CN109375545B - Intelligent household induction control switch device and control method - Google Patents

Abstract

The invention relates to an intelligent household induction control switch device and a control method, wherein the switch device comprises a pressure sensor, a control panel, a control program, a variable resistor and a switch; the pressure sensor and the gravity sensor are connected with the control panel, the pressure sensor and the gravity sensor transmit received data to the control panel, the data are identified through a control program, and when the data detected by the pressure sensor reach an appointed threshold value, a control signal is sent to the switch; when the data detected by the gravity sensor reaches the appointed data identification, sending a control signal to the variable resistor; the variable resistor receives a control signal triggered by the gravity sensor and changes the size of the resistor; the switch receives a control signal triggered by the pressure sensor to realize the opening and closing of the switch. Its advantages are: the automatic control switch is turned on and off, so that the switch control is realized in an automatic mode, and the requirement of a user on the service time of the equipment is met.

Description

Intelligent household induction control switch device and control method

Technical Field

The invention relates to the technical field of lamp switch controllers, in particular to an intelligent household induction control switch device and a control method.

Background

Along with the development of science and technology, more and more intelligent house gets into people's life and goes, and for convenient control, the on-off control utensil will be installed to the intelligence house more.

The existing household lamp switch control device comprises a key type control switch, a voice control type control switch and a remote control type control switch. Both the key switch and the remote switch need to be actively operated by a user to carry out on-off control, which brings inconvenience to work and life, and meanwhile, energy waste and potential safety hazard can be caused by forgetting to turn off the switch due to human reasons; the voice-operated switch is automatically controlled to be closed in a time delay mode, so that the requirement of a user on the service time of the equipment cannot be met.

Chinese patent document CN201720955435.0, application date 20170802, with patent names: the utility model provides an intelligence house control switch, discloses an intelligence house control switch, relates to the thing networking field. Intelligence house control switch includes: the device comprises a shell, a touch display screen, a sensor system and a wireless communication unit; the menu interface comprises a temperature monitoring display module, a humidity monitoring display module, a fingerprint scanning identification module and a working equipment icon module; different modules are provided with different temperature, humidity and fingerprint sensors in the sensor system, the sensor system is connected with the internal intelligent integrated circuit, and the data are processed and then displayed on the touch display screen. The fingerprint scanning identification module is electrically connected with the sensor system, and the on-off condition of the working equipment on the menu interface is unlocked through fingerprint identification.

On the basis of completing the control of a common circuit, the technical sense is stronger, the functions are more complete, and the intelligent furniture control system is more suitable for pursuit of modern people on intelligent furniture. However, a technical solution for automatically controlling the on and off of the switch, which satisfies the switch control in an automatic manner and also satisfies the requirement of the user for the service time of the device, is not disclosed.

To sum up, what is needed is an intelligent household induction control switch device which automatically controls the switch on and off, satisfies the switch control in an automatic manner, and also satisfies the requirements of the user on the service time of the device. However, no report has been made on such a control switch device.

Disclosure of Invention

The invention aims to provide an intelligent household induction control switch device which can automatically control the switch to be turned on and off, can perform switch control in an automatic mode and can meet the requirement of a user on the service time of equipment, aiming at the defects in the prior art.

The invention further aims to provide a control method of the intelligent household induction control switch device.

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

an intelligent household induction control switch device comprises a pressure sensor, a control panel, a control program, a variable resistor and a switch; the pressure sensor and the gravity sensor are connected with the control panel, the pressure sensor and the gravity sensor transmit received data to the control panel, the data are identified through a control program, and when the data detected by the pressure sensor reach an appointed threshold value, a control signal is sent to the switch; when the data detected by the gravity sensor reaches the appointed data identification, sending a control signal to the variable resistor; the variable resistor receives a control signal triggered by the gravity sensor and changes the size of the resistor; the switch receives a control signal triggered by the pressure sensor to realize the opening and closing of the switch.

As a preferred technical solution, the pressure sensor is used for receiving pressure data and transmitting the data to the control board.

As a preferred technical scheme, the gravity sensor is used for receiving impact data and transmitting the data to the control panel.

As a preferred technical solution, the control program includes: a switch control program and a variable resistance control program; the control program sends signals through the control panel.

