CN111445649A - Low-power-consumption wireless doorbell system and control method thereof - Google Patents

Abstract

The application discloses a low-power-consumption wireless doorbell system and a control method thereof, and relates to the technical field of Internet of things. Wherein, low-power consumption wireless doorbell system includes: the doorbell indoor unit is connected with the first type of wireless local area network; the doorbell outdoor unit is connected with the doorbell indoor unit through a first type of wireless local area network or a second type of wireless local area network according to the current use state; the doorbell outdoor unit is also connected with or disconnected from the first type of wireless local area network according to the current use state; wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network. The doorbell system can dynamically adjust the wireless connection mode of the doorbell inner machine and the doorbell outer machine according to the use state of the doorbell outer machine, and the connection or disconnection of the doorbell outer machine and a first type of wireless local area network with high power consumption, so that the power consumption of the wireless doorbell is reduced.

Description

Low-power-consumption wireless doorbell system and control method thereof

Technical Field

The application relates to the technical field of communication, in particular to the technical field of Internet of things, and particularly relates to a low-power-consumption wireless doorbell system and a control method thereof.

Background

Along with the progress of the times and the development of the technology, the types of the doorbell are more and more, and the doorbell can be roughly divided into: visual doorbell, induction doorbell, wireless doorbell, etc. At present, wifi connection is between the indoor set of most wireless doorbell and the outer machine. However, the doorbell energy consumption is higher due to the fact that the doorbell inner machine and the doorbell outer machine are connected through wifi.

Disclosure of Invention

The application provides a low-power-consumption wireless doorbell system and a control method thereof, which are used for solving the problem that the existing wireless doorbell is high in energy consumption in the related technology.

An embodiment of one aspect of the present application provides a low-power consumption wireless doorbell system, including:

the doorbell indoor unit is connected with the first type of wireless local area network;

the doorbell outdoor unit is connected with the doorbell indoor unit through a first type of wireless local area network or a second type of wireless local area network according to the current use state;

the doorbell outdoor unit is also connected with or disconnected from the first type of wireless local area network according to the current use state;

wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network.

The low-power-consumption wireless doorbell system comprises a doorbell indoor unit connected with a first type of wireless local area network and a doorbell outdoor unit connected with the doorbell indoor unit through the first type of wireless local area network or a second type of wireless local area network according to the current use state, wherein the power consumption of the second type of wireless local area network is smaller than that of the first type of wireless local area network. Therefore, the doorbell system can dynamically adjust the wireless connection mode of the doorbell inner machine and the doorbell outer machine according to the use state of the doorbell outer machine, and the connection or disconnection between the doorbell outer machine and the first type of wireless local area network with high power consumption, so that the power consumption of the wireless doorbell is reduced.

An embodiment of another aspect of the present application provides a low power consumption wireless doorbell control method, including:

acquiring the current use state of the doorbell outdoor unit;

controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit;

and controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit.

According to the low-power-consumption wireless doorbell control method, the current use state of the doorbell outdoor unit is obtained; controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit; and controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit. Therefore, the wireless connection mode of the doorbell inner unit and the doorbell outer unit is dynamically adjusted according to the using state of the doorbell outer unit, and the connection state of the doorbell outer unit and the first type of wireless local area network can be controlled, so that the power consumption of the wireless doorbell is reduced.

This application another aspect embodiment provides a low-power consumption wireless doorbell controlling means, includes:

the acquisition module is used for acquiring the current use state of the doorbell outdoor unit;

the first control module is used for controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit;

and the second control module is used for controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit.

According to the low-power-consumption wireless doorbell control device, the current use state of the doorbell outdoor unit is obtained; controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit; and controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit. Therefore, the wireless connection mode of the doorbell inner unit and the doorbell outer unit is dynamically adjusted according to the using state of the doorbell outer unit, and the connection state of the doorbell outer unit and the first type of wireless local area network can be controlled, so that the power consumption of the wireless doorbell is reduced.

Another embodiment of the present application provides a non-transitory computer readable storage medium storing thereon a computer program, the computer program being configured to cause a computer to execute the method for controlling a low-power wireless doorbell described in the above embodiment of the aspect.

