CN105573287A - Energy control method based on wireless signal and energy control system thereof - Google Patents

Abstract

The invention provides an energy control method based on a wireless signal and an energy control system thereof. The energy control method comprises the steps that a wireless signal receiving device in an energy control area receives and captures the wireless signal transmitted by a portable wireless signal transmitting device; and the wireless signal receiving device judges matching of personnel identity information entering the energy control area, and energy control is performed according to the matching result. When the receiving device receives the wireless signal of portable equipment, a situation that someone moves indoor is determined, and an energy saving mode is turned off; and when the wireless signal of the receiving device and the portable equipment is disconnected, a situation that nobody moves indoor is determined, and the energy saving mode is turned on. According to the method, existing mobile communication equipment and routers can be utilized so that hardware cost and deployment and construction cost can be saved, the energy saving mode can be automatically turned on and thus user experience is great.

Description

Energy control method based on wireless signal and energy control system thereof

Technical Field

The invention relates to an energy control method and an energy control system method based on wireless signals, belonging to the field of intelligent energy control, the technical field of energy conservation and environmental protection and the field of intelligent home furnishing.

Background

At present, energy control of existing hotels, residents and the like is generally realized by a card-inserting type processing mode, and due to the appearance of an intelligent door lock, a user can unlock the lock through personal mobile communication equipment or password or fingerprint information without swiping a card, so that the invention hopes to provide a system and a method for realizing energy control without inserting a card, and the system and the method can realize power supply of the mobile communication equipment of the user within a preset distance and stop when the mobile communication equipment of the user exceeds the preset distance or is disconnected from a terminal.

Disclosure of Invention

The invention aims to overcome the defects and provides an energy control method based on wireless signals and an energy control system thereof, and the adopted technical scheme is as follows:

an energy control method based on wireless signals comprises the following steps:

a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device;

the wireless signal receiving device judges whether the identity information of the personnel entering the energy control area is matched or not, and performs energy control according to the matching result.

Further, the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched, and the energy control according to the matching result comprises the following steps: the wireless signal receiving device judges whether the identity information of the personnel entering the area is matched, if the identity information is matched, a signal is sent to the energy control system, the energy-saving mode is closed, and the energy is started; and if the identity information is not matched, sending a signal to the energy control system, opening an energy-saving mode, and closing the energy equipment or setting the energy equipment to be in low power consumption or standby.

Based on the method, the method further comprises the following steps:

when the portable wireless signal transmitting device leaves the range of the control area, the connection between the wireless signal receiving device arranged in the area and the portable wireless signal transmitting device is disconnected, and the wireless signal receiving device stops receiving and capturing the wireless signals transmitted by the portable wireless signal transmitting device; the wireless signal receiving device judges that the portable wireless signal transmitting device leaves the area, sends a signal to the energy control system, opens the energy-saving mode, and closes the energy equipment or sets the energy equipment to be in low power consumption or standby.

Further, the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched, and the energy control according to the matching result further comprises: when the identity information is not matched, a signal is sent to the energy control system, the energy-saving mode is opened, the energy equipment is closed or set to be in low power consumption or standby, and meanwhile alarm information is generated to give an alarm.

Further, the portable wireless signal transmitting device comprises a mobile communication device; the wireless signal receiving device is a Bluetooth receiving module or a WiFi router.

In another embodiment, the method comprises: a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device; the wireless receiving device is a WiFi router;

the wireless signal transmitting device is matched and connected with the wireless signal receiving device in a mode of combining application layer identity authentication information or a physical address with the authentication information; performing energy control according to the matching result;

the energy control according to the matching result comprises the following steps: when the application layer identity authentication information or the physical address is matched with the authentication information, sending a signal to an energy control system, closing an energy-saving mode and starting energy; and when the identity information is not matched, sending a signal to the energy control system, opening the energy-saving mode, and closing the energy equipment or setting the energy equipment to be in low power consumption or standby.

In another embodiment, the method comprises:

a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device; the wireless receiving device is a Bluetooth module;

the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched or not, and performs energy control according to the matching result;

the energy control according to the matching result comprises the following steps: the Bluetooth module and the built-in Bluetooth of the portable wireless signal transmitting device carry out authority authentication, a Bluetooth secret key of the Bluetooth module is matched and verified with a Bluetooth secret key in the portable wireless signal transmitting device during authentication, and when the verification shows that the portable Bluetooth secret key is legal, a signal is sent to an energy control system, an energy-saving mode is closed, and energy is started; when the Bluetooth secret key of the portable wireless signal transmitting device is verified to be illegal, a signal is sent to the energy control system, the energy-saving mode is opened, and the energy equipment is closed or set to be in low power consumption or standby;

when the Bluetooth module is disconnected with the portable wireless signal transmitting device, the energy-saving mode of the energy control system is started, and the energy equipment is turned off or set to be in low power consumption or standby.

