CN113438262A - Civil-residential intelligent electricity utilization method and system capable of keeping room in power-off state - Google Patents

Abstract

The invention provides a residential intelligent power utilization system and a residential intelligent power utilization method capable of keeping a room in a power-off state, and relates to the field of intelligent buildings, wherein the system comprises power control equipment which is arranged in a residential room and used for executing a power-off keeping instruction, releasing a power-off keeping instruction, scanning a code power-taking instruction or automatically taking power in case of disconnection; the cloud software system is arranged on the cloud server and used for receiving the power-off keeping request, the power-off keeping command releasing and the code scanning power taking request, and issuing the power-off keeping request, the power-off keeping command releasing and the code scanning power taking command after analyzing and judging based on the request; and the civil home operation system is arranged on the terminal of the civil home operator and used for initiating the command of keeping power off and releasing the command of keeping power off. The invention not only ensures that the resident can conveniently take electricity, but also ensures that the resident and lodging operators can cut off the power of the room and keep the power off after the room is returned.

Description

Civil-residential intelligent electricity utilization method and system capable of keeping room in power-off state

Technical Field

The invention relates to the field of intelligent buildings, in particular to a solution for intelligent residential and residential electricity utilization, which can keep a room in a power-off state.

Background

At present, the existing solution for residential electricity in the market adopts a card insertion or touch mode and the like in the electricity taking mode. The electricity-taking device is installed at the entrance of the residential quarter, and the residential quarter is triggered to send an electricity-taking command to a power switch of a distribution box installed in a room in a wireless short-distance communication mode through a card inserting mode or a touch mode and the like so as to achieve electricity taking. The existing residential electricity solving method is characterized in that electricity taking equipment installed in a room is adopted to control a power switch in a wireless short-distance communication mode no matter how the residential electricity solving method interacts with residents, so that electricity is taken from the room. Under the condition, as long as the resident is still in the room, electricity can be taken from the room. The method for controlling the power switch through the electricity taking equipment installed in the room cannot realize the power-off maintenance of the room.

The existing electricity utilization solution for residential houses in the market determines that the demand of residential house operators on keeping power off of rooms cannot be met in an electricity utilization mode. Therefore, in daily operation management of the residents, the residents often suffer from the situation that the residents still rely on the rooms to be kept without leaving and opening the doors after the residents have already returned, and great influence is caused on the management of the residents and economic benefits.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide an intelligent electricity utilization solution for residential and residential homes, which can maintain a room in a power-off state, so as to ensure that a resident can conveniently take electricity, and a residential and residential operator can power off and maintain power-off processing of the room after the resident returns.

The invention provides a civil-host intelligent power utilization system capable of keeping a room in a power-off state, which comprises:

the power control equipment is arranged in the residential room and used for executing a power-off keeping instruction, releasing the power-off keeping instruction, scanning a code power-taking instruction or automatically taking power when the power is disconnected;

the cloud software system is arranged on the cloud server and used for receiving the power-off keeping request, the power-off keeping command releasing and the code scanning power taking request, and issuing the power-off keeping request, the power-off keeping command releasing and the code scanning power taking command after analyzing and judging based on the request;

the civil home operation system is arranged on a civil home operator terminal and used for initiating a power-off maintaining instruction and releasing the power-off maintaining instruction;

the cloud server is in communication connection with at least one electric control device through a Wi-Fi router, the electric control device comprises a Wi-Fi module connected into the Wi-Fi router, a processor used for sending a power-off maintaining signal, a power-off maintaining signal removing signal, a code scanning power getting signal and a power-off automatic power getting signal, and a relay module used for completing electric switch control.

In an embodiment of the present invention, an electric control software system is disposed inside the processor, and the electric control software system includes a connection management module, a command execution module, and an automatic power taking module;

a connection management module: establishing and managing Internet network communication connection between the power control equipment and the cloud software system;

a command execution module: executing a power-off keeping instruction, a power-off keeping instruction and a code scanning power-taking instruction which are issued by a cloud software system, or carrying out configuration updating on the operation parameters of the power control equipment;

the automatic power taking module: and judging whether to automatically take power after the preset power-off time according to the operation parameters configured by the cloud software system and the current power-on and power-off state of the room power switch.

