CN113848777A - Energy-saving emergency system and equipment control method - Google Patents

Abstract

The invention provides an energy-saving emergency system and a device control method, wherein the energy-saving emergency system comprises: the solar energy alarm system comprises a solar cell panel, an alarm prompting device, a sensor group, a water heater water storage tank, a condensate water storage tank and an energy storage battery which are connected with the solar cell panel, and an air conditioner, an illumination system and an air conditioner control system which are connected with the energy storage battery; the air conditioner control system is respectively connected with the condensed water storage tank, the alarm prompting device and the sensing group, and the condensed water storage tank is connected with the plurality of water utilization devices; when the air conditioner control system receives a water cut-off signal sent by the alarm prompting device, whether a valve of a condensate water storage tank is opened to supply water for the water using device is determined according to a detection signal of the sensor group; when the air conditioner control system receives the power failure signal sent by the alarm prompting device, whether the energy storage battery is controlled to supply power to the lighting system and the air conditioner or not is determined according to the detection signal of the sensor group, and the normal life of residents can be guaranteed when water and power are cut off while energy is saved.

Description

Energy-saving emergency system and equipment control method

Technical Field

The invention relates to the technical field of control, in particular to an energy-saving emergency system and an equipment control method.

Background

Water and power outages are common events in daily life, especially in hot summer months. During peak periods of water and electricity consumption, water and power failure are easy to happen. When water and power are cut off, the normal life of residents can be influenced, so how to guarantee the normal life of residents when water and power are cut off is a problem to be solved urgently.

Disclosure of Invention

In view of this, the embodiment of the invention provides an energy-saving emergency system and an equipment control method, so as to ensure normal life of residents during water and power cut.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

the first aspect of the embodiment of the invention discloses an energy-saving emergency system, which comprises: the solar energy alarm system comprises a solar cell panel, an alarm prompting device, a sensor group, a water heater water storage tank, a condensate water storage tank and an energy storage battery which are connected with the solar cell panel, and an air conditioner, an illumination system and an air conditioner control system which are connected with the energy storage battery;

the air conditioner control system is respectively connected with the condensed water storage tank, the alarm prompting device and the sensor group, and the condensed water storage tank is connected with a plurality of water utilization devices;

the solar cell panel is used for absorbing solar energy, utilizing the absorbed solar energy, heating and insulating water in the water storage tank of the water heater and the condensed water storage tank, and charging the energy storage battery;

the condensed water storage tank is used for collecting condensed water generated during refrigeration of the air conditioner;

the energy storage battery is used for continuously supplying power to the air conditioner control system;

the air conditioner control system is used for opening a valve of the condensed water storage tank to supply water to the water using device if a person activity signal is detected by a first sensor in the sensor group when a water cut-off signal sent by the alarm prompting device is received; when a power failure signal sent by the alarm prompting device is received, if a personnel activity signal is detected by the first sensor and the brightness of light detected by the second sensor in the sensor group is smaller than a brightness threshold value, the energy storage battery is controlled to supply power to the lighting system; when receiving the power failure signal that warning suggestion device sent, if utilize personnel's activity signal is detected to first sensor, and utilize the third sensor in the sensor group detects that indoor temperature is higher than the temperature threshold value, control the energy storage battery is for the air conditioner power supply.

Preferably, the alarm prompting device at least comprises a fourth sensor and a fifth sensor;

the fourth sensor is used for detecting the pressure of the water meter;

the fifth sensor is used for detecting the voltage of the electric meter.

Preferably, the first sensor is an image infrared sensor, the second sensor is a brightness sensor, and the third sensor is a temperature sensor.

Preferably, the image infrared sensor is arranged on the air conditioner.

Preferably, the plurality of water usage devices includes at least a wash basin and a toilet.

Preferably, the air conditioning control system is further configured to:

and when the water cut-off signal sent by the alarm prompting device is received, if the first sensor does not detect the personnel activity signal, the water cut-off signal is invalid.

