TWI587595B - Remote power control method and system thereof - Google Patents

Description

Remote power control method and system

The invention relates to a power control method and system, in particular to a remote control power control method and system.

With the advancement of science and technology and the improvement of people's living standards, the requirements of the living environment have become higher and higher. While pursuing material enjoyment, people also began to pursue a healthy living environment. To have a comfortable living space, factors affecting the indoor environment such as temperature, humidity and brightness are important. In particular, the current global climate is gradually unstable. To maintain the stability of indoor temperature, humidity and brightness, it is necessary to rely on equipment such as electric lights, air conditioners, curtains, etc., through the cooperation of these equipments, to achieve the purpose of indoor environment comfort.

However, modern people are busy, usually when they return home from work, it is already dinner time. At this time, it is necessary to turn on the lights, air conditioners and other facilities to adjust the temperature, humidity and brightness of the room. It usually takes a while for the equipment to be indoors. The space is adjusted to a comfortable environment. Secondly, since it is already night at home, if you start to work after work, it will affect the time for dinner. Traditionally, timers are used to automatically cook the pot to save time. The benefits of the timer are cheap and easy to obtain, but the user must have a way to operate it on the spot, and there are still inconveniences in its use.

In fact, with the advancement of technology, the computing resources, storage resources, and application resources of the Internet are increasing with the expansion of its scale. It is transforming from the traditional communication platform into an intelligent computing platform. Browsers, or smartphone apps, will be able to access services on the cloud. In the era of the emergence of the Internet of Things and big data, the combination of information technology has been able to effectively provide information and management of indoor space, and tailor-made a home power management service system for users.

In the era when smart phone devices flooded the market, smart home appliances have become quite common. See, many companies have introduced sockets that control a single electrical product. In addition to allowing users to easily remotely control appliances through their smart phones at home, they can remotely control them even when they are outdoors. With the new application of smart phone, that is, through the mobile device and the network, even if it is not at home, you can turn on the plug power remotely, let the electric cooker start cooking, the air conditioner starts to start, the light is turned on first, once When you get home, you can enjoy a comfortable environment.

However, the above external remote control mode is generally subject to one-to-one control mode, that is, one socket can only control one electric appliance at a time, and the control mode that can be provided is also limited, and the adjustment current amount and the calculation current amount cannot be provided. The function. Therefore, in order to develop the simple and easy-to-use smart home appliances, the industry must be able to design a new type of remote power control system to bring more convenience to users.

In addition, with human concerns about the global petrochemical energy stock and the rise of environmental awareness in recent years, energy conservation and carbon reduction have gradually become a hot topic of discussion, and even become one of the government's policy objectives. Today, with the advancement of microelectronics technology, human beings are increasingly relying on electrical energy. Not only the lighting, communication, audio and video, transportation, and even manufacturing, defense, military and other projects must use electricity. Therefore, the use of electrical energy is a very important issue.

In order to be able to use the electric energy more safely and to control the use of the schedule, a timing socket has been developed which can preset the power supply opening and closing time. Please refer to FIG. 1 , which has a plug for timing. The socket can be disposed on a commercial power socket compatible with the commercial specifications. The timing socket includes a component 10 and at least one socket 11. The timing component 10 can be one of a mechanical type or a digital type. The middle timing component 10 is composed of a mechanical gear wheel 101 and the plurality of finger switches 102, and the gear wheel 101 has the complex scale. To use the timing socket of the prior art, the plug of the timing socket (not shown) is inserted into the mains socket compatible with the commercial specifications, and the gear turntable 101 is turned and dialed according to the scale on the gear turntable 101. The dip switch 102 completes the setting of the power on/off time and the action, and then connects the electric appliance that needs to be controlled to open and close the power supply to at least one jack 11 of the timing socket, when the current time reaches the set schedule time The timing socket controls the connection between the electric appliance and the mains socket, so that the electric appliance connected to the at least one jack 11 is controlled, and the purpose of powering on and off the electric appliance according to the scheduling time is achieved.

However, the aforementioned conventional timing socket sets the scheduling time and the action The method is to set the site to be set at one time on the timed socket. When it is far away from the timed socket of the prior art, the previous settings can no longer be adjusted or reset, and the electrical appliances disposed on the timing socket cannot be flowed. The total amount and abnormal monitoring and other actions react and are less flexible in use.