In an embodiment of the present invention, the cloud software system includes a terminal device connection gateway, a remote command module, a terminal device and room information management module, an intelligent power consumption management module, and a front-end system management gateway;

the terminal equipment is connected with the gateway: establishing and managing Internet network communication connection between the cloud software system and the power control equipment;

a remote command module: issuing a power-off keeping instruction, a power-off releasing keeping instruction, a code scanning power taking instruction or operation parameters of the power control equipment to the power control equipment;

the terminal equipment and room information management module: managing basic data of the power control equipment, basic data of the room and binding relationship between the power control equipment and the room;

the intelligent power utilization management module: generating a power-on and power-off switching instruction according to the room returning time and the delay duration of the room; or code scanning and electricity getting information generated by code scanning of the guest terminal is identified to generate a code scanning and electricity getting instruction; whether a power-off keeping instruction, a power-off keeping instruction is released and a code scanning power taking instruction is transmitted to the command execution module is judged according to the power-on and power-off state of the room;

the front-end system management gateway: and establishing and managing Internet network communication connection between the cloud software system and the intelligent control software system.

In an embodiment of the invention, the residential business management end system comprises a room operation management module, a remote control module and a code scanning electricity obtaining module;

a room operation management module: setting the room returning time and delay time parameters of a room;

a remote control module: and initiating a power-off maintaining request and releasing the power-off maintaining request.

A people and host intelligent electricity utilization method capable of keeping a room in a power-off state comprises a code scanning electricity taking operation and a power-off keeping operation;

the code scanning and power taking operation flow is as follows:

(1) scanning the electricity-taking two-dimensional code through the passenger terminal to generate a scanning electricity-taking request; the code scanning power taking request comprises unique identification information of the power control equipment corresponding to the current room;

(2) sending a code scanning electricity taking request to a cloud software system of a cloud server through a guest terminal;

(3) the cloud software system of the cloud server receives the code scanning power-taking request, analyzes the unique identification information of the corresponding power control equipment from the code scanning power-taking request, and inquires whether the corresponding power control equipment is in a power-off keeping state or not according to the unique identification information;

(4) if the corresponding power control equipment is in a power-off keeping state, the cloud software system of the cloud server returns power-taking failure prompt information to the guest terminal;

(5) if the corresponding power control equipment is not in the power-off keeping state, the cloud software system of the cloud server sends a code scanning power-taking instruction to the corresponding power control equipment;

(6) the corresponding power control equipment receives and executes the code scanning power taking instruction, and the power taking operation is completed through the relay module;

the power-off maintaining operation flow is as follows:

(1) selecting a room number needing to be set for keeping power off through a resident operator terminal;

(2) setting the refuge time and the power-off delay time through a resident operator terminal;

(3) sending a power-off maintaining request to a cloud software system of the cloud server through the residential operator terminal, and sending a power-off maintaining instruction to corresponding power control equipment through the cloud software system; or, judging whether the room power-off time is greater than the sum of the room returning time and the power-off delay time through the cloud software system, if so, automatically issuing a power-off keeping instruction to the corresponding power control equipment, and setting the current room state to be a power-off keeping state;

and the corresponding power control equipment receives and executes the power-off maintaining instruction, and completes the power-off operation through the relay module.

In an embodiment of the present invention, the method further comprises releasing the keep-alive power-off operation;

the flow of the operation of releasing the power failure is as follows:

(1) sending a power failure releasing and maintaining request to a cloud software system of a cloud server through a resident operator terminal;

(2) the cloud software system of the cloud server receives the power off maintaining request and sets the current room state to be a non-power off maintaining state;

(3) a cloud software system of the cloud server issues a power failure releasing instruction to the power control equipment, and the corresponding power control equipment marks that the working state is a non-power failure holding state;

(4) and the power control equipment returns a successful power failure releasing and maintaining signal to a cloud software system of the cloud server, and successful power failure releasing and maintaining information is displayed at the terminal of the residential and residential operator.

In an embodiment of the present invention, the precondition of the code scanning power-taking operation is as follows:

1. generating a power-taking two-dimensional code containing unique identification information of the power equipment corresponding to the current room, and pasting the power-taking two-dimensional code at a door of the room;

2. the current room runs normally corresponding to the power control equipment, and is connected with a cloud software system of the cloud server; if the power control equipment and the cloud software system of the cloud server are disconnected, the power control equipment periodically retries to establish connection.