Preferably, the air conditioning control system is further configured to:

when the power failure signal sent by the alarm prompting device is received, if the first sensor is utilized to not detect the personnel activity signal, the power failure signal is invalid.

The second aspect of the embodiment of the present invention discloses an apparatus control method, which is applied to the energy-saving emergency system disclosed in the first aspect of the embodiment of the present invention, and the method includes:

receiving an alarm signal sent by an alarm prompting device, wherein the alarm signal is a water cut-off signal or a power cut-off signal;

when the alarm signal is a water cut-off signal, if a first sensor in the sensor group detects a personnel activity signal, a valve of the condensed water storage tank is opened to supply water for the water using device;

when the alarm signal is a power failure signal, if a first sensor in a sensor group detects a personnel activity signal, and a second sensor in the sensor group detects that the light brightness is smaller than a brightness threshold value, controlling an energy storage battery to supply power to a lighting system;

when the alarm signal is a power failure signal, if a first sensor in the sensor group detects a personnel activity signal, a third sensor in the sensor group detects that the indoor temperature is higher than a temperature threshold value, and the energy storage battery is controlled to supply power to the air conditioner.

Preferably, the method further comprises:

and when the alarm signal is a water cut-off signal, if the first sensor does not detect a personnel activity signal, the water cut-off signal is invalid.

Preferably, the method further comprises:

when the alarm signal is a power failure signal, if the first sensor is utilized to not detect a personnel activity signal, the power failure signal is invalid.

Based on the above energy-saving emergency system and the equipment control method provided by the embodiment of the invention, the energy-saving emergency system comprises: the solar energy alarm system comprises a solar cell panel, an alarm prompting device, a sensor group, a water heater water storage tank, a condensate water storage tank and an energy storage battery which are connected with the solar cell panel, and an air conditioner, an illumination system and an air conditioner control system which are connected with the energy storage battery; the air conditioner control system is respectively connected with the condensed water storage tank, the alarm prompting device and the sensing group, and the condensed water storage tank is connected with the plurality of water utilization devices; when the air conditioner control system receives a water cut-off signal sent by the alarm prompting device, whether a valve of a condensate water storage tank is opened to supply water for the water using device is determined according to a detection signal of the sensor group; and when the air conditioner control system receives a power failure signal sent by the alarm prompting device, whether the energy storage battery is controlled to supply power to the lighting system and the air conditioner or not is determined according to the detection signal of the sensor group. The condensed water generated by the refrigeration of the air conditioner is collected through the condensed water storage tank to be used as a standby water source during water cut-off, and the energy storage battery charged by solar energy is used as a standby power supply during power cut-off, so that the energy is saved, and the normal life of residents can be guaranteed during the water cut-off and the power cut-off.

Drawings

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

Fig. 1 is a block diagram of an energy-saving emergency system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a working logic of the energy-saving emergency system according to the embodiment of the present invention;

fig. 3 is a flowchart of an apparatus control method according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In this application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

As known from the background art, the situations of water cut-off and power cut-off easily occur during peak periods of water use and power utilization, which can seriously affect the normal life of residents, and therefore how to guarantee the normal life of residents during water cut-off and power cut-off is a problem to be solved urgently today.

Therefore, the embodiment of the invention provides an energy-saving emergency system and an equipment control method, wherein condensed water generated by refrigeration of an air conditioner is collected by a condensed water storage tank to be used as a standby water source during water cut, and an energy storage battery charged by solar energy is used as a standby power source during power cut. When the air-conditioning control system receives a water cut-off signal sent by the alarm prompting device, whether a valve of the condensed water storage tank is opened or not is determined according to a detection signal of the sensor group to supply water for the water using device, and when the air-conditioning control system receives a power cut-off signal sent by the alarm prompting device, whether the energy storage battery is controlled to supply power for the lighting system and the air conditioner or not is determined according to the detection signal of the sensor group, so that energy is saved, and meanwhile, normal life of residents can be guaranteed when the water and the power are cut off.