The embodiments in the above application have the following beneficial effects: the wireless connection mode of the doorbell inner unit and the doorbell outer unit can be dynamically adjusted according to the use state of the doorbell outer unit, and the doorbell outer unit is connected or disconnected with the first type of high-power-consumption wireless local area network, wherein the power consumption of the second type of wireless local area network is smaller than that of the first type of wireless local area network. Because the wireless connection mode of the doorbell inner unit and the doorbell outer unit is dynamically adjusted according to the use state of the doorbell outer unit and the technical means of connection or disconnection of the doorbell outer unit and the first type of wireless local area network with high power consumption are adopted, the problem that the power consumption of the existing wireless doorbell is high is solved, and the technical effect of reducing the power consumption is achieved.

Other effects of the above-described alternative will be described below with reference to specific embodiments.

Drawings

The drawings are included to provide a better understanding of the present solution and are not intended to limit the present application. Wherein:

fig. 1 is a schematic structural diagram of a low-power wireless doorbell system according to an embodiment of the present application;

fig. 2 is a schematic diagram illustrating a network connection relationship between an outdoor unit and an indoor unit of a doorbell, according to an embodiment of the present application;

fig. 3 is a schematic diagram illustrating a network connection relationship between an outdoor unit and an indoor unit of a doorbell, according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of another low-power wireless doorbell provided in the embodiment of the present application;

fig. 5 is a schematic connection diagram between a low-power wireless doorbell and a router and a mobile phone provided in the embodiment of the present application;

fig. 6 is a schematic flowchart of a low-power consumption wireless doorbell control method according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a low-power wireless doorbell control device provided in an embodiment of the present application.

Detailed Description

The following description of the exemplary embodiments of the present application, taken in conjunction with the accompanying drawings, includes various details of the embodiments of the application for the understanding of the same, which are to be considered exemplary only. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the present application. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

The low-power wireless doorbell system and the control method thereof according to the embodiments of the present application are described below with reference to the accompanying drawings.

The embodiment of the application provides a low-power-consumption wireless doorbell system aiming at the problem that the power consumption of the existing wireless doorbell in the related art is high.

Fig. 1 is a schematic structural diagram of a low-power wireless doorbell system according to an embodiment of the present application.

As shown in fig. 1, the low power consumption wireless doorbell 100 comprises: the doorbell outer machine 110 and the doorbell inner machine 120.

The doorbell indoor unit 120 is connected to a first type of wireless local area network, for example, the doorbell indoor unit 120 may be connected to a router through the first type of wireless local area network. The first type of wireless local area network refers to a wireless network capable of rapidly transmitting a large amount of data, such as wifi, and the like, namely, data transmission can be performed between the doorbell indoor unit and the router through wifi connection.

According to the current use state of the doorbell outdoor unit 110, the doorbell outdoor unit 110 is connected with the doorbell indoor unit 120 through a first type of wireless local area network or a second type of wireless local area network. That is, it may be determined whether the doorbell outdoor unit 110 is connected to the doorbell indoor unit 120 through the first type of wireless local area network or the second type of wireless local area network according to the usage state of the doorbell outdoor unit 110.

The power consumption of the second type of wireless local area network is less than that of the first type of wireless local area network, and the second type of wireless local area network may be a low-power Mesh network, such as a bluetooth B L E Mesh or a ZigBee Mesh.

In this embodiment, the doorbell outdoor unit 110 may be in a use state or an idle state, such as a sleep state. As an example, when the doorbell outdoor unit 110 needs to perform data transmission, such as transmitting video data, the doorbell indoor unit 120 is connected to the doorbell outdoor unit 120 through a first type of wireless local area network, so that the data transmission is sent to the doorbell indoor unit 120 through the first type of wireless local area network.

In this embodiment, the doorbell outdoor unit 110 may also be connected to or disconnected from the first type of wireless local area network according to the current usage status because the first type of wireless local area network has higher power consumption. When the doorbell outdoor unit 110 is disconnected from the first type of wireless local area network, then the doorbell power consumption is greatly reduced.

