CN110912787A - Intelligent household control App - Google Patents

Abstract

The invention discloses an intelligent home control App, which comprises a top layer interface and a bottom layer control module, wherein the top layer interface comprises three parts, namely a monitoring data display unit, an electric appliance control button unit and a new equipment network access button unit, the data monitoring display unit is used for displaying environment data values acquired by various sensors in a home, the electric appliance control button unit is used for selectively controlling various electric equipment in a home network, and the new equipment network access button unit is used for performing network access configuration on new equipment when the new equipment is added into the home network; the bottom layer control module is used for processing control data of each electric appliance in the household equipment. The App is an intelligent household control App which can be downloaded and used on any intelligent terminal, can be installed on any number of intelligent terminals, solves the problem that a one-to-one controller can only be used for short-distance control in a limited area and cannot be used for remote control, and is more flexible and convenient to apply.

Description

Intelligent household control App

Technical Field

The invention belongs to the field of intelligent household equipment, and particularly relates to an intelligent household control App.

Background

The intelligent home is embodied in an internet of things mode under the influence of the internet of things, various devices (such as audio and video devices, a lighting system, curtain control, air conditioner control, a security system, a digital cinema system, network home appliances, three meters, and the like) in the home are connected together through the internet of things technology, and multiple functions and means such as home appliance control, lighting control, curtain control, telephone remote control, indoor and outdoor remote control, anti-theft alarm, environment monitoring, heating and ventilation control, infrared forwarding, programmable timing control and the like are provided. Compared with the common home, the intelligent home has the traditional living function, has building, network communication, information household appliances and equipment automation, integrates system, structure, service and management into a whole, is efficient, comfortable, safe, convenient and environment-friendly, provides an all-around information interaction function, helps the family to keep smooth information communication with the outside, optimizes the life style of people, helps people to effectively schedule time, enhances the safety of home life, and even saves funds for various energy expenses.

At present, intelligent home systems based on WIFI all include a control unit, a wireless routing device, a sensing unit, an alarm unit, a home device, and an intelligent terminal; the control unit comprises a main controller, a WIFI module and a GSM/GPRS module; the intelligent terminal is in wireless connection with the wireless routing equipment through a TCP/IP protocol, and the WIFI module is in wireless connection with the wireless routing equipment through the TCP/IP protocol and is in wireless communication with the intelligent terminal through the wireless routing equipment; the GSM/GPRS module is in wireless communication with the intelligent terminal through a GSM/GPRS network; the WIFI module and the GSM/GPRS module are connected with the control unit in a serial port or parallel port mode, the sensing unit and the alarm unit are connected with the control unit in a port mode, and the household equipment is electrically connected with the control unit through the relay module.

Above-mentioned intelligent home systems based on WIFI generally need pass through special controller, then through the work of access family wireless network, controls all equipment and all adopts a controller, has just so increased hardware wiring cost and degree of difficulty, simultaneously because the increase of equipment causes the reliability of data control and transmission to reduce, moreover, uses a controller to control all electrical apparatus one to one, operates inconveniently.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the utility model provides an intelligence house control App, it is complicated to have solved among the prior art intelligent house controller control, can only one-to-one control, the inconvenient problem of operation.

The invention adopts the following technical scheme for solving the technical problems:

an intelligent home control App comprises a top layer interface and a bottom layer control module, wherein the top layer interface comprises three parts, namely a monitoring data display unit, an electrical appliance control button unit and a new device networking button unit, the data monitoring display unit is used for displaying environmental data values collected by various sensors in a home, the electrical appliance control button unit is used for selectively controlling various electrical devices in a home network, and the new device networking button unit is used for performing networking configuration on new devices when the new devices are added into the home network; the bottom layer control module is used for processing control data of each electric appliance in the household equipment.

The new equipment network access button bottom layer control unit comprises a setting module, a display module, a background coding module and a data sending module, wherein the setting module is used for setting configuration data of the new network access household equipment, the background coding module is used for coding the configuration data when the new equipment is networked, and the data sending module is used for sending the coded data out in an ultrasonic mode.

The background coding module uses 12000Hz voice frequency as carrier wave, and codes the bytes to be transmitted according to a preset rule, wherein the preset rule specifically comprises the following steps:

the high level of n periods and the low level of n periods represent coding '0';

the high level of n cycles and the low level of 2n cycles represent the code '1';

the high level of n cycles and the low level of greater than or equal to 3n cycles represents the start of a new byte, where n is a positive integer.