The invention also provides an energy control system based on wireless signals, which comprises: the portable wireless signal transmitting device, the wireless signal receiving device and the energy control module;

wherein,

the portable wireless signal transmitting device comprises mobile communication equipment;

the wireless signal receiving device is a Bluetooth receiving module or a WiFi router;

the energy control module is formed by sequentially connecting a signal processing unit, an execution unit and a circuit switching control device or an intelligent switch, wherein the signal processing unit receives and processes signals from the wireless signal receiving device and sends the processed signals to the execution unit, and the execution unit controls the circuit switching control device or the intelligent switch to turn on or turn off an energy-saving mode.

Further, the mobile communication device comprises a mobile terminal such as a mobile phone, a pad, a smart watch or a smart bracelet.

Furthermore, the energy control system also comprises an alarm module, when the matching result is that the personnel identity information is not matched, the alarm module sends a signal to the energy control system, the energy-saving mode is opened, the energy equipment is closed or set to be in low power consumption or standby, and meanwhile the alarm module is controlled to alarm.

The energy control method based on the wireless signals is characterized in that a wireless signal receiving device for receiving the wireless signals of the portable equipment is arranged indoors through the wireless signals of the portable wireless signal transmitting equipment of a user (such as WIFI signals or Bluetooth signals of mobile terminals of a mobile phone, a pad, a smart watch, a smart bracelet and the like) (if the WIFI signals of the mobile phone are used, WIFI routing equipment can be reused, and a receiver does not need to be additionally arranged). When the wireless signal receiving device receives a wireless signal (normally connected) of the portable equipment, the indoor personnel activity is judged, and the energy-saving mode is closed; when the wireless signal receiving device is disconnected with the wireless signal of the portable equipment, the indoor unmanned activity is judged, and the energy-saving mode is started. Compared with the traditional manual or magnetic card type energy-saving control method, the realization has the following advantages:

1) WIFI signals or Bluetooth signals of the mobile communication terminal can be used as wireless signals of the method, additional card issuing is not needed for a user, and hardware cost and card management cost of the card issuing are saved.

2) If the service environment has WIFI routing equipment, a receiver does not need to be additionally arranged, and hardware cost and arrangement construction cost are saved. The energy-saving mode and the non-energy-saving mode are switched without manual operation or card insertion (card pulling) of a user, the user enters an area, the energy-saving mode is automatically closed, the user leaves the area, the energy-saving mode is automatically opened, and the user experience is good.

Drawings

FIG. 1 is a schematic diagram of a wireless signal-based energy control method according to the present application;

fig. 2 is a schematic structural diagram of the wireless signal-based energy control system of the present application;

FIG. 3 is a schematic diagram of an embodiment of the wireless signal-based energy control method of the present application;

FIG. 4 is a schematic diagram of an embodiment of the wireless signal-based energy control method of the present application;

fig. 5 is a schematic structural diagram of an energy control module of the wireless signal-based energy control system according to the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

FIG. 1 is a schematic diagram of a wireless signal-based energy control method according to the present application; as shown in the figure: an energy control method based on wireless signals comprises the following steps:

a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device; the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched or not, and carries out energy control according to the matching result, comprising the following steps: the wireless signal receiving device judges whether the identity information of the personnel entering the area is matched, if the identity information is matched, a signal is sent to the energy control system, the energy-saving mode is closed, and the energy is started; if the identity information is not matched, a signal is sent to the energy control module, the energy-saving mode is started, and the energy equipment is closed or set to be in low power consumption or standby. When the receiving device receives the wireless signal of the portable equipment, the indoor personnel activity is judged, and the energy-saving mode is closed; when the wireless signal of the receiving device and the portable equipment is disconnected, the indoor unmanned activity is judged, and the energy-saving mode is started. The method can save hardware cost and deployment construction cost by utilizing the existing mobile communication equipment and router, automatically starts the energy-saving mode, and has good user experience.