Referring to fig. 1, a block diagram of an energy-saving emergency system according to an embodiment of the present invention is shown, where the energy-saving emergency system includes: the system comprises a solar panel 100, an alarm prompting device 200, a sensor group 300, a water heater water storage tank 400, a condensed water storage tank 500, an energy storage battery 600, an air conditioner 700, an illuminating system 800 and an air conditioner control system 900;

the solar cell panel 100 is respectively connected with the water heater water storage tank 400, the condensed water storage tank 500 and the energy storage battery 600, the energy storage battery 600 is respectively connected with the air conditioner 700, the lighting system 800 and the air conditioner control system 900, the air conditioner control system 900 is respectively connected with the condensed water storage tank 500, the alarm prompting device 200 and the sensor group 300, and the condensed water storage tank 500 is connected with a plurality of water using devices.

In some embodiments, the plurality of water consuming devices includes at least a hand washing station and a toilet, i.e., the condensate reservoir 500 may serve as a backup source for the water consuming devices, i.e., the condensate reservoir 500 may supply water to the water consuming devices.

The solar cell panel 100 (hereinafter, referred to as a solar cell panel) is configured to absorb solar energy and use the absorbed solar energy to heat and insulate water in the water storage tank 400 (hereinafter, referred to as a water storage tank of a water heater) and the condensate water storage tank 500 (hereinafter, referred to as a condensate water storage tank), and to charge the energy storage battery 600 (hereinafter, referred to as an energy storage battery).

It can be understood that the water storage tank of the water heater is a water storage device of the solar water heater, water in the water storage tank of the water heater can be heated by solar energy (a power supply can also be used at the same time), and the water storage tank of the water heater and the solar cell panel can be installed on the solar water heater (the installation position can also be adjusted according to actual conditions).

It should be noted that the air conditioner 700 generates and discharges condensate water during cooling, and the condensate water generated during cooling of the air conditioner 700 may be collected by the condensate water storage tank, and specifically, the condensate water discharged from the air conditioner 700 is collected in the condensate water storage tank by the drainage device and the filtering sterilization device.

In some embodiments, the solar panel absorbs solar energy and uses a portion of the absorbed solar energy to heat and preserve water in the water heater reservoir, and uses a portion of the energy to heat and preserve water in the condensed water reservoir, and uses a portion of the energy to charge the energy storage cell (large energy storage cell). That is, the solar energy absorbed by the solar cell panel can heat and preserve the water in the water storage tank of the water heater and the condensed water storage tank, and part of the energy of the absorbed solar energy can be stored in the energy storage battery.

And a condensed water storage tank for collecting condensed water generated when the air conditioner 700 (hereinafter, referred to as an air conditioner) is cooled.

Therefore, the condensed water storage tank can collect the condensed water generated during the refrigeration of the air conditioner, and the collected condensed water is used as a standby water source.

And the energy storage battery is used for continuously supplying power to the air conditioner control system 900 (hereinafter referred to as the air conditioner control system).

In a specific implementation, the energy storage battery continuously supplies power to the air conditioner control system, so that the air conditioner control system is continuously powered.

The air conditioner control system is used for opening a valve of the condensed water storage tank to supply water for the water using device when a water stopping signal sent by the alarm prompting device 200 (hereinafter referred to as an alarm prompting device) is received and if a person activity signal is detected by a first sensor in the sensor group 300 (hereinafter referred to as a sensor group); when a power failure signal sent by the alarm prompting device is received, if a person activity signal is detected by using a first sensor and the brightness of light detected by using a second sensor in the sensor group is smaller than a brightness threshold value, controlling an energy storage battery to supply power to the lighting system 800 (hereinafter referred to as a lighting system for short); when a power failure signal sent by the alarm prompting device is received, if a personnel activity signal is detected by the first sensor and the indoor temperature detected by the third sensor in the sensor group is higher than the temperature threshold value, the energy storage battery is controlled to supply power to the air conditioner.

In some embodiments, the sensor group comprises a first sensor, a second sensor and a third sensor, wherein the first sensor is an image infrared sensor, the second sensor is a brightness sensor, and the third sensor is a temperature sensor.