Therefore, a power control system that can be connected to a wireless communication network is proposed, so that the user can set the function of on-off control power on/off, flow control and abnormality monitoring at the remote end, and is free from time and space in use and operation. Restricted and flexible, it is a technical problem that everyone is trying to solve.

In view of the above disadvantages of the prior art, an object of the present invention is to provide a remote power control method for combining a smart phone and a cloud server to provide a user with an effective remote adjustment of the amount of current of the controlled appliance and calculation. The amount of current in the controlled appliance provides a new form of remote power control system integration mode to give users greater convenience.

To achieve the above objective, the remote power control method provided by the present invention includes the following steps: Step A: A transmission unit of a portable electronic device is wirelessly connected to a cloud server via an Internet; Step B: The user inputs the authentication information of the user through the display interface of the portable electronic device, and the authentication information of the user is transmitted to the identity recognition unit of the cloud server through the transmission unit of the portable electronic device; Step C: the identity recognition unit of the cloud server identifies the authentication information of the user; Step D: after confirming the authentication information of the user, the transmission module of the cloud server is connected via the Internet One of the control signals transmitted by the portable electronic device is transmitted to a hub; and step E: the hub transmits the control signal to a remote power control socket via a local area network for remote control. In the step E, the remote power control socket may include a regional network module, a microprocessor, a current flow controller, and a jack, wherein the current flow regulator is electrically connected to a mains. In step D, the control signal transmitted by the portable electronic device may include controlling the current flow regulator to turn on or off the current flowing through the jack, or controlling the current flow regulator to adjust to flow through the jack. Current.

Preferably, in step E, the remote power control socket may include a switch. To switch the remote power control socket.

Preferably, the current flow controller is electrically connected to the mains via a first live line and a first neutral line.

Preferably, the jack is electrically connected to the current flow regulator via a second live line and a second neutral line.

Preferably, in step E, the remote power control socket can be plugged into a wall power jack.

Preferably, in step E, the local area network may be one of WiFi, Z-wave, ZigBee, NFC, and Bluetooth.

Preferably, the microprocessor can read the amount of current flowing through the current flow regulator.

The invention further provides a remote power control system, which combines a smart phone and a cloud servo device to provide a user to effectively adjust the current amount of the controlled home appliance remotely, and calculate the current amount of the controlled home appliance, thereby providing a novel state The remote power control system integrates modes to give users greater convenience.

To achieve the above objective, the present invention includes: a plurality of household electrical appliances connected to a plurality of remote power control sockets, wherein the plurality of remote power control sockets have a first end and a second end, wherein A regional network module and a microprocessor are disposed at the first end, a current flow controller and a jack are disposed at the second end, wherein the microprocessor is electrically connected to the regional network module And the current flow controller, the current flow controller is electrically connected to the jack and a power source; a hub is wirelessly connected to the regional network module of the remote power control socket via a regional network, and Having at least one control unit, the at least one control unit is wirelessly connected to a plurality of remote power control sockets; a cloud server device having an identity recognition unit and a transmission module, wherein the transmission module of the cloud server device Wirelessly connecting to the hub via an internet connection; a portable electronic device having a wireless communication module and a display interface, wherein the wireless communication module is connected to the Internet Wired to the cloud server, the wireless communication module is compatible with one of 3G, 4G, Wi-Fi, Z-wave, ZigBee, NFC, Bluetooth wireless communication protocols; a power management module Connecting to the wireless communication module and at least one control unit of the hub, and managing whether the plurality of home appliances and the power source are in a conduction mode or a non-conduction mode; a scheduling module is connected to the wireless communication mode And at least one control unit of the hub, and setting a connection between the plurality of household appliances and the power source a plurality of modes of mode or non-conduction mode; a flow control module is connected to the wireless communication module and at least one control unit of the hub, and controls current flow between the plurality of home appliances and the power source; The monitoring module is connected to the wireless communication module and at least one control unit of the hub, and monitors whether the current flow and/or voltage of the plurality of household appliances is abnormal; and a statistical analysis module is connected to the wireless communication The module and the at least one control unit of the hub, and the current flow of the plurality of household appliances is counted and analyzed; wherein the user inputs authentication information of the user via the portable electronic device, the portable electronic The wireless communication module of the device transmits the authentication information of the user to the identity recognition unit of the cloud server device to identify the authentication information of the user, and after confirming the authentication information of the user, the cloud server device The transmitting module transmits a control signal transmitted by the portable electronic device to the hub via the internet, the set Transmitting the control signal to the regional network module of the remote power control socket via the local area network, so that the microprocessor performs the control signal; wherein the portable electronic device and the cloud are combined The servo device provides the user with the ability to remotely adjust the amount of current of the controlled remote power control socket, and calculate the amount of current of the controlled remote power control socket, wherein the plurality of household appliances includes a plurality of electrical devices, such as One or a combination of a television, a refrigerator, an air conditioner, a thermos, an electric light, a camera, an infrared sensor, a disaster alarm, etc.; the power management module is automatically and/or manually connected to a plurality of devices, wherein The method is to scan the QR Code on the plurality of home appliances to perform the connection. The manual mode is to manually input the plurality of home appliance identification codes or connection IDs/passwords in the power management module. The invention combines the cloud computing of the network technology to connect the control signal to the hub of the home user terminal via the cloud server device through the smart application of the portable electronic device to control the power consumption of the remote power control socket, and the user can Demand control to turn on or off home appliances, and adjust the power consumption of home appliances. The power consumption of home appliances can also be transmitted back to portable electronic devices through the local area network and the Internet, so that users can grasp them at any time. The use of electricity in home appliances. As a result, it will bring more convenience to users, and promote the popularity of smart home appliances.

