HK1219143B - Intelligent household wireless control system - Google Patents

Description

Intelligent household wireless control system

Technical Field

The invention relates to the field of home control systems, in particular to an intelligent home wireless control system.

Background

With the development of science and technology and the improvement of the living standard of the public, scientific and technological products such as smart phones, tablet personal computers and intelligent devices are more and more perfect in functions, more and more powerful in performance and higher in popularization degree, more people join in ranks pursuing efficiency and experiencing higher-level lives, and convenience possibly brought to intelligent systems is fully expected.

However, the existing intelligent system continues to use conservative design concept and lack of innovation, so that most of intelligent systems feel unintelligent in actual application experience, not only the function is not practical, but also the operation process is more than a few times fussy. The method is very complicated in operation after relevant equipment is finally found through switching menus and interfaces layer by layer on a control interface, and is more practical and efficient when the equipment is directly operated or combined with control of equipment such as acousto-optic induction and the like when the equipment is moved to the front of an equipment switch; meanwhile, special operation training caused by the overturning of the use habits of the intelligent system also enables a user not to have to lose interest in the intelligent home slowly, and particularly for the old and children at home, the practical value of the intelligent system is greatly reduced.

Disclosure of Invention

Based on the above, the invention provides an intelligent household wireless control system which is convenient to use and solves the problems.

An intelligent home wireless control system comprises a mobile control end, a plurality of remote controlled devices and a signal Access Point (AP), wherein data exchange is carried out between the mobile control end and the remote controlled devices through the AP, each remote controlled device comprises an access controller and a controlled electric appliance connected to the access controller, a wireless signal base station and a counter are arranged in the access controller, the mobile control end detects the signal intensity of the wireless signal base station of each remote controlled device, the mobile control end sends a WIFI instruction to the counter according to the received signal intensity change of the remote controlled devices, the counter can carry out adding and subtracting counting operations to trigger a true and false condition, the remote controlled devices are intelligently controlled, and a user carries the mobile control end to enter a service area of the remote controlled devices and sends out an adding 1 operation of the counter; and when the user leaves the service area of the remote controlled device with the mobile control end, the counter is reduced by 1.

Furthermore, the controlled electric appliance and the mobile control terminals used by different users both have unique equipment identification codes as distinguishing marks, the mobile control terminals distinguish different controlled electric appliances through the equipment identification codes, before the counter executes the adding instruction, whether the mobile control terminal has sent the adding instruction or not is checked through the identification codes, if the identification codes of the mobile control terminals are stored, the counter is not changed, and if the identification codes of the mobile control terminals are not stored, the counter is added by 1 and the identification codes of the mobile control terminals are stored; before the counter is decreased, whether the mobile control terminal identification code of the sending instruction is stored or not is checked, if the mobile control terminal identification code of the sending instruction is not stored, the counter is not changed, and if the mobile control terminal identification code of the sending instruction is stored, the counter is decreased by 1 and the stored equipment identification code is deleted.

Further, remote controlled devices of the controlled electric appliances are divided into a first type electric appliance, a second type electric appliance and a third type electric appliance; the access controller is divided into three types of a switch control unit, a motor control unit and a data conversion unit, and a first type of electric appliance, a second type of electric appliance and a third type of electric appliance are respectively matched with the switch control unit, the motor control unit and the data conversion unit for use.

Furthermore, the switch control unit is internally provided with an electronic or mechanical switch component, the switch control unit can control the on and off of the switch component through the interruption triggering of the IO port or the WIFI instruction, the switch is switched to the on state when the true condition of the counter is triggered, and the switch is switched to the off state when the false condition of the counter is triggered.

Further, the motor control unit is internally provided with a mechanical switch component, the switching-on of the switch component can be controlled through the interruption triggering of an IO port of the motor control unit or a WIFI instruction, the forward rotation control signal of the motor can be output, the switching-off of the switch component can be controlled, the reverse rotation control signal of the motor can be output, the switch is switched to a switching-on state when a true condition of the counter is triggered, and the switch is switched to a switching-off state when a false condition of the counter is triggered.