In an embodiment of the present invention, the method further includes an automatic power-off operation;

the automatic power-taking process for disconnection is as follows:

(1) entering an infinite loop, and checking the connection state of the power control equipment and a cloud software system of a cloud server;

(2) if the connection is normal, setting the disconnection count to be 0, judging the connection state again after waiting for n seconds, and if the connection is abnormal, adding 1 to the disconnection count;

(3) judging whether the disconnection count is greater than or equal to a preset value X, if so, waiting for n seconds and then judging the connection state of the power control system and the cloud software system of the cloud server again; if the disconnection count is greater than or equal to a preset value X, judging whether the power control equipment is in a 'power-off maintaining state';

(4) if the power control equipment is in the power-off keeping state, judging the connection state of the power control equipment and the cloud software system of the cloud server again after waiting for n seconds; if the power supply is not in the power-off maintaining state, judging whether the room is in the power-on state;

(5) if the room is in the power-on state, judging the connection state of the power control equipment and the cloud software system of the cloud server again after waiting for n seconds; if the room is in the "power-off state", the relay is turned on so that the room is powered on.

As described above, the intelligent residential electricity utilization system and method capable of maintaining a room in a power-off state according to the present invention have the following advantages:

1. the invention can forcibly keep the power-off of the residential rooms, which cannot be realized by all methods adopting a local short-distance communication mode (between the electricity-taking equipment and the power switch) in the existing market.

2. According to the invention, the electricity-taking operation can be conveniently completed by scanning the electricity-taking two-dimensional code, so that a resident can be ensured to do not need to install a specific APP in advance and do not need to log in.

3. The invention can ensure the normal electrification of the residential room under the condition of network disconnection by automatically taking electricity through disconnection.

Drawings

Fig. 1 is a block diagram showing a structure of an intelligent residential electric system disclosed in the embodiment of the present invention.

Fig. 2 is a flowchart illustrating a code scanning power-taking operation disclosed in the embodiment of the present invention.

FIG. 3 is a flow chart illustrating the process of keeping power off as disclosed in the embodiment of the present invention.

FIG. 4 is a flowchart illustrating the triggering of the power-down holding disclosed in the embodiment of the present invention.

FIG. 5 is a flowchart illustrating the operation of releasing the power-off hold disclosed in the embodiment of the present invention.

Fig. 6 is a flowchart of the disconnection automatic power-supply operation disclosed in the embodiment of the present invention.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

As shown in fig. 1, the present invention provides a residential intelligent power system capable of maintaining a room in a power-off state, the system comprising:

the power control equipment is arranged in the residential room and used for executing a power-off keeping instruction, releasing the power-off keeping instruction, scanning a code power-taking instruction or automatically taking power when the power is disconnected;

the cloud software system is arranged on the cloud server and used for receiving the power-off keeping instruction, the power-off keeping instruction is released, the code scanning power taking request is sent, and the power-off keeping instruction, the power-off keeping instruction is released and the code scanning power taking instruction is sent after the request is analyzed and judged;

the residential business management system is arranged on a residential business operator or a residential terminal (comprising a mobile phone terminal or a computer terminal) and used for initiating a power on/off switching request, a power off maintaining request and a power taking request;

the cloud server is in communication connection with at least one electric control device through a Wi-Fi router, the electric control device comprises a Wi-Fi module connected into the Wi-Fi router, a processor used for sending a power-off maintaining signal, a power-off maintaining signal removing signal, a code scanning power getting signal and a power-off automatic power getting signal, and a relay module used for completing electric switch control.

Specifically, an electric control software system is arranged in the processor, and comprises a connection management module, a command execution module and an automatic power taking module;

1. a connection management module: establishing and managing Internet network communication connection between the power control equipment and the cloud software system;

2. a command execution module: executing a power-off keeping instruction, a power-off releasing instruction and a code scanning power-taking instruction issued by a cloud software system, or performing configuration updating on operating parameters (including automatic power-taking waiting time, reconnection waiting time and the like) of the power control equipment;

3. the automatic power taking module: and judging whether to automatically take power after the preset power-off time according to the operation parameters configured by the cloud software system and the current power-on and power-off state of the room power switch.