As a preferred technical scheme, when the switch is in a closed state, when the pressure sensor receives pressure data, the pressure data is transmitted to the control panel, whether the pressure data is greater than a threshold value is judged through a control program, and when the pressure data is greater than the threshold value, the control panel transmits a control signal to turn on the switch; when the switch is in an open state, the pressure sensor receives data and transmits the pressure data to the control panel, the control program judges that the pressure data is smaller than a threshold value, and when the pressure data is smaller than the threshold value, the control program continuously monitors the pressure sensor data for a certain time, and in the time, if the pressure sensor data is always kept in a state smaller than the threshold value, the control panel increases the variable resistance; otherwise, keeping the current state and canceling the monitoring of the pressure sensor; when the pressure sensor is in a monitoring state and the variable resistor is added, if the data of the pressure sensor is still kept in a state of being smaller than a threshold value, the control board transmits a control signal to close the switch and set the variable resistor to 0; the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the switch is turned on or not, and if the switch is turned off, the data are not processed; if the switch is turned on, whether the data accords with the appointed identification data or not is judged, and the variable resistor and the switch are controlled by a transmission signal corresponding to the identification data through a control panel transmission control signal.

In order to achieve the second object, the invention adopts the technical scheme that:

a control method of an intelligent household induction control switch device is characterized by comprising the following steps:

step S1, receiving pressure data through a pressure sensor, and opening or closing a switch by the pressure data and the appointed threshold value;

step S11, when the switch is in the closed state, when the pressure sensor receives the pressure data, the pressure data is transmitted to the control panel, whether the pressure data is larger than the threshold value is judged through the control program, and when the pressure data is larger than the threshold value, the control panel transmits a control signal to turn on the switch;

step S12, when the switch is in the open state, the pressure sensor receives the data and transmits the pressure data to the control panel, the control program judges that the pressure data is less than the threshold value, when the pressure data is less than the threshold value, the control program continuously monitors the pressure sensor data for a certain time, and in the time, if the pressure sensor data is always kept in the state of less than the threshold value, the control panel increases the variable resistance; otherwise, keeping the current state and canceling the monitoring of the pressure sensor;

step S2, receiving data through the gravity sensor, transmitting the data to the control panel, judging whether the switch is on by the control program, if the switch is off, the data is not processed; if the switch is turned on, whether the data accords with the appointed identification data or not is judged, and the variable resistor and the switch are controlled by a transmission signal corresponding to the identification data through a control panel transmission control signal.

As a preferable technical solution, in step S121, when the pressure sensor is in the monitoring state and has increased the variable resistance, if the pressure sensor data is still kept in a state less than the threshold value, the control board transmits a control signal to close the switch and set the variable resistance to 0.

As a preferred technical solution, the method includes step S21: the identification data in step S2 includes long press, single click, double click; the corresponding control signal: close the switch, increase the resistance, decrease the resistance.

As a preferred technical solution, step S21 specifically includes:

step S211, the identification data is long press: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data is greater than a threshold value, and when the data is greater than the threshold value, the control panel transmits a control signal to close the switch and simultaneously sets the variable resistor to be 0;

step S212, identifying data as single click: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data is stored in a threshold interval, and when the data is processed in the threshold interval, the control panel transmits a control signal to increase a variable resistor setting value;

step S213, identifying data as double click: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data are stored in the threshold interval, and when the data are processed in the threshold interval, the control panel transmits a control signal to reduce the set value of the variable resistor.

The invention has the advantages that:

1. according to the intelligent household induction control switch device and the control method, the switch is automatically controlled to be turned on and off, the switch control is carried out in an automatic mode, and meanwhile, the requirement of a user on the service time of equipment is met.

2. The pressure sensor and the gravity sensor are connected with the control board in a parallel mode. This design can realize satisfying through pressure sensor and gravity sensor and carry out on-off control through automatic mode, and pressure sensor is through the data with detecting and appointing the threshold value size, realizes automatic switch's opening and closure. The gravity sensor realizes the change of the resistance size by identifying the size of the detected data and the appointed data, and the purpose of the change of the resistance size is to serve the judgment of the size between the data detected by the pressure sensor and the appointed threshold value.

3. The switch is not required to be controlled manually, so that the safety is good; meanwhile, the whole process is triggered by the control signal, the transmission time is short, the switch can be controlled quickly and timely, the requirement of a user on the service time of the equipment is met, energy is saved, and time delay control is avoided, so that energy waste is caused.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent home induction control switch of the invention.