Furthermore, the data conversion unit is an extensible programmable protocol conversion device, and the data conversion unit comprises input and output of signals received by an IO port, can inquire input data of a specified IO port through a WIFI instruction and can control the specified IO port to output data in a specified format so as to control external equipment; meanwhile, a preset instruction which is triggered and output through the serial number can be stored in the wireless communication device, an output port of the preset instruction and data content can be set through the WIFI instruction, and meanwhile the preset instruction can be associated with the condition triggering of the counter so as to achieve corresponding preset instruction output when the condition of the counter is changed.

Furthermore, the data conversion unit comprises a data acquisition device and an infrared emitter, and the data acquisition device comprises a current collector and a thermometer.

Furthermore, the current collector obtains the current used by the current connection device, converts the current into data, and sends the data to the AP through the data conversion unit, the infrared transmitter can convert the received data sent from the AP to the data conversion unit into an infrared signal and sends the infrared signal to devices such as a television or an air conditioner and the like which can be controlled through infrared remote control, and the thermometer obtains the temperature of the current environment, converts the temperature into the data, and sends the data to the AP through the data conversion unit.

Further, when the core processing module judges that the user enters the service area of the third type of electric appliance, the core processing module firstly detects the use current of the third type of electric appliance, and if the use current is less than or equal to the standby current, the core processing module sends an instruction for starting the controlled electric appliance and simultaneously sends a counter adding instruction; if the current is larger than the standby current, no action is triggered, and a counter adding instruction is sent out; the core processing module judges that the user leaves the service area of the third type of electric appliance, sends a counter reduction instruction, does not trigger any action if the using current of the third type of electric appliance is less than or equal to the standby current when the count of the counter after executing the reduction instruction is 0, and sends the standby instruction if the using current of the third type of electric appliance is greater than the standby current; when the count of the counter after executing the decrement instruction is greater than 0, no action is triggered.

Furthermore, the mobile control end comprises a core processing module, a geomagnetic sensor and a direction sensor, wherein the geomagnetic sensor and the direction sensor are respectively connected to the core processing module; when the azimuth information acquired by the geomagnetic sensor is in a set range, the core processing module controls the set remote controlled device independently according to the direction of the direction sensor.

Furthermore, the azimuth information acquired by the geomagnetic sensor is the north-south pole deviation of the mobile control end relative to the earth magnetic field, and the azimuth information acquired by the direction sensor is the inclination angle of each side surface of the mobile control end relative to the horizontal plane.

Furthermore, the mobile control end also comprises a three-axis accelerometer, and when a user enters a preset range, the three-axis accelerometer is started; and away from the zone, the tri-axial accelerometer is off.

And further, when the triaxial accelerometer detects that the acceleration is greater than a set value, the mobile control end is switched to a combined operation interface, the combined operation interface is divided into two parts, one part of the display interface is an operation interface pointing to corresponding equipment, and the other part of the display interface is a selection list of all the controlled electrical appliance icons scanned at the current position and is sorted according to the signal intensity.

Further, when the mobile phone is outdoors, a user can start an operation interface of the intelligent home wireless control system on the mobile phone by himself, and the user controls the remote controlled device through an external network, so that the counter is subjected to plus-minus 1 operation, and a true and false condition is triggered.

The utility model provides an intelligence house wireless control system which characterized in that: the remote controlled device intelligent control system comprises a mobile control end, a plurality of remote controlled devices and a signal Access Point (AP), wherein data exchange is carried out between the mobile control end and the remote controlled devices through the AP, each remote controlled device comprises an access controller and a controlled electric appliance connected to the access controller, a wireless signal base station is arranged in the access controller, the mobile control end detects the signal intensity of the wireless signal base station of each remote controlled device, the mobile control end carries out intelligent control on the remote controlled devices according to the received signal intensity change of the remote controlled devices, the mobile control end comprises a core processing module, a geomagnetic sensor and a direction sensor, and the geomagnetic sensor and the direction sensor are respectively connected to the core processing module; when the azimuth information acquired by the geomagnetic sensor is within a set range, the core processing module controls the set remote controlled device independently according to the direction of the direction sensor, the mobile control end is switched to a combined operation interface, the combined operation interface is divided into two parts, one part of the display interface is an operation interface pointing to corresponding equipment, and the other part of the display interface is a selection list of all controlled electrical icons scanned at the current position and is sorted according to the signal intensity.