The electric appliance control button unit comprises a bathroom heater, a curtain, a lamp and a monitoring button, each button is provided with an independent control flow, and when new equipment is connected to the network, the content of the control button unit of the top-layer interface is updated, and the corresponding control flow of the new equipment is updated.

The control flow of the bath heater is as follows:

step 1, clicking a bath heater control button of a top-level interface;

step 2, obtaining the information of the temperature and the gas concentration of the current bathroom;

step 3, judging whether the temperature of the current bathroom is greater than a preset upper temperature limit value, if so, turning off a heating device, otherwise, executing step 4;

step 4, starting a heating device, delaying for a preset time, and returning to execute the step 3;

step 5, judging whether the gas concentration of the current bathroom is greater than a preset gas concentration upper limit value or not, if so, executing step 6, otherwise, closing the ventilation device;

and 6, starting the ventilation device, delaying the preset time, and returning to execute the step 5.

The preset time in the step 4 is 5-10 minutes.

The preset time in the step 6 is 10-20 minutes.

The monitoring data display unit comprises temperature, humidity, gas concentration, brightness and PM2.5 values, wherein the temperature, the humidity and the PM2.5 values comprise the temperature, the humidity and the PM2.5 values in a living room, a bedroom and a bathroom, the brightness comprises the brightness of the living room and the bedroom, and the gas concentration comprises the gas concentration of the bathroom and a kitchen.

Compared with the prior art, the invention has the following beneficial effects:

1. the intelligent home control App can be downloaded and used on any intelligent terminal, can be installed on any number of intelligent terminals, solves the problem that a one-to-one controller can only be used for short-distance control in a limited area and cannot be used for remote control, and is more flexible and convenient to apply.

2. Monitoring data and home equipment control data are transmitted between the intelligent home control App and the intelligent home electrical equipment through a home wireless network, new equipment network access configuration data are transmitted in an ultrasonic mode, parameters can be transmitted to the new equipment without disconnecting the original network of the handheld terminal in the new equipment configuration process, the method is simple, and data transmission is stable and reliable.

3. According to the invention, a special intelligent home controller is not needed to operate the home appliances, so that the cost is effectively saved, and the man-machine interaction is more humanized.

4. And a simple and clear data communication protocol is adopted, so that the data transmission efficiency and accuracy are improved, and resources occupied in the encoding and decoding process are reduced.

Drawings

Fig. 1 is a simplified top-level interface diagram of the smart home App of the present invention.

Fig. 2 is a flow chart of configuration data transmission for new device to access the network.

FIG. 3 is a control flow chart of the bathroom heater of the present invention.

Detailed Description

The structure and operation of the present invention will be further described with reference to the accompanying drawings.

An intelligent home control App comprises a top layer interface and a bottom layer control module, wherein the top layer interface comprises three parts, namely a monitoring data display unit, an electrical appliance control button unit and a new device networking button unit, the data monitoring display unit is used for displaying environmental data values collected by various sensors in a home, the electrical appliance control button unit is used for selectively controlling various electrical devices in a home network, and the new device networking button unit is used for performing networking configuration on new devices when the new devices are added into the home network; the bottom layer control module is used for processing control data of each electric appliance in the household equipment.

In a first embodiment, as shown in figure 1,

the utility model provides an intelligence house control App, includes top layer interface and bottom control module, wherein, the top layer interface includes the triplex, is monitoring data display element, electrical apparatus control button unit, new equipment network access button unit respectively, and data monitoring display element is used for showing the environmental data value that each sensor gathered in the house, in this embodiment monitoring data display element includes temperature, humidity, gas concentration, luminance, PM2.5 value, and wherein, temperature, humidity, PM2.5 value include the temperature in sitting room, bedroom, the bathroom, humidity, PM2.5 value, and luminance includes the luminance in sitting room, bedroom, and gas concentration includes the gas concentration in bathroom, kitchen.

