CN111432538A - Control method and device for ZigBee single fire switch of Internet of things smart home - Google Patents

Abstract

The embodiment of the invention discloses a control method, a control device, control equipment and a storage medium of an Internet of things smart home ZigBee single fire switch. The method is applied to a ZigBee single fire switch control system, the ZigBee single fire switch control system comprises a control terminal, a ZigBee single fire switch and a relay, the ZigBee single fire switch is respectively connected with the control terminal and the relay, and the relay is connected with electric equipment; the control method comprises the steps of obtaining the working phase of the ZigBee single fire switch; and then controlling the current consumed by the ZigBee single live switch in the working process to be smaller than the power supply current of the ZigBee single live switch control system according to the working stage. The technical scheme provided by the embodiment of the invention realizes the effect of preventing electric equipment such as lamps and the like from flickering under the control of the ZigBee single fire switch.

Description

Control method and device for ZigBee single fire switch of Internet of things smart home

Technical Field

The embodiment of the invention relates to the technology of intelligent lamps, in particular to a control method, a control device, control equipment and a storage medium of an Internet of things intelligent home ZigBee single fire switch.

Background

Most of intelligent switches in the current market are ZigBee zero-fire switches, and intelligent lamp flicker does not exist in the intelligent ZigBee switches of the zero-fire version. In actual home users, most families only have a live wire in decoration switch panel department, do not reserve the zero line, if need realize that light zero live wire switch is wireless to be controlled, must pull a zero line through the heavy construction work of punching a hole through the wall, the house that decorates like this is inconvenient installation intelligence switch.

The intelligent ZigBee switch with single fire also appears in the current market, but the intelligent ZigBee switch with single fire has the problem of lamp flickering. The reason for causing the twinkling problem of the intelligent ZigBee single fire switch panel is as follows: in order to realize remote control, the intelligent ZigBee single fire switch is required to be kept to work uninterruptedly, and the intelligent ZigBee single fire switch panel is insufficient in power supply, so that the problem of lamp flickering under the control of the intelligent ZigBee single fire switch is often caused. For example, the intelligent ZigBee single fire switch panel can consume a large amount of current in the ZigBee networking process, and this can lead to the lamp to flicker incessantly.

Therefore, the problem of continuous flicker of the intelligent lamp under the control of the ZigBee single fire switch panel is solved, and the problem is mainly solved by the intelligent ZigBee single fire switch panel.

Disclosure of Invention

The embodiment of the invention provides a control method, a control device, control equipment and a storage medium of an Internet of things smart home ZigBee single fire switch. The effect of preventing electric equipment such as lamps and lanterns under the control of zigBee single fire switch from flickering is achieved.

In a first aspect, the embodiment of the invention provides a control method of a ZigBee single fire switch of an Internet of things smart home, which is applied to a ZigBee single fire switch control system, wherein the ZigBee single fire switch control system comprises a control terminal, a ZigBee single fire switch and a relay, the ZigBee single fire switch is respectively connected with the control terminal and the relay, and the relay is connected with an electric device; the control method comprises the following steps:

acquiring the working stage of the ZigBee single fire switch;

and controlling the current consumed by the ZigBee single fire switch in the working process to be smaller than the power supply current of the ZigBee single fire switch control system according to the working stage.

Optionally, the working phase of the ZigBee single fire switch comprises a networking working phase of the ZigBee single fire switch; the ZigBee single fire switch networking working stage comprises a working sub-stage and a dormancy sub-stage;

according to the working phase, the current consumed by the ZigBee single live switch in the working process is controlled to be smaller than the power supply current of the ZigBee single live switch control system, and the method comprises the following steps:

and adjusting the proportion between the duration of the working sub-phase and the duration of the sleep sub-phase to meet a first proportion so that the electric energy stored by the ZigBee single-fire switch in the sleep sub-phase is greater than or equal to the electric energy consumed by the ZigBee single-fire switch in the next working sub-phase.

Optionally, adjusting a ratio between the duration of the working sub-phase and the duration of the sleep sub-phase to satisfy a first ratio includes:

adjusting the ratio between the duration of the working sub-phase T1 and the duration of the sleep sub-phase T2 to satisfy 0< T1/T2< 0.438.