Fig. 2 is a schematic flow chart of the control of the switch state using a pressure sensor.

Fig. 3 is a schematic flow chart of the variable resistor controlled by the gravity sensor.

Detailed Description

The following detailed description of the present invention will be made with reference to the accompanying drawings.

The reference numerals and components referred to in the drawings are as follows:

101. pressure sensor 102. gravity sensor

103. Control panel 104. switch

105. Variable resistor 106 power supply

107. Indicator light

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent home induction control switch 104 according to the present invention. An intelligent household induction control switch device is characterized in that a switch 104 device comprises a pressure sensor 101, a control panel 103, a control program, a variable resistor 105 and a switch 104; the pressure sensor 101 and the gravity sensor 102 are connected with the control board 103, the pressure sensor 101 and the gravity sensor 102 transmit received data to the control board 103, recognize the data through a control program, and send a control signal to the switch 104 when the data detected by the pressure sensor 101 reaches an agreed threshold value; when the data detected by the gravity sensor 102 reaches the appointed data identification, a control signal is sent to the variable resistor 105; the variable resistor 105 receives a control signal triggered by the gravity sensor 102, and changes the size of the resistor; the switch 104 receives a control signal triggered by the pressure sensor 101 to realize opening and closing; the control panel 103 is provided with an indicator light 107.

The embodiment needs to be explained as follows:

the process of identifying data by the control program specifically includes two situations, one is that the control program starts the switch 104 and the control program identifies the data of the pressure sensor 101, and the other is that the control program starts the variable resistor 105 and the control program identifies the data of the gravity sensor 102.

The pressure sensor 101 is used for receiving pressure data and transmitting the data to the control board 103; the gravity sensor 102 is used for receiving impact data and transmitting the data to the control board 103.

The control panel 103 uses an arduino uno control panel 103; the control program is written by arduino uno, and comprises the following steps: a switch 104 control program and a variable resistor 105 control program. The control program sends signals through the control board 103.

The control is provided with an indicator light 107 for judging the connection of the control panel 103 and the power supply 106.

The pressure sensor 101 and the gravity sensor 102 are connected to the control board 103 in parallel. The design mode can realize that the switch 104 is controlled in an automatic mode through the pressure sensor 101 and the gravity sensor 102, and the pressure sensor 101 realizes the opening and closing of the automatic switch 104 through detected data and appointed threshold values. The gravity sensor 102 implements resistance sizing by identifying the size of the sensed data and the agreed data, and the purpose of the resistance sizing is to service the size determination between the data sensed by the pressure sensor 101 and the agreed threshold.

When the switch 104 is in a closed state, the pressure sensor 101 receives pressure data and transmits the pressure data to the control board 103, and the control board 103 transmits a control signal to turn on the switch 104 when the pressure data is judged to be greater than a threshold value through the control program.

When the switch 104 is in an open state, the pressure sensor 101 receives data and transmits the pressure data to the control board 103, the control program judges that the pressure data is smaller than a threshold value, and when the pressure data is smaller than the threshold value, the control program continuously monitors the data of the pressure sensor 101 for a certain time, and during the time, if the data of the pressure sensor 101 is always kept in a state of being smaller than the threshold value, the variable resistor 105 is added through the control board 103; otherwise, the current state is maintained and the pressure sensor 101 monitoring is cancelled.

When the pressure sensor 101 is in the monitoring state and has increased past the variable resistor 105, if the pressure sensor 101 data is still maintained in a state less than the threshold value, a control signal is transmitted through the control board 103 to close the switch 104 and set the variable resistor 105 to 0.

The gravity sensor 102 receives data and transmits the data to the control panel 103, the control program judges whether the switch 104 is on or not, and if the switch 104 is off, the data is not processed; if the switch 104 is turned on, it is determined whether the data conforms to the default identification data, and the transmission signal corresponding to the identification data is transmitted to the control board 103 via the control signal to control the variable resistor 105 and the switch 104.

The identification data includes: long press, single click, double click. The corresponding control signal: turn off, increase resistance, decrease resistance.

Long press: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data is greater than a threshold value, and when the data is greater than the threshold value, the control board 103 transmits a control signal to close the switch 104 and simultaneously set the variable resistor 105 to 0.