The electric appliance control button unit is used for selectively controlling each electric device in the home network, and the new device network access button unit is used for performing network access configuration on new devices when the new devices are added into the home network; the bottom layer control module is used for processing control data of each electric appliance in the household equipment. The electric appliance control button unit comprises a bathroom heater, a curtain, a lamp and a monitoring button, each button is provided with an independent control flow, when new equipment is connected to the network, the content of the control button unit of the top interface is updated, the data display unit is monitored, and the corresponding control flow of the new equipment is updated.

The new equipment network access button bottom layer control unit comprises a setting module, a display module, a background coding module and a data sending module, wherein the setting module is used for setting configuration data of the new network access household equipment, the background coding module is used for coding the configuration data when the new equipment is networked, and the data sending module is used for sending the coded data out in an ultrasonic mode.

The background coding module uses 12000Hz voice frequency as carrier wave, and codes the bytes to be transmitted according to a preset rule, wherein the preset rule specifically comprises the following steps:

the high level of n periods and the low level of n periods represent coding '0';

the high level of n cycles and the low level of 2n cycles represent the code '1';

the high level of n cycles and the low level of greater than or equal to 3n cycles represents the start of a new byte, where n is a positive integer.

In the second embodiment, as shown in fig. 2,

the configuration data setting process of the new device network access is as follows:

step 1, opening an intelligent home control App, and selecting a new equipment network access button;

step 2, setting a high level of 3 periods and a low level of 3 periods to represent coding '0', a high level of 3 periods and a low level of 6 periods to represent coding '1', a high level of 3 periods and a low level greater than or equal to 9 periods to represent the start of a new byte;

step 3, inputting configuration data of the new equipment through a keyboard input module;

step 4, the transmitting end encodes the configuration data in the step 3 according to the encoding rule of the step 2, and the encoded signal is a char type array;

and 5, calling a sound card drive to play the coded signals through a loudspeaker to generate modulated ultrasonic waves.

In the third embodiment,

the IP address of the transmitting device is taken as an example for explanation, and other parameter methods are the same.

If: the IP address of a newly-accessed video needs to be set to 192.168.2.100, the sampling frequency Fs of the sound card of the mobile phone is 48000Hz, the sound wave frequency Fv is 12000Hz, and the encoding process is as follows:

step 1, the binary coding of the IP address 192.168.2.100 is:

11000000101010000000001001100100, the transmission sequence is high first and low second.

Step 2, the encoding rule is as follows:

the high level of n periods and the low level of n periods represent coding '0'; the high level of n cycles and the low level of 2n cycles represent the code '1'; the high level of n cycles and the low level of 3n cycles or more represent the start of a new byte, where n takes the value 3 in this example;

the values of the sampling points can be formulated

k is the serial number of the sampling point, and for the convenience of subsequent calculation, the sampling frequency is as an integral multiple of the sound wave frequency as much as possible and is more than three times, in the example, the sampling frequency is 4 times of the sound wave frequency, the side value A can be any value, the high level is 100, and the low level is 10; the vocoding array of binary 1 is then:

{0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10}

the vocoded array of binary 0 is:

{0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10}

the vocoding array for the new byte start flag is:

{0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10}。

and 3, for binary data with low bits continuously being 0, directly sending a new byte start mark to transmit the next byte after the non-0 bit is transmitted.

And 4, directly replacing the corresponding bit of the binary code in the step 1 by the voice code of the bit obtained in the step 2 to obtain a final voice code array. In the example, the final vocoding array for the IP address is:

{0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-100,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10,0,100,0,-100,0,100,0,-100,0,100,0,-100,0,10,0,-10,0,10,0,-10,0,10,0,-10}

the data of the array is 189 cycles in total, and the data is played by a mobile phone power amplifier at a 48000Hz sampling rate for about 16 milliseconds. The data can be played circularly for several times in order to ensure that the terminal receives the data correctly.

In the fourth embodiment, as shown in fig. 3,

the control flow of the bath heater is as follows:

step 1, clicking a bath heater control button of a top-level interface;

step 2, obtaining the information of the temperature and the gas concentration of the current bathroom;

step 3, judging whether the temperature of the current bathroom is greater than a preset upper temperature limit value, if so, turning off a heating device, otherwise, executing step 4;

step 4, starting a heating device, delaying for a preset time, and returning to execute the step 3;

step 5, judging whether the gas concentration of the current bathroom is greater than a preset gas concentration upper limit value or not, if so, executing step 6, otherwise, closing the ventilation device;

and 6, starting the ventilation device, delaying the preset time, and returning to execute the step 5.