Fig. 2 is a schematic structural diagram of the wireless signal-based energy control system of the present application; as shown in the figure: a wireless signal based energy control system comprising: the portable wireless signal transmitting device (for example, the mobile communication device includes a mobile terminal such as a mobile phone, a pad, an intelligent watch or an intelligent bracelet, etc.), a wireless signal receiving device, and an energy control module; wherein, the portable wireless signal transmitting device comprises a mobile communication device; the wireless signal receiving device is a Bluetooth receiving module or a WiFi router; as shown in fig. 5, the energy control module is formed by sequentially connecting a signal processing unit, an execution unit, a circuit switching control device or an intelligent switch, wherein the signal processing unit receives and processes a signal from the wireless signal receiving device, and sends the processed signal to the execution unit, and the execution unit controls the circuit switching control device or the intelligent switch to turn on or off the energy saving mode. When a person carrying the portable wireless signal transmitting device enters an area, the wireless signal transmitted by the person is received and captured by a wireless signal receiving device deployed in the area, the wireless signal receiving device judges that the person enters the area, sends a signal to an energy control system, and starts energy sources (turning on an air conditioner, turning on a television, turning on energy consumption systems such as a lamp control system and the like); when a person carrying the portable wireless signal transmitting device leaves an area, the wireless signal receiving device deployed in the area cannot receive and capture the wireless signal transmitted by the person, the wireless signal receiving device judges that the person leaves the area, sends a signal to the energy control system, and turns off or sets the energy equipment to be in low power consumption or standby (turns off or sets the air conditioner to be in a standby or low power consumption mode, turns off or sets the television to be in a standby or low power consumption mode, turns off or sets the lamp control to be in a standby or low power consumption mode, and the like).

The wireless signal receiving device is a wireless signal receiving device matched with a mobile communication device. In the invention, the wireless signal transmitting device and the receiving device are matched and connected in a mode of combining the identity authentication information of an application layer or the physical address with the authentication information. The energy control system may further include an alarm module (not shown), which sends a signal to the energy control system when the identities are not matched, turns on the energy saving mode, turns off the energy device or sets the energy device to a low power consumption state or a standby state, and controls the alarm module to alarm, but since the wireless signal receiving apparatus may receive a mobile communication device with an unmatched identity outside the control area, a false alarm or a false alarm may be caused, which is improved by further optimizing the effective receiving distance of the wireless signal receiving apparatus.

The energy control method based on the wireless signal further comprises the following steps: when the portable wireless signal transmitting device leaves the range of the control area, the connection between the wireless signal receiving device arranged in the area and the portable wireless signal transmitting device is disconnected, and the wireless signal receiving device stops receiving and capturing the wireless signals transmitted by the portable wireless signal transmitting device; the wireless signal receiving device judges that the portable wireless signal transmitting device leaves the area, sends a signal to the energy control system, opens the energy-saving mode, and closes the energy equipment or sets the energy equipment to be in low power consumption or standby.

Further, the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched, and the energy control according to the matching result further comprises: when the identity information is not matched, a signal is sent to the energy control system, the energy-saving mode is opened, the energy equipment is closed or set to be in low power consumption or standby, and meanwhile alarm information is generated to give an alarm.

The invention provides an embodiment for realizing energy control based on a WiFi signal, and FIG. 3 is a schematic diagram of an embodiment of an energy control method based on a wireless signal; as shown in the figure: the method comprises the following steps: when a person enters an energy control area, a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of a carry-on wireless signal transmitting device; the wireless receiving device is a WiFi router; when a person who carries the portable wireless signal transmitting device (such as mobile communication equipment including mobile terminals such as mobile phones, pads, smart watches or smart bracelets) enters a control area, a wireless signal transmitted by the portable wireless signal transmitting device is received and captured by the wireless signal receiving device deployed in the area; the wireless signal transmitting device is matched and connected with the wireless signal receiving device in a mode of combining application layer identity authentication information or a physical address with the authentication information; performing energy control according to the matching result;

the energy control according to the matching result comprises the following steps: when the application layer identity authentication information or the physical address is matched with the authentication information, sending a signal to an energy control system, closing an energy-saving mode and starting energy; and when the identity information is not matched, sending a signal to the energy control system, opening the energy-saving mode, and closing the energy equipment or setting the energy equipment to be in low power consumption or standby.

When a person carrying the portable wireless signal transmitting device leaves a control area, the wireless signal receiving device deployed in the area cannot receive and capture the wireless signal transmitted by the portable wireless signal transmitting device, the wireless signal receiving device judges that the person leaves the area, sends a signal to the energy control system, opens an energy-saving mode, and closes or sets the energy equipment to be in low power consumption or standby.

The energy control system further comprises an alarm module, if the identities are not matched, the alarm module sends a signal to the energy control system, the energy-saving mode is turned on, the energy source is turned off, and meanwhile the alarm module is controlled to give an alarm.