Preferably, the at least one control unit can be a wireless network router and wirelessly connected to the plurality of home appliances through a wireless network.

Preferably, the flow control module can be an amp counter, and the schedule setting module is a timer.

Preferably, the statistical analysis module can be based on the current flow of the plurality of household appliances and The voltage calculates the power value of the plurality of household appliances.

Preferably, the abnormality monitoring module generates a monitoring message according to the current flow and/or voltage of the plurality of household appliances to notify whether the current flow and/or voltage of the plurality of household appliances are abnormal.

Preferably, the at least one control unit further comprises a power matching module for matching the plurality of household appliances with the power source.

Preferably, the remote power control system of the present invention further includes an identity authentication module connected to the wireless communication module and confirming a user's identity authentication data, wherein the user logs into the remote power control system. The entered identity authentication data can be used by the user after confirming the user's identity authentication data.

When the remote power control system of the present invention is used, the user can manage and schedule the power-on/non-conduction mode of the plurality of home appliances by connecting the wireless communication module to the at least one control unit. Setting, current flow setting, monitoring current flow and/or voltage, and statistical analysis of current flow; and the abnormality monitoring module monitors whether the current flow and/or voltage of the power supply on the plurality of household appliances is abnormal, so that the user can immediately Know if the power supply is abnormal.

Thereby, it is more flexible in terms of use and operation without being limited by time and space, and can provide an immediate response through the wireless network when an abnormality occurs between the plurality of home appliances and the power source, and has better security.

1‧‧‧Portable electronic device

11‧‧‧Transportation unit

12‧‧‧Display interface

2‧‧‧Cloud Servo

21‧‧‧ Identity Identification Unit

22‧‧‧Transmission module

3‧‧‧ hub

4‧‧‧Remote power control socket

41‧‧‧Regional network module

42‧‧‧Microprocessor

43‧‧‧ Current Flow Regulator

44‧‧‧ jack

45‧‧‧Toggle switch

5‧‧‧Power

A~E‧‧‧Steps

101‧‧‧Timed components

111‧‧‧ jack

201‧‧‧Wireless communication module

211‧‧‧Control unit

221‧‧‧Power Matching Module

301‧‧‧Power Management Module

401‧‧‧ Schedule Setting Module

501‧‧‧Flow Control Module

601‧‧‧Anomaly Monitoring Module

701‧‧‧Statistical Analysis Module

801‧‧‧ Identity Certification Module

1011‧‧‧Gear carousel

1021‧‧‧Dial switch

2001‧‧‧Home Appliances

2011‧‧‧Power supply

3001‧‧‧Mobile communication device

4001‧‧‧Cloud Network

1 is a schematic structural view showing a timing socket of a prior art; FIG. 2 is a flowchart of a method according to an embodiment of the present invention; FIG. 3 is a block diagram of a system according to an embodiment of the present invention; A schematic representation of the use of an embodiment. 5 is a block diagram of a display system in accordance with an embodiment of a remote power control system in accordance with the present invention; and FIG. 6 is a diagram showing a statistical analysis module in accordance with the embodiment of the remote power control system of the present invention. A schematic diagram of a one-week electrical power value chart; and FIG. 7 is a diagram showing an example of the use of the display system in a mobile communication network and a cloud network according to the embodiment of the remote power control system of the present invention.