In this application embodiment, according to the user state of outer machine of doorbell, connect through the wireless local area network of first type between outer machine of doorbell and the doorbell indoor, perhaps connect through the wireless local area network of second type, wherein, the wireless local area network consumption of second type is less than the consumption of the wireless local area network of first type, from this, according to the user state of outer machine of doorbell, the dynamic adjustment wireless connection mode to and the connection or the disconnection of the outer machine of control doorbell and the wireless local area network of first type, wireless doorbell's consumption has been reduced.

In the prior art, the doorbell external unit is connected with the doorbell internal unit through wifi, and the doorbell has high power consumption. In one embodiment of the present application, it may be determined which type of wireless network the doorbell outdoor unit uses, according to the usage status.

In this embodiment, the state of the doorbell outdoor unit 110 may include a use state and an idle state, for example, the state of the doorbell outdoor unit may be determined according to the work and rest time of the user, for example, the doorbell outdoor unit may be in the idle state at night, for example, the doorbell outdoor unit may be in a sleep state, and then the doorbell may be in the use state in daytime.

Specifically, when the doorbell outdoor unit 110 is in a use state, the doorbell outdoor unit may be connected to the doorbell indoor unit 120 through a first type of wireless local area network with high power consumption and a high data transmission rate, as shown in fig. 2, fig. 2 is a schematic diagram of a network connection relationship between the doorbell outdoor unit and the doorbell indoor unit when the doorbell outdoor unit is in the use state according to an embodiment of the present application.

When the doorbell outdoor unit 110 is in an idle state, it may be connected to the doorbell indoor unit 120 through a second type of low power consumption wireless local area network, as shown in fig. 3, fig. 3 is a schematic diagram of a network connection relationship between the doorbell outdoor unit and the doorbell indoor unit when the doorbell outdoor unit is in the idle state according to an embodiment of the present disclosure.

In this application embodiment, when the outer machine of doorbell is in the user state, the outer machine of doorbell and the bell internal unit are connected through the wireless local area network of first type, and when the outer machine of doorbell is in idle state, connect through the wireless local area network of the second type that the consumption is low, from this, not only guaranteed data transmission, reduced the doorbell consumption moreover.

In practical application, the doorbell outdoor unit is in an idle state, and can be awakened if someone triggers the doorbell outdoor unit. In an embodiment of the present application, the doorbell external unit may also be awakened through an awakening instruction.

Specifically, when the doorbell outdoor unit 110 is in the idle state, the doorbell outdoor unit 110 is connected to the doorbell indoor unit 120 through the second type of wireless local area network, and the doorbell indoor unit 120 may obtain the wake-up instruction through the first type of wireless local area network, and then send the wake-up instruction to the doorbell outdoor unit 110 through the second type of wireless local area network. After the doorbell outdoor unit 110 obtains the wake-up instruction, each component of the doorbell outdoor unit 110 can be in a use state.

For example, the mobile phone is connected with the route through wifi, the route is connected with the doorbell external machine through wifi, the user utilizes the mobile phone to send the awakening instruction to the doorbell internal machine through wifi, and the doorbell internal machine sends the awakening instruction to the doorbell external machine through the low-power Mesh network between the doorbell external machine.

In this application embodiment, the doorbell indoor unit obtains doorbell awakening instruction through the wireless local area network of first type, then through the wireless local area network of second type, will awaken the instruction and send for the outer machine of doorbell, and from this, the doorbell indoor unit can send awakening instruction for the outer machine of doorbell through the wireless local area network of the second type of low-power consumption, awakens the outer machine of doorbell to realized the wireless local area network of the second type that can pass through the low-power consumption, long-range awakening doorbell outer machine.

In an embodiment of the present application, the doorbell external unit 110 is further configured to access the first type of wireless local area network when acquiring the wake-up instruction sent by the doorbell internal unit 120 through the second type of wireless local area network.