Optionally, adjusting a ratio between the duration of the working sub-phase and the duration of the sleep sub-phase to satisfy a first ratio includes:

adjusting the ratio between the duration of the working sub-phase T1 and the duration of the sleep sub-phase T2 to satisfy 0< T1/T2< 0.23.

Optionally, the working phase further includes a relay control phase;

according to the working phase, the current consumed by the ZigBee single live switch in the working process is controlled to be smaller than the power supply current of the ZigBee single live switch control system, and the method comprises the following steps:

sending a relay action execution instruction to the ZigBee one-fire switch, controlling the ZigBee one-fire switch to send an action instruction to the relay according to the relay action execution instruction, wherein the current consumed in the process that the ZigBee one-fire switch sends the action instruction to the relay according to the relay action execution instruction is smaller than the power supply current of the ZigBee one-fire switch control system;

after the first preset time, a relay state reporting instruction is sent to the ZigBee single fire switch, the ZigBee single fire switch is controlled to report the relay state according to the relay state reporting instruction, and the current consumed in the process of reporting the relay state by the ZigBee single fire switch according to the relay state reporting instruction is smaller than the power supply current of the ZigBee single fire switch control system.

Optionally, the first preset time T is greater than or equal to 500ms and less than or equal to 1 s.

Optionally, after a first preset time, sending a relay state reporting instruction to the ZigBee single fire switch, and controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction includes:

after the first preset time, a relay state reporting instruction is sent to the ZigBee single fire switch, and the ZigBee single fire switch is controlled to report the relay state to a ZigBee networking gateway or a user using program according to the relay state reporting instruction.

In a second aspect, an embodiment of the present invention further provides a control device for a ZigBee single fire switch of an internet of things smart home, where the control device includes:

the working phase acquisition module: the working stage is used for acquiring the ZigBee single fire switch;

a consumption current control module: and the power supply control circuit is used for controlling the current consumed by the ZigBee single live switch in the working process to be smaller than the power supply current of the ZigBee single live switch control system according to the working stage.

In a third aspect, an embodiment of the present invention further provides a control device for a ZigBee single fire switch of an internet of things smart home, where the device includes:

one or more processors;

a storage device for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors are enabled to realize the control method of the Internet of things smart home ZigBee single fire switch as claimed in any one of claims 1-7.

In a fourth aspect, an embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to implement the method for controlling an internet of things smart home ZigBee single fire switch as described in the first aspect.

The control method of the ZigBee single fire switch in the embodiment of the invention is applied to a ZigBee single fire switch control system, the ZigBee single fire switch control system comprises a control terminal, the ZigBee single fire switch and a relay, the ZigBee single fire switch is respectively connected with the control terminal and the relay, and the relay is connected with electric equipment. According to the technical scheme, the working stage of the ZigBee single fire switch is obtained; and then controlling the current consumed by the ZigBee single fire switch in the working process to be smaller than the power supply current of the ZigBee single fire switch control system according to the working stage, namely, controlling the current consumed by the ZigBee single fire switch in the working process to be reduced as much as possible to meet the normal working voltage of the ZigBee single fire switch so as to prevent the lamps under the control of the ZigBee single fire switch from flickering, and solving the problem that the lamps under the control of the ZigBee single fire switch flicker caused by the fact that the ZigBee single fire switch is switched off due to insufficient power supply of the ZigBee single fire switch in the prior art.

Drawings

Fig. 1 is a flowchart of a control method of an internet of things smart home ZigBee single fire switch according to an embodiment of the present invention;

FIG. 2 is a flowchart of a control method of an Internet of things smart home ZigBee single fire switch provided by the second embodiment of the invention;

fig. 3 is a schematic structural diagram of a control device of an internet of things smart home ZigBee single fire switch according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a control device of an internet of things smart home ZigBee single fire switch according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a flowchart of a control method of a ZigBee single fire switch of an internet of things smart home according to an embodiment of the present invention, which is applicable to a control situation of the ZigBee single fire switch in a ZigBee single fire switch control system, the ZigBee single fire switch control system includes a control terminal, a ZigBee single fire switch, and a relay, the ZigBee single fire switch is connected to the control terminal and the relay, and the relay is connected to a power-consuming device; the method can be executed by a control device of a ZigBee single fire switch, and specifically comprises the following steps:

and S110, acquiring the working phase of the ZigBee single fire switch.

The ZigBee technology has the characteristics of long communication distance, strong wall penetrating capability and low transmission power and is suitable for smart home occasions, and is a mainstream control mode of the intelligent switch.