The embodiments of the present invention are described by way of specific examples, and those skilled in the art can readily appreciate the other advantages and advantages of the present invention. The invention may be embodied or applied in various other specific embodiments, and various modifications and changes may be made without departing from the spirit and scope of the invention.

It is to be understood that the structure, the proportions, the size and the like of the present invention are intended to be used in conjunction with the disclosure of the specification, and are not intended to limit the scope of the invention. The conditions are not technically meaningful, and any modification of the structure, change of the proportional relationship or adjustment of the size should be disclosed in the present invention without affecting the effects and achievable effects of the present invention. The technical content can be covered.

Please refer to FIG. 2 and FIG. 3 together. FIG. 2 is a flowchart of the method of the present invention, and FIG. 3 is a system architecture diagram of the present invention. As shown in the figure, the remote power control method provided by the present invention includes the following steps: Step A: A transmission unit 11 of a portable electronic device 1 is wirelessly connected to a cloud server 2 via an internet; B: A user inputs the authentication information of the user through the display interface 12 of the portable electronic device 1. The authentication information of the user is transmitted to the cloud server 2 via the transmission unit 11 of the portable electronic device 1. Step 21: The identity recognition unit 21 of the cloud server 2 identifies the authentication information of the user; Step D: After confirming the authentication information of the user, the transmission module 22 of the cloud server 2 can be accessed via the Internet. One of the control signals transmitted by the portable electronic device 1 is transmitted to a hub 3; and step E: the hub 3 transmits the control signal to a remote power control socket 4 via a local area network for remote control.

In the embodiment of the present invention, in step E, the remote power control socket 4 can include a regional network module 41, a microprocessor 42, a current flow regulator 43 and a jack 44, wherein the microprocessor The device 42 is electrically connected to the regional network module 41 and the current flow controller 43. The current flow controller 43 is electrically connected to the jack 44 and a mains 5, and the jack 44 can be plugged into a battery. Device 2001.

In the embodiment of the present invention, in step D, the control signal transmitted by the portable electronic device 1 can control the current flow regulator 43 to turn on or off the current flowing through the jack 44, thereby enabling the user to control The signal remotely switches the opening and closing of the home appliance 2001. The control signal transmitted by the portable electronic device can also adjust the current flowing through the jack 44 for the control current flow controller 43. Therefore, the user can adjust the power consumption of the household electrical appliance 2001 through the remote end of the control signal.

In an embodiment of the present invention, in step E, the remote power control socket 4 may include a switch 45 to switch the remote power control socket 4. Preferably, the switch 45 is electrically connected to the current flow regulator 43.

In the embodiment of the present invention, the current flow regulator 43 can be electrically connected to the commercial power supply 5 via a first live line and a first neutral line (not shown).

In the embodiment of the present invention, the jack 44 can be electrically connected to the current flow regulator 43 via a second live line and a second neutral line (not shown).

In the embodiment of the present invention, in step E, the remote power control socket 4 can be inserted into a wall power socket, and the schematic diagram is as shown in FIG.

In the embodiment of the present invention, in step E, the local area network may be one of WiFi, Z-wave, ZigBee, NFC, and Bluetooth, but not limited thereto, and may also have other regional network functions. Wireless network.

In an embodiment of the invention, microprocessor 42 can read the amount of current flowing through current flow regulator 43. The amount of current read by the microprocessor 42 can be transmitted back to the portable electronic device 1 through the area network and the Internet to provide the user with the power consumption of the household electrical appliance 6 at the remote end.

The invention further provides a remote power control system, which combines a smart phone and a cloud servo device to provide a user to effectively adjust the current amount of the controlled home appliance remotely, and calculate the current amount of the controlled home appliance, thereby providing a novel state The remote power control system integrates modes to give users greater convenience.