Specifically, the doorbell indoor unit 120 may obtain the wake-up instruction through a first type of wireless local area network, and then send the wake-up instruction to the doorbell outdoor unit 110 through a second type of wireless local area network, so that the doorbell outdoor unit 110 is accessed to the first type of wireless local area network when obtaining the wake-up instruction, that is, the doorbell outdoor unit is restored to be connected to the doorbell indoor unit through the first type of wireless local area network.

For example, the cell-phone passes through wifi and connects the route, and the route is connected through wifi between the outer machine of AND gate bell, and the cell-phone sends the instruction of waking up for the doorbell inner machine through wifi, and the doorbell outer machine that the instruction of waking up was sent to is gone up to the low-power consumption Mesh network between the outer machine of doorbell accessible AND gate bell, and the doorbell outer machine acquires the instruction of waking up after, even goes into the wifi network, breaks off the low-power consumption Mesh network, is connected through wifi between the outer machine of doorbell and the doorbell inner machine promptly.

In the embodiment of the application, the doorbell outdoor unit is further used for accessing the first type wireless local area network when the wake-up instruction sent by the doorbell indoor unit is acquired through the second type wireless local area network, so that the doorbell outdoor unit is restored to be connected with the first type wireless local area network between the doorbell indoor unit, and the low-power-consumption keep-alive of the doorbell is realized.

Fig. 4 is a schematic structural diagram of another low-power wireless doorbell provided in the embodiment of the present application. In an embodiment of the application, the wireless doorbell can collect images of visitors and sounds of the visitors, and collected data are sent to the doorbell indoor unit or the associated control equipment.

As shown in fig. 4, the doorbell outdoor unit 110 may include a camera assembly 111 and a voice capture assembly 112. The camera assembly 111 may be a camera, and the voice capturing assembly 112 may be a microphone.

In this embodiment, when there is a visitor, the camera shooting component 111 may collect an image of the visitor, and the doorbell external unit 110 may send the image collected by the camera shooting component 111 to the doorbell internal unit 120 through the first type of wireless local area network, or associated control devices such as a mobile phone, a computer, an intelligent sound device, and the like, or send the image to the doorbell internal unit 120 and associated control devices.

After acquiring the acquired image and voice, the doorbell outdoor unit 110 may send the acquired image and voice to a server through a route, or send the acquired image and voice to a control device associated with the route. The user can conveniently view the image of the visitor through the associated control equipment.

Alternatively, when there is a visitor, the voice collecting component 112 may collect the voice of the visitor, and the out-doorbell 110 sends the collected voice to the in-doorbell 120 and/or the associated control device through the first type of wireless local area network.

Of course, the doorbell outdoor unit 110 may also send the image collected by the camera assembly 111 and the sound collected by the voice collecting assembly 112 to the doorbell indoor unit 120 and/or the associated control device through the first type of wireless local area network.

In the embodiment of the application, including the structure of subassembly and the pronunciation collection subassembly of making a video recording in the outer machine of doorbell, the outer machine of doorbell can send the image that the subassembly was gathered making a video recording, and/or the pronunciation that the subassembly was gathered to the pronunciation of gathering of language collection through the wireless local area network of first type for the inner machine of doorbell, and/or associated controlgear to through the wireless local area network transmission data of first type, make that the user can be fast convenient know visitor and be who, improved wireless doorbell's convenience in utilization.

Fig. 5 is a schematic diagram illustrating connection between a low-power wireless doorbell and a router and a mobile phone according to an embodiment of the present application, in fig. 5, a doorbell indoor unit 120 is connected with the router through wifi, the doorbell indoor unit is connected with an outdoor unit through bluetooth B L EMesh with low power consumption, and the mobile phone is connected with the router through wifi.

At this time, the doorbell outdoor unit 110 is in an idle state, if a user wants to wake up the doorbell outdoor unit 110, the user can send a wake-up instruction to the doorbell indoor unit 120 through a wifi network and a route by using a mobile phone, and after the doorbell indoor unit 120 obtains the wake-up instruction, the wake-up instruction is sent to the doorbell outdoor unit 110 through the bluetooth B L E Mesh with low power consumption.