And S120, controlling the ZigBee single fire switch to consume less current in the working process according to the working stage, wherein the current is less than the power supply current of the ZigBee single fire switch control system.

Wherein, at ZigBee single fire switch network deployment operating phase, the peak current can lead to consuming a large amount of electric currents at zigBee single fire switch network deployment in-process at tens of MA when sending data usually for ZigBee single fire switch, so when zigBee single fire switch's self supply current is not enough, the network deployment failure can appear, and zigBee single fire switch is out of work, causes the problem that consumer such as lamps and lanterns twinkle. In addition, when the ZigBee single fire switch enters a relay control state, a large amount of current is consumed, so that the ZigBee single fire switch is in a continuous on-off state due to insufficient current, and the problem that electric equipment such as lamps flicker is caused.

In the technical scheme, the working phase of the ZigBee single fire switch is obtained, then the current consumed by the ZigBee single fire switch in the working process is controlled to be smaller than the power supply current of the ZigBee single fire switch control system according to the working phase of the ZigBee single fire switch, specifically, when the ZigBee single fire switch is in the networking working phase, the current consumed by the ZigBee single fire switch in the networking working process is controlled to be smaller than the power supply current of the ZigBee single fire switch control system, the sufficient power supply current of the ZigBee single fire switch is ensured, networking failure cannot occur, and networking is performed again. When the ZigBee single fire switch is in a relay control state, the current consumed by the ZigBee single fire switch in the relay control process is controlled to be smaller than the power supply current of a ZigBee single fire switch control system; the power supply current of the ZigBee single fire switch is ensured to be sufficient, and the problem that electric equipment such as lamps and the like flicker due to insufficient power supply current of the ZigBee single fire switch is solved.

Example two

On the basis of the above embodiment, further optimization is performed, and fig. 2 is a flowchart of a control method for an internet of things smart home ZigBee single fire switch provided by the second embodiment of the present invention, as shown in fig. 2: the method comprises the following steps:

s210, obtaining the working phase of the ZigBee single fire switch.

The ZigBee single fire switch in the ZigBee single fire switch control system comprises two working stages in actual work, namely a ZigBee single fire switch networking working stage and a relay control stage. The ZigBee single fire switch networking working phase comprises a working sub-phase and a dormancy sub-phase. It should be noted that, the ZigBee single fire switch is in a sub-working stage in the networking working stage, and the ZigBee single fire switch consumes a certain amount of energy. And certain electric energy can be stored in the dormancy sub-stage to be consumed by the electric energy of the next working sub-stage of the ZigBee single fire switch. After the ZigBee single fire switch works and is successfully networked, the ZigBee single fire switch enters a relay control stage to reflect the on or off state of external electric equipment; when the relay control state is updated, the relay control state (namely the on or off state of the external electric equipment) is fed back to the gateway or the user mobile phone APP through the zigbee single fire switch.

S220, adjusting the proportion between the duration of the working sub-phase and the duration of the sleeping sub-phase in the ZigBee single fire switch working networking phase to meet a first proportion.

The ratio between the duration of the working sub-phase and the duration of the sleeping sub-phase in the working networking phase of the ZigBee single-fire switch is adjusted to meet a first ratio, so that the electric energy stored by the ZigBee single-fire switch in the sleeping sub-phase is greater than or equal to the electric energy consumed by the ZigBee single-fire switch in the next working sub-phase. The electric energy of dormancy substage storage like this can not cause zigBee single fire switch network deployment in-process network deployment failure in order to provide the electric energy that the zigBee single fire switch next work substage consumed, restarts the network deployment, also can not cause electrical equipment such as lamps and lanterns that restart network deployment leads to like this to take place the flashing lamp problem.

Optionally, the ratio between the duration of the adjustment work sub-phase T1 and the duration of the sleep sub-phase T2 satisfies 0< T1/T2< 0.438.