Furthermore, the azimuth information acquired by the geomagnetic sensor is the north-south pole deviation of the mobile control end relative to the earth magnetic field, and the azimuth information acquired by the direction sensor is the inclination angle of each side surface of the mobile control end relative to the horizontal plane.

The whole operation process of the intelligent home remote control system is automatically finished, the intelligent level is high, even if the television or other multifunctional electric appliances which are difficult to predict the behavior requirements of the user are controlled, the same mobile phone is used, and a control interface is quickly presented to the user to finish the control by combining position and direction locking, so that the user does not need to operate too much, does not need to configure and use a plurality of different remote controllers, and meanwhile does not need to worry about electric power waste caused by forgetting to close the equipment after going out of a door, so that the whole home electric appliances are more intelligent and environment-friendly.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent home wireless control system according to the present invention.

Fig. 2 is a schematic structural diagram of a mobile control end of the intelligent home wireless control system shown in fig. 1.

Fig. 3 is a flow chart of the usage of the smart home wireless control system of fig. 1.

Fig. 4 is a schematic space usage diagram of the smart home wireless control system of fig. 1.

Detailed Description

In order to clearly show the technical scheme of the invention, the invention is further described with reference to the accompanying drawings.

Referring to fig. 1 to 4, the present invention provides an intelligent home remote control system, which includes a mobile control terminal 10, a plurality of remote controlled devices 30, and a signal access point 20 (hereinafter referred to as AP), where the remote controlled devices 30 are installed at different positions of an indoor space, such as a room, a hall, and the like, the AP generates WIFI signals, the mobile control terminal 10 and the remote controlled devices are both connected to the AP through the WIFI signals, the mobile control terminal 10 and the remote controlled devices 30 perform data exchange through the AP, and the mobile control terminal 10 can control the remote controlled devices 30, such as a light switch, a temperature adjustment, a television channel selection, and the like.

The mobile control terminal 10 is a portable device capable of communicating wirelessly, and in this embodiment, the mobile control terminal 10 is a smart phone. The mobile control terminal 10 includes a core processing module 11, and a geomagnetic sensor 12, a direction sensor 13, and a three-axis accelerometer 14 respectively connected to the core processing module 11. The geomagnetic sensor 12 and the direction sensor 13 are configured to obtain azimuth information of the mobile control end 10, where the azimuth information obtained by the geomagnetic sensor 12 is a north-south pole deviation of the mobile control end 10 with respect to an earth magnetic field, and the azimuth information obtained by the direction sensor 13 is an inclination angle between each side of the mobile control end 10 and a horizontal plane; when the direction information acquired by the local magnetic sensor 12 is within the set range, the core processing module 11 individually controls the set remote controlled device 30 according to the direction of the direction sensor 13.

The three-axis accelerometer 14 is used for measuring the acceleration of the movement of the mobile control terminal 10, the indoor 100 has at least one preset range P1 preset, P1 is selected when the intelligent home remote control system is configured, when a user enters the preset range P1, the three-axis accelerometer 14 is started, and when the user leaves the area, the three-axis accelerometer 14 is closed. After the three-axis accelerometer 14 is started, when the motion acceleration of the mobile control terminal 10 changes greatly, the three-axis accelerometer 14 feeds back information to the core processing module 11. The core processing module 11 sends out an instruction to switch the mobile phone to the picture of the intelligent home remote control system.

Each remote controlled device 30 includes an access controller 40 and a controlled electrical appliance 50 connected to the access controller 40, the remote controlled device 30 can be divided into a plurality of types, and according to different types of remote controlled devices 30, the access controller 40 can also be divided into three types, namely, an on-off control unit 41, a motor control unit 42 and a data conversion unit 43. Still be equipped with the wireless signal basic station in the access controller 40, the wireless signal basic station sends the WIFI signal outward, the WIFI signal of wireless signal basic station forms a coverage area in order to let mobile control end 10 discern and connect, and mobile control end 10 detects the signal intensity of each remote controlled device 30's wireless signal basic station, mobile control end 10 can be according to the remote controlled device 30's that receives signal intensity change, carries out intelligent control to remote controlled device 30, makes it open or close.