In some embodiments, the image infrared sensor is disposed on the air conditioner.

In some embodiments, the alarm prompting device comprises at least a fourth sensor and a fifth sensor, wherein the fourth sensor is used for detecting the pressure of the water meter, and the fifth sensor is used for detecting the voltage of the electric meter. The fourth sensor can detect whether water is cut off or not, and the fifth sensor can detect whether power is cut off or not.

In a specific implementation, the alarm prompting device detects whether the house is powered off by using the fourth sensor, and sends a water-off signal to the air-conditioning control system when the house is detected to be powered off. The alarm prompting device detects whether the house has power failure by using the fifth sensor, and sends a power failure signal to the air-conditioning control system when the house has power failure.

And after receiving the water cut-off signal and/or the power cut-off signal sent by the alarm prompting device, the air conditioner control system starts a first sensor in the sensor group to detect whether a person moves in the house or not.

When the air conditioner control system detects a personnel activity signal (indicating that personnel activity exists in a house) through the first sensor, the air conditioner control system sends a control signal to the condensed water storage tank under the condition of receiving a water stop signal sent by the alarm prompting device, a valve of the condensed water storage tank is opened to supply water for the water using device, namely, part of water in the condensed water storage tank is supplied for a washbasin (for washing hands and rinsing mouths) and part of water in the condensed water storage tank is supplied for a closestool.

When the air conditioner control system detects a personnel activity signal (indicating that personnel activity exists in a house) through the first sensor, under the condition of receiving a power failure signal sent by the alarm prompting device, the air conditioner control system controls the brightness sensor (the second sensor) and the temperature sensor (the third sensor) to work, detects the light brightness in the house through the brightness sensor, and detects the indoor temperature in the house through the temperature sensor. When the detected light brightness is larger than or equal to the brightness threshold, the lighting system is not needed to be used, and at the moment, the air conditioning control system does not control the energy storage battery to supply power to the lighting system; when the detected indoor temperature is not higher than the temperature threshold value, the air conditioner control system does not control the energy storage battery to supply power to the air conditioner.

In some embodiments, the air conditioning control system disables the water cut-off signal if the first sensor does not detect the human activity signal (i.e., no human is present in the room) upon receiving the water cut-off signal from the alarm prompting device. When the air conditioner control system receives the power failure signal sent by the alarm prompting device, if the first sensor does not detect the personnel activity signal, the power failure signal is invalid.

In the embodiment of the invention, the condensed water generated by the refrigeration of the air conditioner is collected by the condensed water storage tank to be used as a standby water source during the water cut, and the energy storage battery charged by solar energy is used as a standby power source during the power cut. And when the air conditioner control system receives the water cut-off signal and detects a personnel activity signal, the condensed water storage tank is controlled to supply water for the water using device. When the air conditioner control system receives a power failure signal and detects a personnel activity signal, the energy storage battery is controlled to supply power to the lighting system under the condition that the detected light brightness is smaller than a brightness threshold value, and the energy storage battery is controlled to supply power to the air conditioner under the condition that the detected indoor temperature is higher than a temperature threshold value. The energy is saved, and the normal life of residents can be guaranteed when water and power are cut off.

To better explain the working principle of the energy-saving emergency system provided in fig. 1 of the above embodiment of the present invention, the working logic diagram of the energy-saving emergency system shown in fig. 2 is used for illustration, and it should be noted that fig. 2 is only used for example, and the following contents are detailed:

in fig. 2, the condensed water generated during the refrigeration of the air conditioner is stored in the condensed water storage tank through the drainage device and the filtering and sterilizing device. The solar cell panel absorbs solar energy, heats and preserves heat of the absorbed partial energy, the partial energy is stored in the energy storage battery, and the partial energy heats and preserves heat of water in the water storage tank of the water heater. The energy storage battery continuously supplies power for the air conditioner control system.