Illustratively, the cycle time of a networking stage of a ZigBee single fire switch is adjusted to be 1.95S, the sleep time is 0.78S, the ZigBee single fire switch works for 1.17S, when the peak current of the networking stage of the ZigBee single fire switch works is 15.5mA, the average current value consumed by the networking of the ZigBee single fire switch is 0.78/1.95=0.4, 0.78/1.95 × 15.5mA =6.2mA in the whole networking period, so that the electric energy stored in the sleep sub-stage of the ZigBee single fire switch is larger than or equal to the electric energy consumed by the ZigBee single fire switch in the next working sub-stage through the sleep and working time duty ratio of the ZigBee single fire switch in the networking stage, the current consumption value in the whole period is reduced, and the problems of networking failure, networking re-networking and the like caused by insufficient power supply current of the ZigBee single fire switch are avoided. The problem that electric equipment such as lamps and lanterns flicker lamps caused by restarting the networking is effectively prevented. Preferably, when the first ratio satisfies 0< T1/T2<0.23, that is, the average consumed current is 15.5mA × 0.23=3.65mA, sufficient current can be stored by increasing the sleep time of the zigbee single fire switch in the networking stage, so as to further ensure the networking success rate and prevent the electrical equipment such as the lamp from flickering.

And S230, sending a relay action execution instruction to the ZigBee one-fire switch, controlling the ZigBee one-fire switch to send an action instruction to the relay according to the relay action execution instruction, wherein the current consumed by the ZigBee one-fire switch in the process of sending the action instruction to the relay according to the relay action execution instruction is smaller than the power supply current of the ZigBee one-fire switch control system.

The ZigBee single fire switch receives the relay action execution instruction, controls the relay to act so as to control the electrical equipment such as a lamp to be in an on or off state, and at the moment, the current consumed in the process of sending the action instruction to the relay is small, so that the electric energy consumed in the process is small. After the ZigBee single fire switch controls the relay to act, namely, an indoor user can see the on-off state of electric equipment such as a lamp and the like, and after the first preset time, the ZigBee single fire switch receives a relay state reporting instruction and reports the relay state reporting instruction to the control terminal.

And S240, after the first preset time, sending a relay state reporting instruction to the ZigBee single fire switch, controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction, wherein the current consumed in the process of reporting the relay state by the ZigBee single fire switch according to the relay state reporting instruction is smaller than the power supply current of the ZigBee single fire switch control system.

Preferably, the first preset time T is more than or equal to 500ms and less than or equal to 1s, that is, after the relay acts, the control state of the relay (i.e., the on or off state of the electrical equipment such as a lamp) is delayed by the preset time and reported to the control terminal. Compared with the prior art, the relay action and the relay control state are synchronously completed, and at the same time, the current consumed by the relay action and the current consumed by the relay control state are superposed, so that the consumed current of the ZigBee single fire switch relay control stage is increased, and further, the power supply current of the ZigBee single fire switch is insufficient, and the electric equipment such as a lamp is caused to flicker. According to the technical scheme, after the relay acts and the preset time is delayed, the state of the relay is reported to the control terminal, the current consumed in the control stage of the relay can be effectively reduced within the same time, and the flicker of electric equipment such as a lamp is avoided.

Optionally, after the first preset time, sending a relay state reporting instruction to the ZigBee single fire switch, and controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction includes:

and after the first preset time, a relay state reporting instruction is sent to the ZigBee single fire switch, and the ZigBee single fire switch is controlled to report the relay state to the ZigBee networking gateway or a user using program according to the relay state reporting instruction.

After the ZigBee single fire switch controls the relay to act, the relay state is reported to the ZigBee networking gateway and then is sent to each control terminal through the wireless router, so that a user can conveniently and directly obtain the on-off state of electric equipment such as a lamp and the like from each control terminal. Or the relay state is directly reported to the user application program (namely user APP), the user directly obtains the on-off state of the electric equipment such as lamps and lanterns from the APP, so that the experience that the user uses the intelligent ZigBee single fire switch is improved.

EXAMPLE III

The control device of the ZigBee single fire switch of the intelligent home based on the Internet of things, provided by the third embodiment of the invention, can execute the control method of the ZigBee single fire switch of the intelligent home based on the Internet of things, provided by the first embodiment and the second embodiment of the invention, and has corresponding functional modules and beneficial effects of the execution method. Fig. 3 is a schematic structural diagram of a control device of an internet of things smart home ZigBee single fire switch provided by a third embodiment of the present invention, where the device includes:

working phase acquisition module 10: the working stage is used for acquiring the ZigBee single fire switch;

consumption current control module 20: the power supply control system is used for controlling the ZigBee single fire switch to consume less current in the working process according to the working stage than the power supply current of the ZigBee single fire switch control system.