Clicking: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data exists in a threshold interval, and when the data is processed in the threshold interval, the control board 103 transmits a control signal to increase the setting value of the variable resistor 105.

Double clicking: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data exists in a threshold interval, and when the data is processed in the threshold interval, the control board 103 transmits a control signal to reduce the setting value of the variable resistor 105.

Example 2

The present embodiment is substantially the same as embodiment 1, but the difference is that the present embodiment provides a control method for an intelligent home sensing control switch device, please refer to fig. 2, and fig. 2 is a schematic flow chart of controlling a state of a switch 104 by using a pressure sensor 101. A control method of an intelligent household induction control switch device comprises the following steps:

step S1, receiving pressure data through the pressure sensor 101, and opening or closing the switch 104 by the pressure data and the appointed threshold value;

step S11, when the switch 104 is in the closed state, when the pressure sensor 101 receives the pressure data, the pressure data is transmitted to the control board 103, whether the pressure data is larger than the threshold value is judged through the control program, and when the pressure data is larger than the threshold value, the control board 103 transmits a control signal to turn on the switch 104;

step S12, when the switch 104 is in the open state, the pressure sensor 101 receives the data, the pressure data is transmitted to the control board 103, the control program judges that the pressure data is less than the threshold value, when the pressure data is less than the threshold value, the control program continuously monitors the pressure sensor 101 data for a certain time, and in the time, if the pressure sensor 101 data is always kept in the state of less than the threshold value, the control board 103 increases the variable resistor 105; otherwise, the current state is maintained and the pressure sensor 101 monitoring is cancelled.

Step S121, when the pressure sensor 101 is in the monitoring state and has increased the variable resistor 105, if the data of the pressure sensor 101 is still kept in the state smaller than the threshold value, the control board 103 transmits a control signal to close the switch 104 and set the variable resistor 105 to 0.

Referring to fig. 3, fig. 3 is a schematic flow chart illustrating the gravity sensor 102 controlling the variable resistor 105. Step S2, receiving data through the gravity sensor 102, transmitting the data to the control panel 103, judging whether the switch 104 is on or not by the control program, and if the switch 104 is off, not processing the data; if the switch 104 is turned on, it is determined whether the data conforms to the default identification data, and the transmission signal corresponding to the identification data is transmitted to the control board 103 via the control signal to control the variable resistor 105 and the switch 104.

The identification data in the step S21 and the step S2 comprise long press, single click and double click; the corresponding control signal: close switch 104, increase resistance, decrease resistance.

Step S211, the identification data is long press: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data is greater than a threshold value, and when the data is greater than the threshold value, the control board 103 transmits a control signal to close the switch 104 and simultaneously sets the variable resistor 105 to 0;

step S212, identifying data as single click: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data is stored in a threshold interval, and when the data is processed in the threshold interval, the control board 103 transmits a control signal to increase the setting value of the variable resistor 105;

step S213, identifying data as double click: when the switch 104 is in an open state, the gravity sensor 102 receives data and transmits the data to the control board 103, the control program judges whether the data exists in a threshold interval, and when the data is processed in the threshold interval, the control board 103 transmits a control signal to reduce the setting value of the variable resistor 105.

The embodiment needs to be explained as follows:

the invention provides a control method of an intelligent home induction control switch device, which realizes voltage control or the opening and closing of a switch 104 by adopting the data acquisition form of a pressure sensor 101 and a gravity sensor 102 and comparing the data with the appointed threshold value and identification data, and compared with the prior art, the control method has the advantages that the switch 104 is not required to be manually controlled, and the safety is good; meanwhile, the whole process is triggered by the control signal, the transmission time is short, the switch 104 can be controlled quickly and timely, the requirement of a user on the service time of the equipment is met, energy is saved, and energy waste caused by delay control is avoided.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and additions can be made without departing from the method of the present invention, and these modifications and additions should also be regarded as the protection scope of the present invention.