When the air conditioner control system receives a water cut-off signal of the alarm prompting device, an image infrared sensor arranged on the air conditioner (such as an air conditioner indoor unit) is started to detect whether a person moves in a house; when the personnel activity signal is detected, the air conditioning control system sends a control signal to the condensed water storage tank, and a valve of the condensed water storage tank is opened to supply water for the wash basin and the closestool; when the person activity signal is not detected, the air conditioning control system deactivates the water shut down signal.

When the air conditioner control system receives a power failure signal of the alarm prompting device, an image infrared sensor arranged on the air conditioner is started to detect whether a person moves in a house or not; when the personnel activity signal is detected, detecting the light brightness in the house by using a brightness sensor, and detecting the indoor temperature in the house by using a temperature sensor; when the brightness of the light is smaller than the brightness threshold, the air-conditioning control system controls the energy storage battery to supply power to the lighting system, and when the indoor temperature is higher than the temperature threshold, the air-conditioning control system controls the energy storage battery to supply power to the air conditioner; when the person activity signal is not detected, the air conditioning control system deactivates the power outage signal.

Corresponding to the energy-saving emergency system provided in the embodiment of the present invention, referring to fig. 3, an embodiment of the present invention further provides a flowchart of an apparatus control method, where the apparatus control method is applicable to the energy-saving emergency system in the embodiment of the present invention, and the apparatus control method includes:

step S301: and the air conditioner control system receives the alarm signal sent by the alarm prompting device.

It should be noted that the alarm signal is a water cut signal or a power cut signal.

Step S302: when the alarm signal is a water cut-off signal, if the air-conditioning control system detects a personnel activity signal by using a first sensor in the sensor group, the air-conditioning control system opens a valve of the condensed water storage tank to supply water for the water using device.

Step S303: when the alarm signal is a power failure signal, if the air-conditioning control system detects a personnel activity signal by using a first sensor in the sensor group, the air-conditioning control system controls the energy storage battery to supply power to the lighting system under the condition that the second sensor in the sensor group detects that the light brightness is smaller than the brightness threshold value.

Step S304: when the alarm signal is a power failure signal, if the air conditioner control system detects a personnel activity signal by using a first sensor in the sensor group, the air conditioner control system controls the energy storage battery to supply power to the air conditioner under the condition that a third sensor in the sensor group detects that the indoor temperature is higher than a temperature threshold value.

Preferably, when the alarm signal is a water cut-off signal, if the air-conditioning control system does not detect the personnel activity signal by using the first sensor, the water cut-off signal is disabled.

Preferably, when the alarm signal is a power failure signal, if the air conditioner control system does not detect the personnel activity signal by using the first sensor, the power failure signal is disabled.

It should be noted that, the execution principle in step S301 to step S304 has been described in detail in the foregoing for the energy-saving emergency system, and is not described herein again.

In the embodiment of the invention, the condensed water generated by the refrigeration of the air conditioner is collected by the condensed water storage tank to be used as a standby water source during the water cut, and the energy storage battery charged by solar energy is used as a standby power source during the power cut. And when the air conditioner control system receives the water cut-off signal and detects a personnel activity signal, the condensed water storage tank is controlled to supply water for the water using device. When the air conditioner control system receives a power failure signal and detects a personnel activity signal, the energy storage battery is controlled to supply power to the lighting system under the condition that the detected light brightness is smaller than a brightness threshold value, and the energy storage battery is controlled to supply power to the air conditioner under the condition that the detected indoor temperature is higher than a temperature threshold value. The energy is saved, and the normal life of residents can be guaranteed when water and power are cut off.