The controlled appliances 50 may be different kinds of home appliances, and among the home appliances, the controlled appliances 30 using the three kinds of controlled appliances 50 are controlled in the form of switch control, motor control, or data conversion, for convenience of description, the remote controlled devices 30 are classified into a first kind of appliances, a second kind of appliances, and a third kind of appliances, and accordingly, when the remote controlled devices are the first kind of appliances, the second kind of appliances, and the third kind of appliances, the access controller 40 correspondingly uses the switch control unit 41, the motor control unit 42, or the data conversion unit 43.

A counter is arranged in the access controller 40, and the counter can perform count-up and count-down operations through a WIFI instruction to trigger true and false conditions. Each controlled electrical appliance and the mobile control end used by different users have the unique equipment identification code as a distinguishing mark, the mobile control end 10 distinguishes different electrical appliances through the equipment identification code, before the counter executes an adding instruction, whether the mobile control end has sent the adding instruction or not is checked through the equipment identification code, if the adding instruction is stored, the counter is not changed, and if the adding instruction is not stored, the counter is added with 1 and the identification code of the mobile control end is stored; before the counter is reduced, whether the mobile control terminal identification code of the sending instruction is stored or not is checked, if the mobile control terminal identification code is stored, the counter is not changed, and if the mobile control terminal identification code is not stored, the counter is reduced by 1 and the stored equipment identification code is deleted; when a user enters a certain area with the mobile control terminal 10, the mobile control terminal 10 sends a counter adding instruction to the remote controlled device 30, and the counter adds 1, which indicates that the user enters the service area of the remote controlled device 30. Conversely, when a user leaves from a certain area with the mobile control terminal 10, the mobile control terminal 10 sends a counter decrement instruction to the remote controlled device 30, and the counter decrements by 1 to indicate that there is a user leaving the service area of the remote controlled device 30, and when the count of the counter is "0", it indicates that all users leave the service area of the remote controlled device 30.

In this embodiment, whether a user enters is mainly determined by the signal strength of the connection between the mobile control terminal and the remote controlled device, and in other examples, other manners may be adopted for determination. When the user is outdoors, the user can also start the operation interface of the smart home wireless control system on the mobile phone by himself, control the remote controlled device 30 through external networks such as GPRS and internet, simulate that the user enters or leaves, make the counter perform plus-minus 1 operation, and trigger the true and false condition.

The data conversion unit comprises a data acquisition device 57 and an infrared emitter, the data acquisition device comprising a current collector and a thermometer.

The current collector obtains the current of the current connecting device and converts the current into data, the data are sent to the AP through the data conversion unit, the infrared transmitter can convert the received data sent from the AP to the data conversion unit into infrared signals and send the infrared signals to the television and the air conditioner, the thermometer obtains the temperature of the current environment and converts the temperature into the data, the data are sent to the AP through the data conversion unit, and the current collector is used for detecting the current condition of the current connecting device. When the core processing module 11 judges that the user enters the service area of the third type of electrical appliance, the using current of the television 55/the air conditioner 56 is detected first, if the using current is less than or equal to the standby current, the core processing module 11 sends an instruction for starting the controlled electrical appliance 50, and simultaneously sends a counter adding instruction; if the current is larger than the standby current (namely, the current is used by people), no action is triggered, and a counter adding instruction is sent; in order to cooperate with detecting temperature, the remote controlled device 30 further comprises a thermometer 58, and the thermometer 58 detects the indoor temperature.

When the core processing module 11 judges that the user leaves the service area of the third type of electric appliance, a counter reduction instruction is sent, at this time, the two conditions are divided, when the count of the counter is '0', the fact that all the users leave the service area is indicated, then the using current of the television 55/the air conditioner 56 is detected, if the using current is smaller than or equal to the standby current, no action is triggered, and if the using current is larger than the standby current, the core processing module 11 sends a standby instruction; when the count of the counter is greater than 0, it indicates that someone is still using the device and does not trigger any action.