After the doorbell outer unit 110 acquires the wake-up instruction, the doorbell outer unit 110 is connected to a wifi network, namely, the doorbell outer unit 110 recovers to be connected to wifi of the doorbell inner unit 120, the Bluetooth B L E Mesh with low power consumption is disconnected, high-speed and high-efficiency big data transmission is carried out by using the wifi network.

Fig. 6 is a schematic flowchart of a low-power consumption wireless doorbell control method provided in an embodiment of the present application.

The low-power-consumption wireless doorbell control method can be executed by the low-power-consumption wireless doorbell control device provided by the embodiment of the application, so that the wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit and the connection state of the doorbell outdoor unit and the first type of wireless local area network are controlled according to the use state of the doorbell outdoor unit, and the doorbell power consumption is reduced.

As shown in fig. 6, the low-power wireless doorbell control method includes:

step 201, acquiring the current use state of the doorbell outdoor unit.

In this embodiment, can acquire the user state of outer machine of doorbell through the state of detecting each subassembly of outer machine of doorbell. For example, the camera of the doorbell outdoor unit is in a sleep state, and the doorbell outdoor unit can be considered to be in an idle state currently.

And 202, controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit.

In this embodiment, the user state of the doorbell outdoor unit is different, and the data volume that needs to be transmitted is also different, and when a large amount of data need be transmitted, the wireless network that data transmission efficiency is high is passed through greatly to the steerable doorbell outdoor unit and the doorbell indoor unit to the consumption. If the connection between the doorbell outdoor unit and the doorbell indoor unit is only needed to be maintained, the doorbell outdoor unit can be controlled to be connected with the doorbell indoor unit through a low-power-consumption network when data transmission is not needed. Therefore, when data do not need to be transmitted, the doorbell can be connected through a low-power-consumption network, and the doorbell power consumption can be reduced.

And step 203, controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit.

The first type of wireless local area network is a wireless network capable of rapidly transmitting a large amount of data, such as wifi, and the door bell outer machine and the door bell inner machine can be connected through wifi for data transmission.

In this embodiment, if the doorbell outdoor unit needs to collect data and send the collected data to the doorbell indoor unit, the connection between the doorbell outdoor unit and the first type of wireless local area network needs to be controlled. If a certain period of time such as night is reached, the doorbell outdoor unit can be in a sleep mode, the doorbell outdoor unit can be controlled to be disconnected with the first type of wireless local area network, and therefore power consumption of the doorbell can be reduced.

In this application embodiment, through obtaining the current user state of outer machine of doorbell, according to outer machine of doorbell current user state, control outer machine of doorbell and doorbell's wireless connection mode, according to outer machine of doorbell current user state, control outer machine of doorbell and the connection status of the wireless local area network of first type. Therefore, the wireless connection mode of the doorbell inner unit and the doorbell outer unit is dynamically adjusted according to the using state of the doorbell outer unit, and the connection state of the doorbell outer unit and the first type of wireless local area network can be controlled, so that the power consumption of the wireless doorbell is reduced.

To the above-mentioned wireless connection mode according to doorbell outer machine current user state, control doorbell outer machine and doorbell inner machine, in an embodiment of this application, can be according to user state, confirm what type of wireless network is used to doorbell outer machine.

In this embodiment, the state of the doorbell outdoor unit can include user state and idle state, for example can be according to user's work and rest time, confirms the state of the doorbell outdoor unit, for example can make the doorbell outdoor unit be in idle state night, for example make the doorbell outdoor unit sleep, can make the doorbell be in user state daytime then.

Specifically, when the doorbell outdoor unit is in a use state, the doorbell outdoor unit may be controlled to be connected to the doorbell indoor unit through a first type of wireless local area network with high power consumption and a fast data transmission rate, as shown in fig. 2. When the doorbell outdoor unit is in an idle state, the doorbell outdoor unit can be controlled to be connected with the doorbell indoor unit through a second type of wireless local area network, as shown in fig. 3.

The power consumption of the second type of wireless local area network is smaller than that of the first type of wireless local area network, namely, when the doorbell outdoor unit is in an idle state, the doorbell outdoor unit can be controlled to be connected with the doorbell indoor unit through the second type of wireless local area network with low power consumption.