Optionally, the working phase obtaining module 10 includes a single fire switch networking working phase obtaining sub-module; the consumption current control module 20 includes a first scale adjustment sub-module,

and the first proportion adjusting sub-module is used for adjusting the proportion between the duration of the working sub-phase and the duration of the sleeping sub-phase to meet the first proportion, so that the electric energy stored by the ZigBee single-fire switch in the sleeping sub-phase is greater than or equal to the electric energy consumed by the ZigBee single-fire switch in the next working sub-phase.

Optionally, the first ratio adjusting module is specifically configured to adjust a ratio between a duration T1 of the working sub-phase and a duration T2 of the sleep sub-phase to satisfy 0< T1/T2< 0.438.

Optionally, the first ratio adjusting module is further specifically configured to adjust a ratio between a duration T1 of the working sub-phase and a duration T2 of the sleep sub-phase to satisfy 0< T1/T2< 0.23.

Optionally, the working phase obtaining module 10 further includes a relay control state obtaining sub-module;

the power consumption control module 20 further includes a relay action execution instruction sending unit and a relay state reporting instruction sending unit;

the relay action execution instruction sending unit is used for sending a relay action execution instruction to the ZigBee one-fire switch, controlling the ZigBee one-fire switch to send an action instruction to the relay according to the relay action execution instruction, and enabling the current consumed in the process that the ZigBee one-fire switch sends the action instruction to the relay according to the relay action execution instruction to be smaller than the power supply current of the ZigBee one-fire switch control system;

and the relay state reporting instruction sending unit is used for sending a relay state reporting instruction to the ZigBee single fire switch after the first preset time, controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction, wherein the current consumed in the process of reporting the relay state by the ZigBee single fire switch according to the relay state reporting instruction is less than the power supply current of the ZigBee single fire switch control system.

Optionally, the first preset time T is greater than or equal to 500ms and less than or equal to 1 s.

Optionally, after the first preset time, sending a relay state reporting instruction to the ZigBee single fire switch, and controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction includes:

the relay state reporting instruction sending unit is specifically used for sending a relay state reporting instruction to the ZigBee single fire switch after a first preset time, and controlling the ZigBee single fire switch to report the relay state to the ZigBee networking gateway or a user using program according to the relay state reporting instruction.

Example four

Fig. 4 is a schematic structural diagram of a control device of an internet of things smart home ZigBee single fire switch according to a fourth embodiment of the present invention, as shown in fig. 4, the device includes a processor 70, a memory 71, an input device 72, and an output device 73; the number of processors 70 in the device may be one or more, and one processor 70 is taken as an example in fig. 4; the processor 70, the memory 71, the input device 72 and the output device 73 of the apparatus may be connected by a bus or other means, as exemplified by the bus connection in fig. 4.

The memory 71 is a computer-readable storage medium, and can be used for storing software programs, computer-executable programs, and modules, such as program instructions corresponding to the theme update method in the embodiment of the present invention. The processor 70 executes various functional applications of the device and data processing by executing software programs, instructions, and modules stored in the memory 71, that is, implements the theme update method described above.

The memory 71 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like. Further, the memory 71 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the memory 71 may further include memory located remotely from the processor 70, which may be connected to the device/terminal/server via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 72 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function control of the apparatus/terminal/server. The output device 73 may include a display device such as a display screen.

EXAMPLE five

An embodiment of the present invention further provides a storage medium containing computer-executable instructions, where the computer-executable instructions are executed by a computer processor to perform a method for controlling an internet of things smart home ZigBee single fire switch, where the method includes:

acquiring the working stage of the ZigBee single fire switch;

and controlling the ZigBee single fire switch to consume less current in the working process according to the working stage than the power supply current of the ZigBee single fire switch control system.

Of course, the storage medium provided by the embodiment of the present invention contains computer-executable instructions, and the computer-executable instructions are not limited to the method operations described above, and may also perform related operations in the search method provided by any embodiment of the present invention.

Based on the understanding that the technical solution of the present invention can be embodied in the form of a software product, which can be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a flash Memory (F L ASH), a hard disk or an optical disk of a computer, and the like, and includes instructions for enabling a computer device (which may be a personal computer, a server, or a network device, and the like) to execute the control method of the ZigBee single fire switch according to the embodiments of the present invention.