In the following, for convenience of description, the five remote controlled devices 30 are referred to as a first remote controlled device, a second remote controlled device, a third remote controlled device, a fourth remote controlled device and a fifth remote controlled device in sequence, the first remote controlled device and the second remote controlled device are electric appliances of a first type, the third remote controlled device and the fourth remote controlled device are electric appliances of a third type, the fifth remote controlled device is a second type, the controlled electric appliances 50 of the first remote controlled device, the second remote controlled device, the third remote controlled device, the fourth remote controlled device and the fifth remote controlled device respectively adopt a first electric lamp 511, a second electric lamp 512, an air conditioner 56, a television 55 and a curtain 54, the distribution of different controlled electric appliances 50 is shown in fig. 2 and 3, a user walks into a room according to a path T1 and out of the room according to a path T2, the working process of the intelligent home remote control system is as follows:

a user enters the indoor 100 through an entrance with a mobile phone, when the WIFI signal strength sent by a first remote controlled device is detected to reach LV1, the mobile phone automatically sends a counter adding instruction to the first remote controlled device through the AP, at the moment, the state of the counter is changed from 0 to 1 to trigger a 'true' condition, and a switch of a first electric lamp 511 is closed and lightened; then, the user enters an area when the WIFI signal strength sent by the second remote controlled device reaches LV3 with the mobile phone, the mobile phone automatically sends a counter adding instruction to the second remote controlled device through the AP, at the moment, the counter of the second remote controlled device is changed from 0 to 1 to trigger a 'true' condition, and the switch of the second lamp 512 is closed and turned on.

The core processing module 11 of the mobile phone judges that the traveling direction of the user is matched with T1 according to the change of the WIFI signal strength of the first remote controlled device and the second remote controlled device, that is, the user enters from the entrance, so the mobile phone automatically collects the temperature information outside the air conditioner 56 to the thermometer 58 through the AP and compares the temperature information with the temperature range value set by the user, when the temperature is higher than the temperature range, the mobile phone automatically sends a preset cooling instruction to the third remote controlled device through the AP, when the temperature is lower than the temperature range, a preset heating instruction is sent, after sending any instruction to the air conditioner 56, the mobile phone automatically sends an instruction to the third remote controlled device through the AP, when the current is larger than the preset standby current, the third remote controlled device checks that the mobile control end has sent the adding instruction through the device identification code, the counter is not changed.

When the user moves to a state that the WIFI signal intensity sent by the first remote controlled device is smaller than LV2 by carrying the mobile phone, the mobile phone automatically sends a counter reduction instruction to the first remote controlled device 20 through the AP, at the moment, the counter of the first electric lamp 511 is changed from 1 to 0 to trigger a false condition, and the switch of the first electric lamp 511 is switched off and is extinguished; when the user moves to the crossing position where the WIFI signal intensity sent by the fifth remote controlled device 20 reaches LV5 and the WIFI signal intensity sent by the second remote controlled device is within the range of LV3 by carrying the mobile phone, the mobile phone automatically sends a counter adding instruction to the curtain 54 through the AP, at this time, the curtain 541 counter is changed from 0 to 1 to trigger a true condition, and the curtain 54 is closed and pulled open in a forward rotation manner;