In summary, embodiments of the present invention provide an energy saving emergency system and an apparatus control method, in which condensed water generated by refrigeration of an air conditioner is collected by a condensed water storage tank to serve as a backup water source during water cut, and an energy storage battery charged by solar energy is used as a backup power source during power cut. When the air-conditioning control system receives a water cut-off signal sent by the alarm prompting device, whether a valve of the condensed water storage tank is opened or not is determined according to a detection signal of the sensor group to supply water for the water using device, and when the air-conditioning control system receives a power cut-off signal sent by the alarm prompting device, whether the energy storage battery is controlled to supply power for the lighting system and the air conditioner or not is determined according to the detection signal of the sensor group, so that energy is saved, and meanwhile, normal life of residents can be guaranteed when the water and the power are cut off.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An energy saving emergency system, the system comprising: the solar energy alarm system comprises a solar cell panel, an alarm prompting device, a sensor group, a water heater water storage tank, a condensate water storage tank and an energy storage battery which are connected with the solar cell panel, and an air conditioner, an illumination system and an air conditioner control system which are connected with the energy storage battery;

the air conditioner control system is respectively connected with the condensed water storage tank, the alarm prompting device and the sensor group, and the condensed water storage tank is connected with a plurality of water utilization devices;

the solar cell panel is used for absorbing solar energy, utilizing the absorbed solar energy, heating and insulating water in the water storage tank of the water heater and the condensed water storage tank, and charging the energy storage battery;

the condensed water storage tank is used for collecting condensed water generated during refrigeration of the air conditioner;

the energy storage battery is used for continuously supplying power to the air conditioner control system;

the air conditioner control system is used for opening a valve of the condensed water storage tank to supply water to the water using device if a person activity signal is detected by a first sensor in the sensor group when a water cut-off signal sent by the alarm prompting device is received; when a power failure signal sent by the alarm prompting device is received, if a personnel activity signal is detected by the first sensor and the brightness of light detected by the second sensor in the sensor group is smaller than a brightness threshold value, the energy storage battery is controlled to supply power to the lighting system; when receiving the power failure signal that warning suggestion device sent, if utilize personnel's activity signal is detected to first sensor, and utilize the third sensor in the sensor group detects that indoor temperature is higher than the temperature threshold value, control the energy storage battery is for the air conditioner power supply.

2. The system of claim 1, wherein the alarm prompting device comprises at least a fourth sensor and a fifth sensor;

the fourth sensor is used for detecting the pressure of the water meter;

the fifth sensor is used for detecting the voltage of the electric meter.

3. The system of claim 1, wherein the first sensor is an image infrared sensor, the second sensor is a brightness sensor, and the third sensor is a temperature sensor.

4. The system of claim 3, wherein the image infrared sensor is disposed on the air conditioner.

5. The system of claim 1, wherein the plurality of water consuming devices includes at least a hand washing station and a toilet.

6. The system of claim 1, wherein the climate control system is further configured to:

and when the water cut-off signal sent by the alarm prompting device is received, if the first sensor does not detect the personnel activity signal, the water cut-off signal is invalid.

7. The system of claim 1, wherein the climate control system is further configured to:

when the power failure signal sent by the alarm prompting device is received, if the first sensor is utilized to not detect the personnel activity signal, the power failure signal is invalid.

8. An equipment control method, wherein the method is applied to the energy-saving emergency system according to any one of claims 1 to 7, and the method comprises:

receiving an alarm signal sent by an alarm prompting device, wherein the alarm signal is a water cut-off signal or a power cut-off signal;

when the alarm signal is a water cut-off signal, if a first sensor in the sensor group detects a personnel activity signal, a valve of the condensed water storage tank is opened to supply water for the water using device;

when the alarm signal is a power failure signal, if a first sensor in a sensor group detects a personnel activity signal, and a second sensor in the sensor group detects that the light brightness is smaller than a brightness threshold value, controlling an energy storage battery to supply power to a lighting system;

when the alarm signal is a power failure signal, if a first sensor in the sensor group detects a personnel activity signal, a third sensor in the sensor group detects that the indoor temperature is higher than a temperature threshold value, and the energy storage battery is controlled to supply power to the air conditioner.

9. The method of claim 8, further comprising:

and when the alarm signal is a water cut-off signal, if the first sensor does not detect a personnel activity signal, the water cut-off signal is invalid.

10. The method of claim 8, further comprising:

when the alarm signal is a power failure signal, if the first sensor is utilized to not detect a personnel activity signal, the power failure signal is invalid.

Images