Specifically, the cloud software system comprises a terminal device connection gateway, a remote command module, a terminal device and room information management module, an intelligent power utilization management module and a front-end system management gateway;

1. the terminal equipment is connected with the gateway: establishing and managing Internet network communication connection between the cloud software system and the power control equipment;

2. a remote command module: issuing a power-off keeping instruction, a power-off releasing keeping instruction, a code scanning power taking instruction or operation parameters of the power control equipment to the power control equipment;

3. the terminal equipment and room information management module: managing basic data (including power-taking two-dimensional codes, power control software system versions and the like) of the power control equipment, basic data (including room names, addresses and the like) of rooms, and binding relations between the power control equipment and the rooms; the most important data is the electricity-taking two-dimensional code of the power control equipment corresponding to the room;

4. the intelligent power utilization management module: generating a power-on and power-off switching instruction according to the room returning time and the delay duration of the room; or code scanning and electricity getting information generated by code scanning of the guest terminal is identified to generate a code scanning and electricity getting instruction; whether a power-off keeping instruction, a power-off keeping instruction is released and a code scanning power taking instruction is transmitted to the command execution module is judged according to the power-on and power-off state of the room;

5. the front-end system management gateway: and establishing and managing Internet network communication connection between the cloud software system and the intelligent control software system.

Specifically, the residential business management system (including expression forms of mobile phones APP, H5, Web, public numbers, applets and the like) comprises a room operation management module, a remote control module and a code scanning electricity obtaining module;

1. a room operation management module: the resident manager sets the room returning time and delay time parameters of the room through the module;

2. a remote control module: the resident operator initiates a power-off maintaining request and releases the power-off maintaining request through the module;

the resident scans the electricity-taking two-dimensional code pasted at the door entrance of the room through a terminal (WeChat scanning, browser scanning and the like) to generate a scanning electricity-taking request initiated to a cloud software system of the cloud server.

The invention provides an intelligent electricity utilization method for residential residents, which can keep a room in a power-off state, and is realized based on the system, and comprises code scanning electricity taking operation, power-off keeping operation release and automatic power taking when the power is disconnected;

code scanning power taking, namely scanning a power taking two-dimensional code pasted at a room entrance by a resident through a terminal (WeChat scanning, a browser code scanning tool and the like), so as to generate a scanning power taking request of the room initiated to a cloud software system; after the scanning power-taking request is judged by the cloud software system, if the scanning power-taking request meets the conditions, a scanning power-taking instruction is issued to the power control equipment corresponding to the room, so that the room is powered on; the code scanning power taking is a power taking method for achieving the purpose of power taking by utilizing a remote communication mode, is completely different from the existing power taking methods on the market, which utilize power taking equipment (interactive modes such as card insertion or touch and the like) installed at a room entrance, and the power taking methods control a power switch of a room by utilizing a local short-distance communication mode instead of condition judgment through a cloud server; the code scanning electricity taking method lays a solid foundation for keeping the power-off operation due to the fact that the code scanning electricity taking needs to pass through a cloud software system of the cloud server; in actual use, the pattern for scanning the code to obtain electricity can be an electricity-obtaining two-dimensional code or other patterns capable of bearing coded information;

meanwhile, code scanning electricity taking is quite convenient, and the electricity taking two-dimensional code contains the unique identification information of the power control equipment; the power control equipment is used for pasting the corresponding power-taking two-dimensional code at the door entrance of the room in the installation process. Based on the above, the code scanning power-taking request generated by scanning the power-taking two-dimensional code inevitably controls the power control equipment corresponding to the room to which the power-taking two-dimensional code belongs; if the code scanning mode is not used, and the existing card insertion or touch electricity taking equipment on the market is not used, another scheme also exists: the method is characterized in that a terminal (comprising a mobile phone APP, H5, Web, a public number, a small program and the like) is completely adopted for power taking operation, namely, when a resident enters the house, the resident directly uses the terminal to remotely control a room to take power; this solution presents two problems: 1. the electricity taking operation for the room can not be operated by any person, and the resident can only carry out the electricity taking operation on the mobile phone after the resident needs to obtain the account number and the password for logging in; 2. the account number given to the resident can only carry out electricity taking operation on the room where the resident stays, which relates to the process that a system needs to be provided for a resident operator to carry out electricity taking authorization of a specified room on the account number of the resident; therefore, code scanning electricity taking is convenient and accurate, extra workload of operators is not needed, and meanwhile, a foundation is laid for keeping the power-off function of a room.