when the user walks to position P1, the handset automatically activates the tri-axial accelerometer 14 for real-time data acquisition. When a user takes out the mobile phone and shakes the mobile phone quickly, the data acquired by the mobile phone through the triaxial accelerometer 14 are in a small interval and the difference value changes continuously, when the drastic change time exceeds 1 second and is still not stopped, the screen of the mobile phone is switched to an operation interface of the intelligent home remote control system, when the horizontal pointing angle of the mobile phone is A1-A2 relative to L1 and the vertical pointing angle is A3-A4 relative to L2, the mobile phone judges that the current pointing device of the user is the television 55, so that the operation interface is displayed as a simulation interface of a remote controller of the television 55, and when the user clicks a button on the operation interface, the mobile phone automatically sends an instruction associated with the button clicked by the user to the television 55 through the AP through the fourth remote controlled device; after the mobile phone sends an instruction to the fourth remote controlled device each time, the current use current of the television 55 is read to the current collector 57, when the use current is greater than the preset standby current, the mobile phone will automatically send a counter addition instruction to the fourth remote controlled device through the AP, when the use current is less than or equal to the preset standby current, the mobile phone will automatically send a counter subtraction instruction to the fourth remote controlled device through the AP, and the fourth remote controlled device only executes the counter addition and subtraction operation and does not trigger any action; if the horizontal pointing angle of the mobile phone is between A1 and A2 relative to L1, but the vertical tilt angle exceeds the range from A3 to A4, the display interface of the mobile phone is switched to a combined operation interface, the combined operation interface is mainly divided into two parts, wherein two thirds of the display interface are operation interfaces pointing to corresponding equipment, and one third of the display interface is a selection list of all the controlled electrical icons scanned at the current position and is sorted according to the signal intensity. Namely, the sending signal strength of the controlled electric appliance is sequenced as follows: television 55> second electric light 512> air conditioner 56> curtain 54> first electric light 511; according to the logic, the intelligent home remote control system displays a lamp switch interface when pointing to the first lamp 511 or the second lamp 512, displays a curtain opening and closing interface when pointing to a curtain, displays an air conditioner remote controller simulation interface when pointing to an air conditioner, and completes control of a corresponding controlled terminal through operation of a user;

the user then leaves the room from position P1 in a travel pattern approaching path T2; when a user enters a first remote controlled device with a mobile phone, the WIFI signal strength sent by the first remote controlled device reaches LV1, the mobile phone automatically sends a counter adding instruction to the first lamp 511 through the AP, at the moment, the counter of the first lamp 511 is changed from 0 to 1 to trigger a 'true' condition, and the switch of the first lamp 511 is closed and lighted; then, when the WIFI signal sent by the user when the user travels to the first electric lamp 511 exceeds LV2 with the mobile phone, the mobile phone automatically judges that the traveling direction of the user matches T2 through the traveling path from LV3 to LV1, that is, from inside to entrance, and then the mobile phone automatically sends a counter decrement instruction to the first remote controlled device, the second remote controlled device, the third remote controlled device, the fourth remote controlled device, and the fifth remote controlled device through the AP. At this time, the counter of the first remote controlled device is changed from 1 to 0 to trigger a false condition, and the switch of the first electric lamp 511 is turned off and extinguished; the counter of the second remote controlled device is changed from 1 to 0 to trigger a false condition, and the switch of the second electric lamp 512 is switched off and is extinguished; the counter of the fifth remote controlled device is changed from 1 to 0 to trigger a false condition, and the curtain 54 is opened and reversely closed; the counter of the fourth remote controlled device is changed from 1 to 0, then the mobile phone automatically reads the counter of the fourth remote controlled device through the AP, and simultaneously reads the current using current of the television 55 from the current collector 57, and obtains that the counter is 0 but the using current is greater than the standby current, so that the mobile phone automatically sends a shutdown instruction to the television 55 through the fourth remote controlled device through the AP, and the television 55 enters a shutdown state; the counter of the third remote controlled device is changed from 1 to 0, then the mobile phone automatically reads the counter of the third remote controlled device through the AP, and simultaneously reads the current using current of the air conditioner 56 from the current collector 57, and obtains that the counter is 0 but the using current is greater than the standby current, so that the mobile phone automatically sends a standby instruction to the air conditioner 56 through the third remote controlled device through the AP, and the air conditioner 56 enters a standby state.