The present invention provides another embodiment, which is further described below by taking a wireless signal receiving device as a bluetooth module as an example, and fig. 4 is a schematic diagram of an embodiment of the energy control method based on wireless signals according to the present application, as shown in the figure: the method comprises the following steps:

when a person enters an energy control area, a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of a carry-on wireless signal transmitting device; the wireless receiving device is a Bluetooth module;

the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched or not, and performs energy control according to the matching result;

the energy control according to the matching result comprises the following steps: the Bluetooth module and the built-in Bluetooth of the portable wireless signal transmitting device carry out authority authentication, a Bluetooth secret key of the Bluetooth module is matched and verified with a Bluetooth secret key in the portable wireless signal transmitting device during authentication, and when the verification shows that the portable Bluetooth secret key is legal, a signal is sent to an energy control system, an energy-saving mode is closed, and energy is started; when the Bluetooth secret key of the portable wireless signal transmitting device is verified to be illegal, a signal is sent to the energy control system, the energy-saving mode is opened, and the energy equipment is closed or set to be in low power consumption or standby;

when the Bluetooth module is disconnected with the portable wireless signal transmitting device, the energy-saving mode of the energy control system is started.

The method comprises the following steps that a Bluetooth module performs authority authentication with built-in Bluetooth (the Bluetooth of a mobile phone is kept to be started all the time) of a portable mobile communication device (such as a mobile phone with the Bluetooth module, a pad, a smart watch, a smart bracelet and the like), a Bluetooth key of the Bluetooth module is matched with a Bluetooth key in the mobile phone for verification during authentication, and if the Bluetooth key in the mobile phone is legal after verification, energy is started; if the Bluetooth key in the mobile phone is illegal, the energy is not turned on. The authentication can be successful if and only if the mobile communication equipment provided with the Bluetooth module performs the entry and confirmation of the verification information with the Bluetooth module. When the Bluetooth module is disconnected with the portable mobile communication equipment, the energy-saving mode of the energy control system is started, and the energy equipment is not started or is set to be standby or low-power consumption.

The energy control method based on the wireless signals is characterized in that a wireless signal receiving device for receiving the wireless signals of the portable equipment is arranged indoors through the wireless signals of the portable wireless signal transmitting equipment of a user (such as WIFI signals or Bluetooth signals of mobile terminals of a mobile phone, a pad, a smart watch, a smart bracelet and the like) (if the WIFI signals of the mobile phone are used, WIFI routing equipment can be reused, and a receiver does not need to be additionally arranged). When the wireless signal receiving device receives a wireless signal (normally connected) of the portable equipment, the indoor personnel activity is judged, and the energy-saving mode is closed; when the wireless signal receiving device is disconnected with the wireless signal of the portable equipment, the indoor unmanned activity is judged, and the energy-saving mode is started. Compared with the traditional manual or magnetic card type energy-saving control method, the realization has the following advantages: according to the method, through wireless signals of the user portable equipment (such as WIFI signals or Bluetooth signals of a mobile phone), a receiver for receiving the wireless signals of the portable equipment is arranged indoors (if the WIFI signals of the mobile phone are used, WIFI routing can be multiplexed, and the receiver does not need to be additionally arranged). When the receiver receives a wireless signal (normally connected) of the portable equipment, the indoor personnel activity is judged, and the energy-saving mode is closed; when the wireless signal of the receiver and the portable device is disconnected, the indoor unmanned activity is judged, and the energy-saving mode is started. Compared with the traditional manual or magnetic card type energy-saving control method, the technical scheme of the invention has the following advantages:

WIFI signals or Bluetooth signals of the mobile phone can be used as wireless signals of the method, additional card issuing is not needed for a user, and the hardware cost and the card management cost of the card issuing are saved.

If the service environment has WIFI routing equipment, a receiver does not need to be additionally arranged, and hardware cost and arrangement construction cost are saved.

The energy-saving mode and the non-energy-saving mode are switched without manual operation or card insertion (card pulling) of a user, the user enters an area, the energy-saving mode is automatically closed, the user leaves the area, the energy-saving mode is automatically opened, and the user experience is good.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.

In the above embodiments of the present application, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and 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 units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The foregoing is only a preferred embodiment of the present application and it should be noted that those skilled in the art can make several improvements and modifications without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (10)

1. An energy control method based on wireless signals is characterized in that,

the method comprises the following steps:

a wireless signal receiving device in the energy control area receives and captures a wireless signal transmitted by the portable wireless signal transmitting device;

the wireless signal receiving device judges whether the identity information of the personnel entering the energy control area is matched or not, and performs energy control according to the matching result.