Specifically, as shown in fig. 2, the code scanning power-taking operation flow is as follows:

(1) scanning the electricity-taking two-dimensional code through the passenger terminal to generate a scanning electricity-taking request; the code scanning power taking request comprises unique identification information of the power control equipment corresponding to the current room;

(2) sending a code scanning electricity taking request to a cloud software system of a cloud server through a guest terminal;

(3) the cloud software system of the cloud server receives the code scanning power-taking request, analyzes the unique identification information of the corresponding power control equipment from the code scanning power-taking request, and inquires whether the corresponding power control equipment is in a power-off keeping state or not according to the unique identification information;

(4) if the corresponding power control equipment is in a power-off keeping state, the cloud software system of the cloud server returns power-taking failure prompt information to the resident terminal to prompt the resident to contact a resident manager;

(5) if the corresponding power control equipment is not in the power-off keeping state, the cloud software system of the cloud server sends a code scanning power-taking instruction to the corresponding power control equipment;

(6) the corresponding power control equipment receives and executes the code scanning power taking instruction, and the power taking operation is completed through the relay module;

therefore, after all power taking methods in a local short-distance communication mode (between the power taking equipment and the power switch) are cut off, the code scanning power taking is judged and limited by the cloud server, and the requirement of keeping the power off of a room can be met.

Specifically, the precondition of the code scanning power-taking operation is as follows:

1. generating a power-taking two-dimensional code containing unique identification information of the power equipment corresponding to the current room, and pasting the power-taking two-dimensional code at a door of the room;

2. the current room runs normally corresponding to the power control equipment, and is connected with a cloud software system of the cloud server; if the power control equipment and the cloud software system of the cloud server are disconnected, the power control equipment periodically retries to establish connection.

Keeping power off, namely, putting a room in a power off state and keeping the room in the power off state, wherein the power off is set and triggered by a residential operator on a residential operator terminal; after the function is started, all code scanning power-taking requests fail, and the room is always in a power-off state.

Specifically, as shown in fig. 3, the procedure of maintaining the power-off is as follows:

(1) the residential operator logs in a residential operation end system by adopting a user name and a password and selects a room needing to be set and kept powered off;

(2) the resident operator sets the refuge time and the power failure delay time for the room;

the refuge time refers to the time when the current resident refuge and leaves, and the power-off delay time refers to the power-off operation of the room for too long time after the refuge time is reached.

Specifically, as shown in fig. 4, the process of triggering to keep powering off is as follows:

(1) sending a power-off maintaining request to a cloud software system of the cloud server through the residential operator terminal, and sending a power-off maintaining instruction to corresponding power control equipment through the cloud software system; or, judging whether the room power-off time is greater than the sum of the room returning time and the power-off delay time through the cloud software system, if so, automatically issuing a power-off keeping instruction to the corresponding power control equipment, and setting the current room state to be a power-off keeping state;

(2) and the corresponding power control equipment receives and executes the power-off maintaining instruction, and completes the power-off operation through the relay module.

Specifically, as shown in fig. 5, the flow of the operation of releasing the power off hold is as follows:

(1) sending a power failure releasing and maintaining request to a cloud software system of a cloud server through a resident operator terminal;

(2) the cloud software system of the cloud server receives the power off maintaining request and sets the current room state to be a non-power off maintaining state;

(3) a cloud software system of the cloud server issues a power failure releasing instruction to the power control equipment, and the corresponding power control equipment marks that the working state is a non-power failure holding state;

(4) and the power control equipment returns a successful power failure releasing and maintaining signal to a cloud software system of the cloud server, and successful power failure releasing and maintaining information is displayed at the terminal of the residential and residential operator.

The automatic power-taking in disconnection means that the power control equipment automatically powers on a room under certain conditions after the power control equipment is disconnected from the cloud software system for a certain time. The function is mainly used for meeting the normal electricity utilization requirement of a room under the condition that no local short-distance communication electricity taking mode and network faults occur.