Therefore, the whole operation process of the intelligent home remote control system is automatically completed, the intelligent level is high, even if the television 55 control which is difficult to predict the user behavior demand is controlled, the same mobile phone is used, and a control interface is rapidly presented to a user to complete the control in combination with position and direction locking, so that the user does not need to operate too much, does not need to configure and use a plurality of different remote controllers, and meanwhile does not need to worry about electric power waste caused by forgetting to close the equipment after going out of a door, so that the whole home appliance is more intelligent and environment-friendly.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (16)

1. The utility model provides an intelligence house wireless control system which characterized in that: the remote controlled device intelligent control system comprises a mobile control end, a plurality of remote controlled devices and a signal Access Point (AP), wherein data exchange is carried out between the mobile control end and the remote controlled devices through the AP, each remote controlled device comprises an access controller and a controlled electric appliance connected to the access controller, a wireless signal base station and a counter are arranged in the access controller, the mobile control end detects the signal intensity of the wireless signal base station of each remote controlled device, the mobile control end sends a wireless fidelity (WIFI) instruction to the counter according to the received signal intensity change of the remote controlled devices, the counter is enabled to carry out adding and subtracting counting operations, a true and false condition is triggered, the remote controlled devices are intelligently controlled, and a user sends out an adding 1 operation of the counter when carrying the mobile control end to enter a service area of the remote controlled devices; and when the user leaves the service area of the remote controlled device with the mobile control end, the counter is reduced by 1.

2. The intelligent home wireless control system according to claim 1, characterized in that: the controlled electric appliance and the mobile control terminals used by different users both have unique equipment identification codes as distinguishing marks, the mobile control terminals distinguish different controlled electric appliances through the equipment identification codes, before the counter executes an adding instruction, whether the mobile control terminal has sent the adding instruction or not is checked through the identification codes, if the identification codes of the mobile control terminals are stored, the counter is not changed, and if the identification codes of the mobile control terminals are not stored, the counter adds 1 and stores the identification codes of the mobile control terminals; before the counter is decreased, whether the mobile control terminal identification code of the sending instruction is stored or not is checked, if the mobile control terminal identification code of the sending instruction is not stored, the counter is not changed, and if the mobile control terminal identification code of the sending instruction is stored, the counter is decreased by 1 and the stored equipment identification code is deleted.

3. The intelligent home wireless control system according to claim 1, characterized in that: remote controlled devices of the controlled electric appliances are divided into a first type electric appliance, a second type electric appliance and a third type electric appliance; the access controller is divided into three types of a switch control unit, a motor control unit and a data conversion unit, and a first type of electric appliance, a second type of electric appliance and a third type of electric appliance are respectively matched with the switch control unit, the motor control unit and the data conversion unit for use.

4. The intelligent home wireless control system according to claim 3, characterized in that: the switch control unit comprises an electronic or mechanical switch component, the switch control unit can control the on and off of the switch component through the IO port interrupt trigger or the WIFI instruction, the switch is switched to the on state when the true condition of the counter is triggered, and the switch is switched to the off state when the false condition of the counter is triggered.

5. The intelligent home wireless control system according to claim 3, characterized in that: the motor control unit is internally provided with a mechanical switch component, the switching-on of the switch component can be controlled through the interruption triggering of an IO port or a WIFI instruction, the forward rotation control signal of the motor is output, the reverse rotation control signal of the motor is output by controlling the switching-off of the switch component, the switch is switched to a closed state when a true condition of the counter is triggered, and the switch is switched to an open state when a false condition of the counter is triggered.

6. The intelligent home wireless control system according to claim 3, characterized in that: the data conversion unit is an extensible programmable protocol conversion device, and comprises input and output of signals received by an IO port, input data of the specified IO port can be inquired through a WIFI instruction, and the specified IO port can be controlled to output data in a specified format so as to control external equipment; meanwhile, a preset instruction which is triggered and output through the serial number can be stored in the counter, an output port of the preset instruction and data content can be set through the WIFI instruction, and meanwhile the preset instruction can be triggered and associated with the condition of the counter so as to achieve corresponding preset instruction output when the condition of the counter is changed.

7. The intelligent home wireless control system according to claim 6, characterized in that: the data conversion unit comprises a data acquisition device and an infrared emitter, and the data acquisition device consists of a current collector and a thermometer.