Claims (7)

1. The intelligent household induction control switch device is characterized by comprising a pressure sensor, a control panel, a control program, a variable resistor and a switch, wherein the variable resistor is connected with the switch in parallel; the pressure sensor and the gravity sensor are connected with the control panel, the pressure sensor and the gravity sensor transmit received data to the control panel, the data are identified through a control program, when the data detected by the pressure sensor reach an agreed threshold value, a control signal is sent to the switch, and the switch receives the control signal triggered by the pressure sensor to control the switch to be opened and closed;

the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the switch is turned on or not, and if the switch is turned off, the data are not processed; if the switch is turned on, judging whether the data accords with appointed identification data, and sending a control signal to the variable resistor when the data detected by the gravity sensor reaches the appointed identification data; the variable resistor receives a control signal triggered by the gravity sensor, and changes the size of the resistor, so that the switch is opened and closed; the identification data comprises long press, single click and double click, and the corresponding control signals are to close the switch, increase the resistance and reduce the resistance.

2. The smart home induction control switch device of claim 1, wherein the pressure sensor is configured to receive pressure data and transmit the data to the control board.

3. The smart home induction control switch device of claim 1, wherein the gravity sensor is configured to receive impact data and transmit the data to the control board.

4. The smart home induction control switch device of claim 1, wherein the control program comprises: a switch control program and a variable resistance control program; the control program sends signals through the control panel.

5. The intelligent home induction control switch device according to claim 1, wherein when the switch is in an off state, the pressure sensor receives pressure data, the pressure data is transmitted to the control board, whether the pressure data is greater than a threshold value is judged through the control program, and when the pressure data is greater than the threshold value, the control board transmits a control signal to turn on the switch; when the switch is in an open state, the pressure sensor receives data and transmits the pressure data to the control panel, the control program judges that the pressure data is smaller than a threshold value, and when the pressure data is smaller than the threshold value, the control program continuously monitors the pressure sensor data for a certain time, and in the time, if the pressure sensor data is always kept in a state smaller than the threshold value, the control panel increases the variable resistance; otherwise, keeping the current state and canceling the monitoring of the pressure sensor; when the pressure sensor is in a monitoring state and the variable resistor is added, if the data of the pressure sensor is still kept in a state of being less than the threshold value, the control board transmits a control signal to close the switch and set the variable resistor to 0.

6. A control method of an intelligent household induction control switch device is characterized by comprising the following steps:

step S1, receiving pressure data through a pressure sensor, and comparing the pressure data with an appointed threshold value to open or close a switch;

step S11, when the switch is in the closed state, when the pressure sensor receives the pressure data, the pressure data is transmitted to the control panel, whether the pressure data is larger than the threshold value is judged through the control program, and when the pressure data is larger than the threshold value, the control panel transmits a control signal to turn on the switch;

step S12, when the switch is in the open state, the pressure sensor receives the data, the pressure data is transmitted to the control panel, the control program judges that the pressure data is less than the threshold value, when the pressure data is less than the threshold value, the control program continuously monitors the pressure sensor data for a certain time, in the time, if the pressure sensor data is always kept in the state of less than the threshold value, the variable resistor is added by the control panel, the variable resistor is connected with the switch in parallel, if the variable resistor is added and the pressure sensor data is still always kept in the state of less than the threshold value, the control panel transmits a control signal to close the switch, and the variable resistor is set to 0; otherwise, keeping the current state and canceling the monitoring of the pressure sensor;

step S2, receiving data through the gravity sensor, transmitting the data to the control panel, judging whether the switch is on by the control program, if the switch is off, the data is not processed; if the switch is turned on, judging whether the data accords with appointed identification data, and when the data detected by the gravity sensor reaches the appointed identification data, transmitting a transmission signal corresponding to the identification data to control the variable resistor and the switch through a control panel transmission control signal; the identification data comprises long press, single click and double click, and the corresponding control signals are to close the switch, increase the resistance and reduce the resistance.

7. The control method of the intelligent home induction control switch device according to claim 6, wherein the step S21 specifically comprises:

step S211, the identification data is long press: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data is greater than a threshold value, and when the data is greater than the threshold value, the control panel transmits a control signal to close the switch and simultaneously sets the variable resistor to be 0;

step S212, identifying data as single click: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data is stored in a threshold interval, and when the data is processed in the threshold interval, the control panel transmits a control signal to increase a variable resistor setting value;

step S213, identifying data as double click: when the switch is in an open state, the gravity sensor receives data and transmits the data to the control panel, the control program judges whether the data are stored in the threshold interval, and when the data are processed in the threshold interval, the control panel transmits a control signal to reduce the set value of the variable resistor.

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