Specifically, as shown in fig. 6, the operation flow of the disconnection automatic power-taking operation is as follows:

(1) entering an infinite loop, and checking the connection state of the power control equipment and a cloud software system of a cloud server;

(2) if the connection is normal, setting the disconnection count to be 0, judging the connection state again after waiting for n seconds, and if the connection is abnormal, adding 1 to the disconnection count;

(3) judging whether the disconnection count is greater than or equal to a preset value X, if so, waiting for n seconds and then judging the connection state of the power control system and the cloud software system of the cloud server again; if the disconnection count is greater than or equal to a preset value X, judging whether the power control equipment is in a 'power-off maintaining state';

(4) if the power control equipment is in the power-off keeping state, judging the connection state of the power control equipment and the cloud software system of the cloud server again after waiting for n seconds; if the power supply is not in the power-off maintaining state, judging whether the room is in the power-on state;

wherein n represents the number of seconds waiting after completing one-time connection state check and automatic power-taking judgment; x represents the disconnection time threshold which needs to be reached when the automatic power-taking operation is carried out; the two parameters are multiplied by each other to approximately equal the waiting time after disconnection, which needs to be achieved when the automatic power taking operation is carried out, and n and X can be configured to the power control equipment through a cloud software system of the cloud server.

In conclusion, the invention can ensure that residents and residents can conveniently and quickly take electricity under the condition of avoiding taking electricity by adopting a local short-distance communication mode; can maintain the power-off operation for the room; when the power control equipment can not communicate with the cloud server in a room, electricity can be normally taken. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (8)

1. A residential intelligent power system capable of maintaining a room in a power-off state, the system comprising:

the power control equipment is arranged in the residential room and used for executing a power-off keeping instruction, releasing the power-off keeping instruction, scanning a code power-taking instruction or automatically taking power when the power is disconnected;

the cloud software system is arranged on the cloud server and used for receiving the power-off keeping request, the power-off keeping command releasing and the code scanning power taking request, and issuing the power-off keeping request, the power-off keeping command releasing and the code scanning power taking command after analyzing and judging based on the request;

the civil home operation system is arranged on a civil home operator terminal and used for initiating a power-off maintaining instruction and releasing the power-off maintaining instruction;

the cloud server is in communication connection with at least one electric control device through a Wi-Fi router, the electric control device comprises a Wi-Fi module connected into the Wi-Fi router, a processor used for sending a power-off maintaining signal, a power-off maintaining signal removing signal, a code scanning power getting signal and a power-off automatic power getting signal, and a relay module used for completing electric switch control.

2. The residential intelligent power system capable of maintaining a room in a power-off state according to claim 1, wherein: the processor is internally provided with an electric control software system, and the electric control software system comprises a connection management module, a command execution module and an automatic power taking module;

a connection management module: establishing and managing Internet network communication connection between the power control equipment and the cloud software system;

a command execution module: executing a power-off keeping instruction, a power-off keeping instruction and a code scanning power-taking instruction which are issued by a cloud software system, or carrying out configuration updating on the operation parameters of the power control equipment;

the automatic power taking module: and judging whether to automatically take power after the preset power-off time according to the operation parameters configured by the cloud software system and the current power-on and power-off state of the room power switch.

3. The residential intelligent power system capable of maintaining a room in a power-off state according to claim 1, wherein: the cloud software system comprises a terminal device connecting gateway, a remote command module, a terminal device and room information management module, an intelligent power utilization management module and a front-end system management gateway;

the terminal equipment is connected with the gateway: establishing and managing Internet network communication connection between the cloud software system and the power control equipment;

a remote command module: issuing a power-off keeping instruction, a power-off releasing keeping instruction, a code scanning power taking instruction or operation parameters of the power control equipment to the power control equipment;

the terminal equipment and room information management module: managing basic data of the power control equipment, basic data of the room and binding relationship between the power control equipment and the room;

the intelligent power utilization management module: generating a power-on and power-off switching instruction according to the room returning time and the delay duration of the room; or code scanning and electricity getting information generated by code scanning of the guest terminal is identified to generate a code scanning and electricity getting instruction; whether a power-off keeping instruction, a power-off keeping instruction is released and a code scanning power taking instruction is transmitted to the command execution module is judged according to the power-on and power-off state of the room;

the front-end system management gateway: and establishing and managing Internet network communication connection between the cloud software system and the intelligent control software system.

4. The residential intelligent power system capable of maintaining a room in a power-off state according to claim 1, wherein: the residential business management end system comprises a room operation management module and a remote control module;

a room operation management module: setting the room returning time and delay time parameters of a room;

a remote control module: and initiating a power-off maintaining request and releasing the power-off maintaining request.