In this application embodiment, when the outer machine of doorbell is in the user state, control outer machine of doorbell and doorbell indoor unit are connected through the wireless local area network of first type, and when the outer machine of doorbell was in idle state, control outer machine of doorbell and doorbell indoor unit were connected through the wireless local area network of the second type that the consumption is low, from this, have not only guaranteed data transmission, have reduced the doorbell consumption moreover.

Because the first type of wireless local area network can efficiently transmit a large amount of data, for the above-mentioned connection state of the doorbell outdoor unit and the first type of wireless local area network, in an embodiment of the present application, the states of the doorbell outdoor unit are different, and the requirements for data transmission are different, so the connection state of the doorbell outdoor unit and the first type of wireless local area network is also different.

Specifically, when the doorbell outdoor unit is in a use state, which indicates that the doorbell outdoor unit may need to transmit a large amount of data, the doorbell outdoor unit is controlled to access the first type of wireless local area network, so that the doorbell outdoor unit can efficiently transmit data through the first type of wireless local area network.

When the doorbell outdoor unit is in an idle state, the doorbell outdoor unit is controlled to be disconnected with the first type of wireless local area network if the doorbell outdoor unit needs to transmit data, and therefore the power consumption of the doorbell is reduced.

In this application embodiment, when the outer machine of doorbell is in the user state, the wireless local area network of first type is connected to the outer machine of control doorbell, and when the outer machine of doorbell was in idle state, the disconnection of the outer machine of control doorbell and the wireless local area network of first type. Therefore, according to the state of the doorbell outdoor unit, the doorbell outdoor unit is dynamically controlled to be connected or disconnected with the first type of wireless local area network, data transmission is not affected, and doorbell power consumption is reduced.

In order to improve the control intelligence, in an embodiment of the application, the doorbell outdoor unit can be remotely awakened through an awakening instruction, so that the doorbell outdoor unit is connected to the first type of wireless local area network.

Specifically, the doorbell indoor unit can acquire a wake-up instruction through a first type of wireless local area network, and then send the wake-up instruction to the doorbell outdoor unit through a second type of wireless local area network, so that the doorbell outdoor unit is connected to the first type of wireless local area network when acquiring the wake-up instruction, namely, the doorbell outdoor unit is restored to be connected with the doorbell indoor unit through the first type of wireless local area network.

For example, the cell-phone passes through wifi and connects the route, and the route is connected through wifi between the outer machine of AND gate bell, and the cell-phone sends the instruction of waking up for the doorbell inner machine through wifi, and the doorbell outer machine that the instruction of waking up was sent to is gone up to the low-power consumption Mesh network between the outer machine of doorbell accessible AND gate bell, and the doorbell outer machine acquires the instruction of waking up after, even goes into the wifi network, breaks off the low-power consumption Mesh network, is connected through wifi between the outer machine of doorbell and the doorbell inner machine promptly.

In the embodiment of the application, when the awakening instruction sent by the doorbell indoor unit through the second type of wireless local area network is obtained, the doorbell outdoor unit is controlled to be connected to the first type of wireless local area network, so that the doorbell outdoor unit is restored to be connected with the first type of wireless local area network between the doorbell indoor unit, and the low-power-consumption keep-alive of the doorbell is realized.

In order to improve the convenience of the wireless doorbell in use, in an embodiment of the application, the doorbell outdoor unit may include a camera shooting component and a voice acquisition component, and data acquired by the camera shooting component and the voice acquisition component may be sent to the doorbell indoor unit and/or associated control equipment through a first type of wireless local area network.

Wherein, the subassembly of making a video recording can be the camera, and pronunciation collection component can be the microphone.

In this embodiment, when there is the visitor, the subassembly of making a video recording can gather visitor's image, and the doorbell outer machine can send the image that the subassembly of making a video recording was gathered to the doorbell inner machine through the wireless local area network of first type, or associated control equipment such as cell-phone, computer, intelligent stereo set etc. or send to doorbell inner machine and associated control equipment.