Referring to FIG. 3 and FIG. 4 together, as shown in the figure, the remote power control system provided by the present invention comprises: a remote power control socket 4 having a regional network module 41 and a microprocessor 42. A current flow regulator 43 and a jack 44, wherein the microprocessor 42 is electrically connected to the regional network module 41 and the current flow regulator 43, the current flow regulator 43 is electrically connected to the jack 44 and a mains 5; a hub 3, wirelessly connected to the remote power control via a regional network The area network module 41 of the socket 4; the cloud server device 2 has a body identification unit 21 and a transmission module 22, wherein the transmission module 22 of the cloud server device 2 wirelessly connects to the hub via an internet connection. 3; and a portable electronic device 1 having a transmission unit 11 and a display interface 12, wherein the transmission unit 11 is wirelessly connected to the cloud server 2 via the Internet, wherein a user is connected via a portable electronic device The display interface 12 of the device 1 inputs authentication information of a user, and the transmission unit 11 of the portable electronic device 1 transmits the authentication information of the user to the identity recognition unit 21 of the cloud server device 2 to identify the authentication information of the user, and confirms After the authentication information of the user, the transmission module 22 of the cloud server 2 transmits a control signal transmitted by the portable electronic device 1 to the hub 3 via the Internet, and the hub 3 transmits the control signal to the remote area via the regional network. The end power supply controls the area network module 41 of the socket 1 to cause the microprocessor 42 to execute the control signal.

The invention combines the cloud computing of the network technology to connect the control signal to the hub 3 of the home user terminal via the cloud server 2 via the smart application of the portable electronic device 1 to control the power consumption of the remote power control socket 4. The user can control whether the home appliance 2001 in the home is turned on or off according to the demand, and adjust the power consumption of the home appliance 2001. The power consumption of the home appliance 2001 can also be transmitted back to the portable electronic network through the regional network and the Internet. The device 1 enables the user to grasp the power usage of the home appliance 2001 at any time. As a result, it will bring more convenience to users, and promote the popularity of smart home appliances.

As shown in FIG. 5, the remote power control system of the present invention may include: a plurality of home appliances 2001, at least one control unit 211, a wireless communication module 201, a power management module 301, a schedule setting module 401, A flow control module 501, an abnormality monitoring module 601, and a statistical analysis module 701.

The plurality of home appliances 2001 can be connected to a power source 2011. According to an embodiment of the present invention, the plurality of household electrical appliances 2001 include one of a plurality of electrical appliances such as televisions, refrigerators, cold air, thermos, electric lights, cameras, infrared sensors, disaster alarms, and the like, and combinations thereof.

At least one control unit 211 can be wirelessly connected to the plurality of home appliances 2001. According to an embodiment of the invention, at least one control unit 211 is a wireless network router and is wirelessly connected to the plurality of home appliances 2001 via a wireless network. In the embodiment of the present invention, at least one control unit may further include a power matching module 221 to match the plurality of home appliances 2001 with the power source 2011; at least one control unit 211 is compatible with 3G, 4G, Wi-Fi, One of the wireless communication protocols of Z-wave, ZigBee, NFC, and Bluetooth.

The wireless communication module 201 can be wirelessly connected to at least one control unit 211. According to an embodiment of the present invention, the wireless communication module 201 can be compatible with one of the wireless communication protocols of 3G, 4G, Wi-Fi, Z-wave, ZigBee, NFC, and Bluetooth.

The power management module 301 can be connected to the wireless communication module 201, and can manage whether the plurality of home appliances 2001 and the power source 2011 are in a conduction mode or a non-conduction mode, so that the plurality of home appliances 2001 are started or stopped. According to the embodiment of the present invention, the power management module 301 can be connected to the plurality of home appliances in an automatic and/or manual manner, wherein the automatic mode is to scan the QR Code on the plurality of home appliances to perform the connection, and the manual mode is manually inputting the device. The identification code or connection ID/password is in the power management module 301.

The schedule setting module 401 can be connected to the wireless communication module 201, and set the plurality of home appliances 2001 and the power source 2011 to be in a plurality of schedules in the conduction mode or the non-conduction mode. According to an embodiment of the present invention, the schedule setting module 401 is a timer, and each of the plurality of schedules includes a schedule time and a schedule action, the schedule time is any time point in the future, and the schedule action is The plurality of household electrical appliances 2001 and the power source 2011 are in a conduction mode or a non-conduction mode.

The flow control module 501 can be connected to the wireless communication module 201 and control the current flow between the plurality of household appliances 200 and the power source 2011. According to the embodiment of the present invention, the flow control module 501 can be an ampere counter, and the flow control module 501 can provide a preset ampere value for the user, so that the plurality of household electrical appliances 2001 can perform the power supply according to the corresponding ampere value. Current flow control between.