5. A civil-host intelligent electricity utilization method capable of keeping a room in a power-off state is characterized by comprising the following steps: the method comprises the steps of scanning codes to obtain electricity and keeping power-off operation;

the code scanning and power taking operation flow is as follows:

(1) scanning the electricity-taking two-dimensional code through the passenger terminal to generate a scanning electricity-taking request; the code scanning power taking request comprises unique identification information of the power control equipment corresponding to the current room;

(2) sending a code scanning electricity taking request to a cloud software system of a cloud server through a guest terminal;

(3) the cloud software system of the cloud server receives the code scanning power-taking request, analyzes the unique identification information of the corresponding power control equipment from the code scanning power-taking request, and inquires whether the corresponding power control equipment is in a power-off keeping state or not according to the unique identification information;

(4) if the corresponding power control equipment is in a power-off keeping state, the cloud software system of the cloud server returns power-taking failure prompt information to the guest terminal;

(5) if the corresponding power control equipment is not in the power-off keeping state, the cloud software system of the cloud server sends a code scanning power-taking instruction to the corresponding power control equipment;

(6) the corresponding power control equipment receives and executes the code scanning power taking instruction, and the power taking operation is completed through the relay module;

the power-off maintaining operation flow is as follows:

(1) selecting a room number needing to be set for keeping power off through a resident operator terminal;

(2) setting the refuge time and the power-off delay time through a resident operator terminal;

(3) sending a power-off maintaining request to a cloud software system of the cloud server through the residential operator terminal, and sending a power-off maintaining instruction to corresponding power control equipment through the cloud software system; or, judging whether the room power-off time is greater than the sum of the room returning time and the power-off delay time through the cloud software system, if so, automatically issuing a power-off keeping instruction to the corresponding power control equipment, and setting the current room state to be a power-off keeping state;

(4) and the corresponding power control equipment receives and executes the power-off maintaining instruction, and completes the power-off operation through the relay module.

6. The residential intelligent electricity utilization method capable of keeping a room in a power-off state according to claim 5, wherein: the method further includes releasing the hold power-down operation;

the flow of the operation of releasing the power failure is as follows:

(1) sending a power failure releasing and maintaining request to a cloud software system of a cloud server through a resident operator terminal;

(2) the cloud software system of the cloud server receives the power off maintaining request and sets the current room state to be a non-power off maintaining state;

(3) a cloud software system of the cloud server issues a power failure releasing instruction to the power control equipment, and the corresponding power control equipment marks that the working state is a non-power failure holding state;

(4) and the power control equipment returns a successful power failure releasing and maintaining signal to a cloud software system of the cloud server, and successful power failure releasing and maintaining information is displayed at the terminal of the residential and residential operator.

7. The residential intelligent electricity utilization method capable of keeping a room in a power-off state according to claim 5, wherein: the precondition of the code scanning power-taking operation is as follows:

1. generating a power-taking two-dimensional code containing unique identification information of the power equipment corresponding to the current room, and pasting the power-taking two-dimensional code at a door of the room;

2. the current room runs normally corresponding to the power control equipment, and is connected with a cloud software system of the cloud server;

if the power control equipment and the cloud software system of the cloud server are disconnected, the power control equipment periodically retries to establish connection.

8. The residential intelligent electricity utilization method capable of keeping a room in a power-off state according to claim 5, wherein: the method also comprises the operation of automatic power supply when the connection is disconnected;

the automatic power-taking process for disconnection is as follows:

(1) entering an infinite loop, and checking the connection state of the power control equipment and a cloud software system of a cloud server;

(2) if the connection is normal, setting the disconnection count to be 0, judging the connection state again after waiting for n seconds, and if the connection is abnormal, adding 1 to the disconnection count;

(3) judging whether the disconnection count is greater than or equal to a preset value X, if so, waiting for n seconds and then judging the connection state of the power control system and the cloud software system of the cloud server again; if the disconnection count is greater than or equal to a preset value X, judging whether the power control equipment is in a 'power-off maintaining state';

(4) if the power control equipment is in the power-off keeping state, judging the connection state of the power control equipment and the cloud software system of the cloud server again after waiting for n seconds; if the power supply is not in the power-off maintaining state, judging whether the room is in the power-on state;

(5) if the room is in the power-on state, judging the connection state of the power control equipment and the cloud software system of the cloud server again after waiting for n seconds; if the room is in the "power-off state", the relay is turned on so that the room is powered on.

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