8. The intelligent home wireless control system according to claim 7, characterized in that: the current collector obtains the current used by the current connecting equipment, converts the current into data and sends the data to the AP through the data conversion unit, the infrared transmitter converts the received data sent from the AP to the data conversion unit into an infrared signal and sends the infrared signal to the controlled electric appliance, and the thermometer obtains the temperature of the current environment, converts the temperature into the data and sends the data to the AP through the data conversion unit.

9. The intelligent home wireless control system according to claim 8, characterized in that: the mobile control terminal comprises a core processing module, when the core processing module judges that a user enters a service area of a third type of electric appliance, the core processing module firstly detects the use current of the third type of electric appliance, and if the use current is less than or equal to the standby current, the core processing module sends a command for starting the controlled electric appliance and sends a counter adding command at the same time; if the current is larger than the standby current, no action is triggered, and a counter adding instruction is sent; the core processing module judges that the user leaves the service area of the third type of electric appliance, sends a counter reduction instruction, and when the count of the counter after executing the reduction instruction is 0, if the using current of the third type of electric appliance is less than or equal to the standby current, no action is triggered, and if the using current is greater than the standby current, the core processing module sends the standby instruction; when the count of the counter after executing the decrement instruction is greater than 0, no action is triggered.

10. The intelligent home wireless control system according to claim 1, characterized in that: the mobile control end comprises a core processing module, a geomagnetic sensor and a direction sensor, wherein the geomagnetic sensor and the direction sensor are respectively connected to the core processing module; when the azimuth information acquired by the geomagnetic sensor is in a set range, the core processing module controls the set remote controlled device independently according to the direction of the direction sensor.

11. The intelligent home wireless control system according to claim 10, wherein: the azimuth information acquired by the geomagnetic sensor is the south-north pole deviation of the mobile control end relative to the earth magnetic field, and the azimuth information acquired by the direction sensor is the inclination angle of each side surface of the mobile control end relative to the horizontal plane.

12. The intelligent home wireless control system according to claim 10, wherein: the mobile control end also comprises a three-axis accelerometer, and when a user enters a preset range, the three-axis accelerometer is started; and away from the zone, the tri-axial accelerometer is off.

13. The intelligent home wireless control system of claim 12, wherein: when the triaxial accelerometer detects that the acceleration is larger than a set value, the mobile control end is switched to a combined operation interface, the combined operation interface is divided into two parts, one part of the display interface is an operation interface pointing to corresponding equipment, and the other part of the display interface is a selection list of all controlled electrical appliance icons scanned at the current position and is sorted according to signal intensity.

14. The intelligent home wireless control system according to claim 11, wherein: when the mobile phone is outdoors, a user can start the intelligent home wireless control system on the mobile phone by himself, and the user controls the remote controlled device through an external network, so that the counter is subjected to plus-minus 1 operation, and a true and false condition is triggered.

15. The utility model provides an intelligence house wireless control system which characterized in that: the remote controlled device intelligent control system comprises a mobile control end, a plurality of remote controlled devices and a signal Access Point (AP), wherein data exchange is carried out between the mobile control end and the remote controlled devices through the AP, each remote controlled device comprises an access controller and a controlled electric appliance connected to the access controller, a wireless signal base station is arranged in the access controller, the mobile control end detects the signal intensity of the wireless signal base station of each remote controlled device, the mobile control end carries out intelligent control on the remote controlled devices according to the received signal intensity change of the remote controlled devices, the mobile control end comprises a core processing module, a geomagnetic sensor and a direction sensor, and the geomagnetic sensor and the direction sensor are respectively connected to the core processing module; when the azimuth information acquired by the geomagnetic sensor is within a set range, the core processing module controls the set remote controlled device independently according to the direction of the direction sensor, the mobile control end is switched to a combined operation interface, the combined operation interface is divided into two parts, one part of the display interface is an operation interface pointing to corresponding equipment, and the other part of the display interface is a selection list of all controlled electrical icons scanned at the current position and is sorted according to the signal intensity.

16. The intelligent home wireless control system of claim 15, wherein: the azimuth information acquired by the geomagnetic sensor is the south-north pole deviation of the mobile control end relative to the earth magnetic field, and the azimuth information acquired by the direction sensor is the inclination angle of each side surface of the mobile control end relative to the horizontal plane.