After the doorbell internal machine acquires the acquired images and voices, the acquired images and voices can be sent to the server through the route or sent to the control equipment connected with the route. The user can conveniently view the image of the visitor through the associated control equipment.

Or, when there is a visitor, the voice collecting component collects the voice of the visitor, and then the collected voice can be sent to the doorbell indoor unit and/or the associated control device through the first type of wireless local area network.

Of course, the image acquired by the camera component and the voice acquired by the voice acquisition component may also be sent to the doorbell internal unit and/or the associated control device through the first type of wireless local area network.

In the embodiment of the application, the image collected by the camera shooting assembly and/or the voice collected by the language collecting assembly are sent to the doorbell indoor unit and/or the associated control equipment through the first type of wireless local area network, so that data are transmitted through the first type of wireless local area network, a user can know the visitor quickly and conveniently, and the use convenience of the wireless doorbell is improved.

In order to implement the above embodiments, the embodiments of the present application further provide a low power consumption wireless doorbell control device. Fig. 7 is a schematic structural diagram of a low-power wireless doorbell control device provided in an embodiment of the present application.

As shown in fig. 7, the low power consumption wireless doorbell control device 300 comprises: an acquisition module 310, a first control module 320, and a second control module 330.

The acquiring module 310 is configured to acquire a current use state of the doorbell outdoor unit;

the first control module 320 is used for controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit;

and the second control module 330 is configured to control a connection state of the doorbell outdoor unit and the first type of wireless local area network according to a current use state of the doorbell outdoor unit.

In a possible implementation manner of the embodiment of the present application, the first control module 320 is specifically configured to:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a first type of wireless local area network;

when the doorbell outdoor unit is in an idle state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a second type of wireless local area network;

wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network.

In a possible implementation manner of the embodiment of the present application, the second control module 330 is specifically configured to:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to access a first type of wireless local area network;

and when the doorbell outdoor unit is in an idle state, the doorbell outdoor unit is controlled to be disconnected with the first type of wireless local area network.

In a possible implementation manner of the embodiment of the present application, the apparatus may further include:

and the third control module is used for controlling the doorbell external machine to access the first type of wireless local area network when a wake-up instruction sent by the doorbell internal machine through the second type of wireless local area network is obtained.

In a possible implementation manner of the embodiment of the present application, the apparatus may further include:

and the sending module is used for sending the image to the doorbell outdoor unit and/or the associated control equipment through the first type of wireless local area network when the image is collected by the camera assembly in the doorbell outdoor unit and/or the voice is collected by the voice collecting assembly in the doorbell outdoor unit.

It should be noted that the explanation of the foregoing low-power wireless doorbell control method embodiment is also applicable to the low-power wireless doorbell control device of this embodiment, and therefore is not described herein again.

According to the low-power-consumption wireless doorbell control device, the current use state of the doorbell outdoor unit is obtained; controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit; and controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit. Therefore, the wireless connection mode of the doorbell inner unit and the doorbell outer unit is dynamically adjusted according to the using state of the doorbell outer unit, and the connection state of the doorbell outer unit and the first type of wireless local area network can be controlled, so that the power consumption of the wireless doorbell is reduced.

In order to implement the foregoing embodiments, the present application further proposes a non-transitory computer-readable storage medium storing thereon a computer program, which is used to enable a computer to execute the method for controlling a low-power wireless doorbell described in the foregoing embodiment.

According to the technical scheme of the embodiment of the application, the wireless doorbell system with low power consumption can dynamically adjust the wireless connection mode of the doorbell indoor unit and the doorbell outdoor unit according to the use state of the doorbell outdoor unit, so that the doorbell indoor unit and the doorbell outdoor unit are connected through a wireless local area with low use function, and therefore the power consumption of the wireless doorbell is reduced.

In the description of the present specification, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (16)

1. A low-power wireless doorbell system, comprising:

the doorbell indoor unit is connected with the first type of wireless local area network;

the doorbell indoor unit is connected with the doorbell indoor unit through a first type of wireless local area network or a second type of wireless local area network according to the current use state;

the doorbell outdoor unit is also connected with or disconnected from the first type of wireless local area network according to the current use state;

wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network.