The time preset in the step 4 can be set to be 5-10 minutes according to the temperature condition of the bathroom.

The preset time in the step 6 is 10-20 minutes, the time is mainly considered as the time that a person uses the bathroom is at least 10 minutes after a general bathroom heater is started, and in order to effectively exhaust the gas in the bathroom, setting 10-20 minutes as a period is reasonably set.

The above embodiment is described by only using the bathroom heater as a home device control, and other device controls need to be modified by a bottom layer program, and different controls are performed according to different requirements.

In this embodiment, a mobile phone is used as the smart terminal to describe the specific scheme. The household equipment comprises monitoring equipment and control equipment, wherein the monitoring equipment can comprise a smoke alarm monitoring sensor, a gas monitoring sensor, a temperature and humidity detection sensor, a PM2.5 detection sensor, a brightness sensor and the like; the control equipment comprises a lamp switch controller, an air conditioner controller, a television controller, a dehumidifier humidifier controller, a bathroom heater controller and the like, all sensors are set at different positions of a home according to different requirements, and one or more sensors can be set to work simultaneously.

The intelligent terminal sends ultrasonic signals through the loudspeaker, and the intelligent home controller receives the ultrasonic signals through the microphone.

Claims (8)

1. The utility model provides an intelligence house control App which characterized in that: the system comprises a top-layer interface and a bottom-layer control module, wherein the top-layer interface comprises three parts, namely a monitoring data display unit, an electrical appliance control button unit and a new equipment network access button unit, the data monitoring display unit is used for displaying environment data values acquired by various sensors in a home, the electrical appliance control button unit is used for selectively controlling various electric equipment in the home network, and the new equipment network access button unit is used for performing network access configuration on new equipment when the new equipment is added into the home network; the bottom layer control module is used for processing control data of each electric appliance in the household equipment.

2. The smart home control App of claim 1, wherein: the new equipment network access button bottom layer control unit comprises a setting module, a display module, a background coding module and a data sending module, wherein the setting module is used for setting configuration data of the new network access household equipment, the background coding module is used for coding the configuration data when the new equipment is networked, and the data sending module is used for sending the coded data out in an ultrasonic mode.

3. The smart home control App of claim 2, wherein: the background coding module uses 12000Hz voice frequency as carrier wave, and codes the bytes to be transmitted according to a preset rule, wherein the preset rule specifically comprises the following steps:

the high level of n periods and the low level of n periods represent coding '0';

the high level of n cycles and the low level of 2n cycles represent the code '1';

the high level of n cycles and the low level of greater than or equal to 3n cycles represents the start of a new byte, where n is a positive integer.

4. The smart home control App of claim 1, wherein: the electric appliance control button unit comprises a bathroom heater, a curtain, a lamp and a monitoring button, each button is provided with an independent control flow, and when new equipment is connected to the network, the content of the control button unit of the top-layer interface is updated, and the corresponding control flow of the new equipment is updated.

5. The smart home control App of claim 5, wherein: the control flow of the bath heater is as follows:

step 1, clicking a bath heater control button of a top-level interface;

step 2, obtaining the information of the temperature and the gas concentration of the current bathroom;

step 3, judging whether the temperature of the current bathroom is greater than a preset upper temperature limit value, if so, turning off a heating device, otherwise, executing step 4;

step 4, starting a heating device, delaying for a preset time, and returning to execute the step 3;

step 5, judging whether the gas concentration of the current bathroom is greater than a preset gas concentration upper limit value or not, if so, executing step 6, otherwise, closing the ventilation device;

and 6, starting the ventilation device, delaying the preset time, and returning to execute the step 5.

6. The smart home control App of claim 5, wherein: the preset time in the step 4 is 5-10 minutes.

7. The smart home control App of claim 5, wherein: the preset time in the step 6 is 10-20 minutes.

8. The smart home control App of claim 1, wherein: the monitoring data display unit comprises temperature, humidity, gas concentration, brightness and PM2.5 values, wherein the temperature, the humidity and the PM2.5 values comprise the temperature, the humidity and the PM2.5 values in a living room, a bedroom and a bathroom, the brightness comprises the brightness of the living room and the bedroom, and the gas concentration comprises the gas concentration of the bathroom and a kitchen.

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