monitor environmental parameters such as temperature, humidity, gas concentration, etc., and abnormal conditions such as smog, flame, etc. The environment detection sensor 703 transfers the detected data to the motion sensor 704, and the motion sensor 704: the sensor is used to detect whether there is movement of a person or object in the room. It can sense the movement of human body or the activity of other objects to judge if abnormal condition exists. The motion sensor 704 transmits the detected motion information to the sound sensor 705; acoustic sensor 705: the sensor is used to detect sound changes in the room. It can sense sudden sounds such as glass breaking sounds or abnormal noise, etc., to find potential safety problems. The sound sensor 705 transmits the detected sound information to the security monitoring center 708; security monitoring center 708: the center is the core control unit of the security detection module. It receives data from the various sensors and processes and analyzes the data. When an abnormal situation is detected, the security monitoring center 708 triggers an alarm and alarm transmission unit 707; alarm and alarm transmission unit 707: this part is responsible for issuing the alarm and transmitting the alarm information. The alarm may sound an alarm by means of sound or flashing light, etc., to draw the attention of the user. The alarm transmission unit 707 is responsible for transmitting alarm information to a user or related security mechanisms; intelligent lock and access control unit 706: this portion serves to enhance the physical security within the chamber. The intelligent lock can control the opening and closing of the door lock through a password, a fingerprint or a mobile phone and the like, so that the safety of the door lock is improved. The entrance guard unit can be linked with the security monitoring center 708 to realize the management and monitoring of entrance guard in and out; through the cooperation of the components, the safety detection module 7 can monitor and protect indoor and outdoor safety conditions. It can detect abnormal conditions such as door and window status, indoor environmental parameters, movement, sounds, etc., and issue an alarm through the alarm and alarm transmission unit 707. At the same time, the smart lock and access unit 706 provides a physical security enhancement. The whole module can help users to find and cope with potential safety risks in time, and a safer and more reliable intelligent home environment is provided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an intelligent household system, includes house control system (1), its characterized in that, house control system (1) output is connected with instruction and sends module (2), instruction sends module (2) and is used for the user to house adjustment instruction, instruction sends module (2) output electric connection has instruction receiving module (3), instruction receiving module (3) are used for receiving the adjustment instruction that the user sent, instruction receiving module (3) output electric connection has central server module (4), central server module (4) input is connected with discernment positioning module (10), discernment positioning module (10) are used for location place and signal coverage location, central server module (4) input is connected with main control center module (5), main control center module (5) output electric connection has energy consumption management module (6), energy consumption management module (6) are used for reducing the loss of energy consumption to the management, energy consumption management module (6) output is connected with safety inspection module (7), safety inspection module (7) output is connected with self-adaptation module (8), self-adaptation module (8) are connected with learning module (8).

2. The smart home system according to claim 1, wherein the instruction receiving module (3) comprises an input interface unit (301), an output end of the input interface unit (301) is electrically connected with a data analyzing unit (302), the data analyzing unit (302) is used for processing and analyzing a received instruction and executing a related operation according to the instruction content to trigger a related event, an output end of the data analyzing unit (302) is electrically connected with an instruction processing unit (303), an output end of the instruction processing unit (303) is connected with an instruction storage unit (304), an output end of the instruction storage unit (304) is connected with an error processing unit (305), an output end of the error processing unit (305) is connected with a state monitoring unit (306), and an output end of the state monitoring unit (306) is electrically connected with the interface output unit (307).

3. An intelligent home system according to claim 1, wherein the central server module (4) comprises a data receiving unit (401), the output end of the data receiving unit (401) is connected with a data processing unit (402), the data processing unit (402) is used for processing and analyzing the received data, the output end of the data processing unit (402) is electrically connected with a user management unit (403), the output end of the user management unit (403) is connected with an equipment management unit (404), the output end of the equipment management unit (404) is electrically connected with an instruction execution unit (405), and the output end of the instruction execution unit (405) is electrically connected with a maintenance unit (406).

4. The smart home system according to claim 1, wherein the energy consumption management module (6) comprises an energy consumption detection unit (601), an output end of the energy consumption detection unit (601) is electrically connected with an energy consumption control unit (602), an output end of the energy consumption control unit (602) is electrically connected with an energy consumption calculation unit (603), an output end of the energy consumption calculation unit (603) is electrically connected with an energy consumption cost management unit (604), an output end of the energy consumption cost management unit (604) is electrically connected with an energy consumption alarm unit (605), and an output end of the energy consumption alarm unit (605) is connected with a bill pushing unit (606).

5. The smart home system according to claim 1, wherein the identification positioning module (10) comprises a human body identification unit (1001), an output end of the human body identification unit (1001) is connected with a human face identification unit (1002), an output end of the human face identification unit (1002) is electrically connected with a position sensor unit (1003), an output end of the position sensor unit (1003) is electrically connected with an indoor positioning unit (1004), and an output end of the indoor positioning unit (1004) is connected with a data fusion unit (1005).

6. The smart home system according to claim 5, wherein the output end of the data fusion unit (1005) is electrically connected to a map building unit (1010), the output end of the map building unit (1010) is connected to a positioning management unit (1009), the output end of the positioning management unit (1009) is electrically connected to a data storage unit (1008), the output end of the data storage unit (1008) is connected to a user interface unit (1007), and the output end of the user interface unit (1007) is electrically connected to a remote access module (1006).

7. The smart home system of claim 6, wherein the user interface unit (1007) comprises a touch screen control panel, a control application, a remote controller, a web page interface, and a voice operated device.

8. The smart home system according to claim 1, wherein the security detection module (7) comprises a security camera (701), an output end of the security camera (701) is electrically connected with a door and window sensor (702), an output end of the door and window sensor (702) is electrically connected with an environment detection sensor (703), an output end of the environment detection sensor (703) is connected with a motion sensor (704), and an output end of the motion sensor (704) is connected with a sound sensor (705).

9. The smart home system according to claim 8, wherein the output end of the sound sensor (705) is electrically connected to a security monitoring center (708), the output end of the security monitoring center (708) is electrically connected to an alarm and alarm transmission unit (707), and the output end of the alarm and alarm transmission unit (707) is connected to an intelligent lock and access control unit (706).