The abnormality monitoring module 601 can be connected to the wireless communication module 201 and can monitor the current flow and/or voltage of the plurality of household electrical appliances 2001. According to an embodiment of the present invention, the abnormality monitoring module 601 can monitor a current flow minimum value, a current flow maximum value, a voltage supply minimum value, and a voltage supply maximum value; in an embodiment of the present invention, the abnormality monitoring module The 601 can generate a monitoring message according to the current flow and/or voltage of the plurality of household electrical appliances 2001 to notify whether the current flow and/or voltage of the plurality of household electrical appliances are abnormal.

The statistical analysis module 701 can be connected to the wireless communication module 201, and can perform statistics and analysis on the current flow of the plurality of household electrical appliances 2001. According to the embodiment of the present invention, the statistical analysis module 701 can calculate the power value (eg, kilowatts/hour) of the plurality of household electrical appliances 2001 according to the current flow and voltage of the plurality of household electrical appliances 2001, and present them as a numerical chart. As shown in FIG. 3, the statistical analysis module 701 performs current flow to the plurality of household electrical appliances 2001 during one week. Statistics and analysis of the weekly electricity consumption figures produced.

According to an embodiment of the present invention, the remote power control system of the present invention includes an identity authentication module 801, the identity authentication module 801 is connected to the wireless communication module 201, and identifies a user identity authentication data, wherein, The user can use the remote power control system after confirming the user's identity authentication data when logging in to the remote power control system.

When the remote power control system of the present invention is used, the user can connect to the at least one control unit 211 by using the wireless communication module 201. In the embodiment of the present invention, the remote power control system can be configured in the mobile communication device 3001. In the case of (for example, a smart phone), as shown in FIG. 5 to FIG. 8 , the user can use the mobile communication device 3001 to connect the plurality of home appliances 2001 to the power source 2011 through the cloud network 4001 or not. Conduction mode management, multiple schedule setting, current flow setting, monitoring current flow and/or voltage, and statistical analysis of current flow; and abnormality monitoring module 601 monitors current flow and/or voltage of power supply on multiple household appliances 2001 Whether an abnormality occurs, the user is immediately informed whether an abnormality occurs between the plurality of home appliances 2001 and the power source 2011.

Thereby, the purpose of being flexible in use and operation without being limited by time and space is achieved, and an immediate reaction can be made through the wireless network when an abnormality occurs between the plurality of household electrical appliances 2001 and the power source 2011, which is preferable. safety.

Although the embodiments have been described with reference to the embodiments of the present invention, it will be understood that Inside. In particular, various changes and modifications can be made in the components and/or arrangements of the subject combination arrangements in the scope of the disclosure and the scope of the appended claims. Alternative uses will be apparent to those skilled in the art, in addition to variations and modifications in the component parts and/or configuration.

However, the above-described embodiments are merely illustrative of the effects of the present invention, and are not intended to limit the present invention, and those skilled in the art can modify and modify the above embodiments without departing from the spirit and scope of the present invention. . In addition, the number of elements in the above-described embodiments is merely illustrative and is not intended to limit the invention. Therefore, the scope of the invention should be as set forth in the following claims.

A~E‧‧‧Steps

Claims (10)