It should be noted that, in the embodiment of the above search apparatus, each included unit and module are merely divided according to functional logic, but are not limited to the above division as long as the corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A control method of an Internet of things smart home ZigBee single fire switch is applied to a ZigBee single fire switch control system, the ZigBee single fire switch control system comprises a control terminal, a ZigBee single fire switch and a relay, the ZigBee single fire switch is respectively connected with the control terminal and the relay, and the relay is connected with electric equipment; the control method is characterized by comprising the following steps:

acquiring the working stage of the ZigBee single fire switch;

and controlling the current consumed by the ZigBee single fire switch in the working process to be smaller than the power supply current of the ZigBee single fire switch control system according to the working stage.

2. The control method according to claim 1, wherein the operating phase of the ZigBee single fire switch comprises a ZigBee single fire switch networking operating phase; the ZigBee single fire switch networking working stage comprises a working sub-stage and a dormancy sub-stage;

according to the working phase, the current consumed by the ZigBee single live switch in the working process is controlled to be smaller than the power supply current of the ZigBee single live switch control system, and the method comprises the following steps:

and adjusting the proportion between the duration of the working sub-phase and the duration of the sleep sub-phase to meet a first proportion, so that the electric energy stored by the ZigBee single-fire switch in the sleep sub-phase is greater than or equal to the electric energy consumed by the ZigBee single-fire switch in the next working sub-phase.

3. The control method of claim 2, wherein adjusting the ratio between the duration of the working sub-phase and the duration of the sleep sub-phase to satisfy a first ratio comprises:

adjusting the ratio between the duration of the working sub-phase T1 and the duration of the sleep sub-phase T2 to satisfy 0< T1/T2< 0.438.

4. The control method of claim 3, wherein adjusting the ratio between the duration of the working sub-phase and the duration of the sleep sub-phase to satisfy a first ratio comprises:

adjusting the ratio between the duration of the working sub-phase T1 and the duration of the sleep sub-phase T2 to satisfy 0< T1/T2< 0.23.

5. The control method of claim 1, wherein the operational phase further comprises a relay control phase;

according to the working phase, the current consumed by the ZigBee single live switch in the working process is controlled to be smaller than the power supply current of the ZigBee single live switch control system, and the method comprises the following steps:

sending a relay action execution instruction to the ZigBee one-fire switch, controlling the ZigBee one-fire switch to send an action instruction to the relay according to the relay action execution instruction, wherein the current consumed in the process that the ZigBee one-fire switch sends the action instruction to the relay according to the relay action execution instruction is smaller than the power supply current of the ZigBee one-fire switch control system;

after the first preset time, a relay state reporting instruction is sent to the ZigBee single fire switch, the ZigBee single fire switch is controlled to report the relay state according to the relay state reporting instruction, and the current consumed in the process of reporting the relay state by the ZigBee single fire switch according to the relay state reporting instruction is smaller than the power supply current of the ZigBee single fire switch control system.

6. The control method according to claim 5, characterized in that the first preset time T satisfies 500ms ≦ T ≦ 1 s.

7. The control method according to claim 5, wherein after a first preset time, sending a relay state reporting instruction to the ZigBee single fire switch, and controlling the ZigBee single fire switch to report the relay state according to the relay state reporting instruction comprises:

after the first preset time, a relay state reporting instruction is sent to the ZigBee single fire switch, and the ZigBee single fire switch is controlled to report the relay state to a ZigBee networking gateway or a user using program according to the relay state reporting instruction.

8. Control device of thing networking intelligence house zigBee single fire switch, its characterized in that includes

The working phase acquisition module: the working stage is used for acquiring the ZigBee single fire switch;

a consumption current control module: and the power supply control circuit is used for controlling the current consumed by the ZigBee single live switch in the working process to be smaller than the power supply current of the ZigBee single live switch control system according to the working stage.

9. The utility model provides a controlgear of thing networking intelligence house zigBee single fire switch which characterized in that, equipment includes:

one or more processors;

a storage device for storing one or more programs,

when the one or more programs are executed by the one or more processors, the one or more processors are enabled to realize the control method of the Internet of things smart home ZigBee single fire switch as claimed in any one of claims 1-7.

10. A computer-readable storage medium, on which a computer program is stored, characterized in that the program, when executed by a processor, implements the method for controlling an internet of things smart home ZigBee one fire switch as claimed in any one of claims 1-7.

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