2. The wireless-signal-based energy control method according to claim 1, wherein: the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched or not, and the energy control according to the matching result comprises the following steps: the wireless signal receiving device judges whether the identity information of the personnel entering the area is matched, if the identity information is matched, a signal is sent to the energy control system, the energy-saving mode is closed, and the energy is started; and if the identity information is not matched, sending a signal to the energy control system, opening an energy-saving mode, and closing the energy equipment or setting the energy equipment to be in low power consumption or standby.

3. The wireless-signal-based energy control method according to claim 1 or 2, wherein: the method further comprises the following steps:

when the portable wireless signal transmitting device leaves the range of the energy control area, the connection between the wireless signal receiving device arranged in the area and the portable wireless signal transmitting device is disconnected, and the wireless signal receiving device stops receiving and capturing the wireless signals transmitted by the portable wireless signal transmitting device; the wireless signal receiving device judges that the portable wireless signal transmitting device leaves the area, sends a signal to the energy control system, opens the energy-saving mode, and closes the energy equipment or sets the energy equipment to be in low power consumption or standby.

4. The wireless-signal-based energy control method according to claim 1 or 2, wherein: the wireless signal receiving arrangement judges whether personnel's identity information that gets into the energy control region matches, carries out energy control according to the matching result and still includes: when the identity information is not matched, a signal is sent to the energy control system, the energy-saving mode is opened, the energy equipment is closed or set to be in low power consumption or standby, and meanwhile alarm information is generated to give an alarm.

5. The wireless-signal-based energy control method according to claim 1 or 2, wherein: the portable wireless signal transmitting device comprises mobile communication equipment; the wireless signal receiving device is a Bluetooth receiving module or a WiFi router.

6. The wireless-signal-based energy control method according to claim 5, wherein: the method comprises the following steps: a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device; the wireless receiving device is a WiFi router;

the wireless signal transmitting device is matched and connected with the wireless signal receiving device in a mode of combining application layer identity authentication information or a physical address with the authentication information; performing energy control according to the matching result;

the energy control according to the matching result comprises the following steps: when the application layer identity authentication information or the physical address is matched with the authentication information, sending a signal to an energy control system, closing an energy-saving mode and starting energy; and when the identity information is not matched, sending a signal to the energy control system, opening the energy-saving mode, and closing the energy equipment or setting the energy equipment to be in low power consumption or standby.

7. The wireless-signal-based energy control method according to claim 5, wherein: the method comprises the following steps:

a wireless signal receiving device in the energy control area receives and captures a transmitted wireless signal of the carry-on wireless signal transmitting device; the wireless receiving device is a Bluetooth module;

the wireless signal receiving device judges whether the personnel identity information entering the energy control area is matched or not, and performs energy control according to the matching result;

the energy control according to the matching result comprises the following steps: the Bluetooth module and the built-in Bluetooth of the portable wireless signal transmitting device carry out authority authentication, a Bluetooth secret key of the Bluetooth module is matched and verified with a Bluetooth secret key in the portable wireless signal transmitting device during authentication, and when the verification shows that the portable Bluetooth secret key is legal, a signal is sent to an energy control system, an energy-saving mode is closed, and energy is started; when the Bluetooth secret key of the portable wireless signal transmitting device is verified to be illegal, a signal is sent to the energy control system, the energy-saving mode is opened, and the energy equipment is closed or set to be in low power consumption or standby;

when the Bluetooth module is disconnected with the portable wireless signal transmitting device, the energy-saving mode of the energy control system is started, and the energy equipment is turned off or set to be in low power consumption or standby.

8. An energy control system based on wireless signals, the energy control system comprising:

the energy control system includes: the portable wireless signal transmitting device, the wireless signal receiving device and the energy control module;

wherein,

the portable wireless signal transmitting device comprises mobile communication equipment;

the wireless signal receiving device is a Bluetooth receiving module or a WiFi router;

the energy control module is formed by sequentially connecting a signal processing unit, an execution unit and a circuit switching control device or an intelligent switch, wherein the signal processing unit receives and processes signals from the wireless signal receiving device and sends the processed signals to the execution unit, and the execution unit controls the circuit switching control device or the intelligent switch to turn on or turn off an energy-saving mode.

9. The wireless-signal-based energy control system according to claim 8, wherein the mobile communication device comprises a mobile terminal such as a mobile phone, a pad, a smart watch or a smart bracelet.

10. The wireless-signal-based energy control system according to claim 8, further comprising an alarm module, wherein when the matching result is that the personal identification information does not match, the alarm module sends a signal to the energy control system to turn on the energy saving mode, turn off the energy device or set the energy device to a low power consumption state or a standby state, and controls the alarm module to alarm.