A remote power control method includes the following steps: Step A: A transmission unit of a portable electronic device is wirelessly connected to a cloud server via an Internet; Step B: a user via the portable electronic device The device displays the authentication information of the user, and the authentication information of the user is transmitted to the identity recognition unit of the cloud server via the transmission unit of the portable electronic device; Step C: the cloud server The identity identifying unit identifies the authentication information of the user; Step D: after confirming the authentication information of the user, the transmitting module of the cloud server transmits the portable electronic device via the Internet Transmitting one of the control signals to a hub; and step E: the hub transmits the control signal to a remote power control socket via a local area network for remote control, the remote power control socket including a regional network a module, a microprocessor, a current flow controller, and a jack, wherein the current flow regulator is electrically connected to a mains, The domain network is one of 3G, 4G, WiFi, Z-wave, ZigBee, NFC, and Bluetooth. The portable electronic device and the cloud server are provided to provide effective remote adjustment of the user. The amount of current in the controlled home appliance and the amount of current in the controlled home appliance. The remote power control method of claim 1, wherein in step D, the control signal transmitted by the portable electronic device comprises controlling the current flow regulator to be turned on or off through the jack. The current, or the current flow regulator is controlled to regulate the current flowing through the jack. The remote power control method of claim 1, wherein the microprocessor reads the amount of current flowing through the current flow regulator. A remote power control system includes: a plurality of home appliances connected to a plurality of remote power control sockets, wherein the plurality of remote power control sockets have a first end and a second end, wherein a regional network module Group and A microprocessor is disposed at the first end, a current flow regulator and a jack are disposed at the second end, wherein the microprocessor is electrically connected to the regional network module and the current flow regulation The current flow controller is electrically connected to the jack and a power source; a hub is wirelessly connected to the regional network module of the remote power control socket via a regional network, and has at least one control unit. The at least one control unit is wirelessly connected to the plurality of remote power control sockets; the cloud server has an identity recognition unit and a transmission module, wherein the transmission module of the cloud server is wireless via an internet Connected to the hub; a portable electronic device having a wireless communication module and a display interface, wherein the wireless communication module is wirelessly connected to the cloud server via the internet, the wireless communication module One of the wireless communication protocols compatible with 3G, 4G, Wi-Fi, Z-wave, ZigBee, NFC, and Bluetooth; a power management module connected to the wireless communication module and the hub At least one control unit, and managing between the plurality of household appliances and the power source in a conductive mode or a non-conductive mode; a scheduling module is connected to the wireless communication module and at least one control unit of the hub, And setting a plurality of schedules between the plurality of household appliances and the power source in a conduction mode or a non-conduction mode; a flow control module is connected to the wireless communication module and at least one control unit of the hub, and controlling the An electric current flow between the plurality of household electrical appliances and the power source; an abnormality monitoring module connected to the wireless communication module and at least one control unit of the hub, and monitoring whether the current flow and/or voltage of the plurality of household electrical appliances are abnormal And a statistical analysis module connected to the wireless communication module and at least one control unit of the hub, and performing statistics and analysis on current flow of the plurality of household appliances; wherein a user passes the portable electronic The device inputs authentication information of a user, and the wireless communication module of the portable electronic device transmits the authentication resource of the user The identity recognition unit of the cloud server device identifies the authentication information of the user, and after confirming the authentication information of the user, the transmission module of the cloud server device transmits the portable device via the Internet One of the control signals transmitted by the electronic device is transmitted to the hub, the set Transmitting the control signal to the regional network module of the remote power control socket via the local area network, so that the microprocessor performs the control signal; wherein the portable electronic device and the cloud are combined The servo device provides the user with the ability to remotely adjust the amount of current of the controlled remote power control socket, and calculate the amount of current of the controlled remote power control socket, wherein the plurality of household appliances includes a plurality of electrical devices, such as One or a combination of a television, a refrigerator, an air conditioner, a thermos, an electric light, a camera, an infrared sensor, a disaster alarm, etc.; the power management module is automatically and/or manually connected to a plurality of devices, wherein The method is to scan the QR Code on the plurality of home appliances to perform the connection. The manual mode is to manually input the plurality of home appliance identification codes or connection IDs/passwords in the power management module. The remote power control system of claim 5, wherein the abnormality monitoring module monitors a current flow minimum value, a current flow maximum value, a voltage supply minimum value, and a voltage supply maximum value. The remote power control system of claim 5, wherein each of the plurality of schedules includes a schedule time and a schedule action, the schedule time is any time point in the future, and the schedule action In order to make each of the plurality of household electrical appliances and the power source in a conduction mode or a non-conduction mode. The remote power control system of claim 5, wherein each of the plurality of schedules includes a schedule time and a schedule action, the schedule time is any time point in the future, and the schedule action In order to make each of the plurality of household electrical appliances and the power source in a conduction mode or a non-conduction mode. The remote power control system of claim 5, wherein the statistical analysis module calculates the power value of the plurality of household appliances according to the current flow and voltage of the plurality of household appliances. The remote power control system of claim 5, wherein the abnormality monitoring module generates a monitoring message according to the current flow and/or voltage of the plurality of household appliances to notify the current flow of the plurality of household appliances and / or voltage is abnormal. The remote power control system as described in claim 5, further comprising an identity authentication module, connected to the wireless communication module, and confirming a user identity authentication data, wherein the user logs in to the remote Identity authentication data entered during power control system, After confirming the user's identity authentication information, the user can use the remote power control system.