2. The doorbell system of claim 1, wherein the doorbell outdoor unit is specifically configured to:

when the doorbell is in an idle state, the doorbell is connected with the doorbell indoor unit through a second type of wireless local area network;

when the doorbell is in a use state, the doorbell is connected with the doorbell indoor unit through a first type of wireless local area network.

3. The doorbell system of claim 1, wherein the doorbell indoor unit is further configured to obtain a doorbell wake-up instruction via the first type of wireless local area network;

and sending the awakening instruction to the doorbell outdoor unit through the second type of wireless local area network.

4. The doorbell system according to any one of claims 1-3, wherein the doorbell outdoor unit is further configured to access the first type of wireless local area network when a wake-up instruction sent by the doorbell outdoor unit is obtained via a second type of wireless local area network.

5. The doorbell system of any one of claims 1-3, wherein the doorbell outdoor unit comprises a camera assembly and a voice acquisition assembly;

the doorbell outdoor unit is further used for sending the images collected by the camera shooting assembly and/or the voices collected by the language collecting assembly to the doorbell indoor unit and/or the associated control equipment through the first type of wireless local area network.

6. A low-power consumption wireless doorbell control method is characterized by comprising the following steps:

acquiring the current use state of the doorbell outdoor unit;

controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit;

and controlling the connection state of the doorbell outdoor unit and a first type of wireless local area network according to the current use state of the doorbell outdoor unit.

7. The method of claim 6, wherein the controlling the wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit comprises:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a first type of wireless local area network;

when the doorbell outdoor unit is in an idle state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a second type of wireless local area network;

wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network.

8. The method of claim 7, wherein the controlling the connection status of the doorbell outdoor unit to the first type of wireless local area network comprises:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to access the first type of wireless local area network;

and when the doorbell outdoor unit is in an idle state, controlling the doorbell outdoor unit to be disconnected with the first type of wireless local area network.

9. The method of any of claims 6-8, further comprising:

and when a wake-up instruction sent by the doorbell indoor unit through a second type of wireless local area network is obtained, controlling the doorbell outdoor unit to access the first type of wireless local area network.

10. The method of any of claims 6-8, further comprising:

and when the camera shooting assembly in the doorbell outdoor unit collects images and/or the voice collecting assembly in the doorbell outdoor unit collects voice, the images and/or the voice are sent to the doorbell indoor unit and/or associated control equipment through the first type of wireless local area network.

11. The utility model provides a low-power consumption wireless doorbell controlling means which characterized in that includes:

the acquisition module is used for acquiring the current use state of the doorbell outdoor unit;

the first control module is used for controlling a wireless connection mode of the doorbell outdoor unit and the doorbell indoor unit according to the current use state of the doorbell outdoor unit;

and the second control module is used for controlling the connection state of the doorbell outdoor unit and the first type of wireless local area network according to the current use state of the doorbell outdoor unit.

12. The apparatus of claim 11, wherein the first control module is specifically configured to:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a first type of wireless local area network;

when the doorbell outdoor unit is in an idle state, controlling the doorbell outdoor unit to be connected with the doorbell indoor unit through a second type of wireless local area network;

wherein the power consumption of the second type of wireless local area network is less than the power consumption of the first type of wireless local area network.

13. The apparatus of claim 12, wherein the second control module is specifically configured to:

when the doorbell outdoor unit is in a use state, controlling the doorbell outdoor unit to access the first type of wireless local area network;

and when the doorbell outdoor unit is in an idle state, controlling the doorbell outdoor unit to be disconnected with the first type of wireless local area network.

14. The apparatus of any of claims 11-13, further comprising:

and the third control module is used for controlling the doorbell external unit to be accessed to the first type of wireless local area network when a wake-up instruction sent by the doorbell internal unit through the second type of wireless local area network is obtained.

15. The apparatus of any of claims 11-13, further comprising:

and the sending module is used for sending the image to the doorbell outdoor unit and/or the associated control equipment through the first type of wireless local area network when the image is collected by the camera assembly in the doorbell outdoor unit and/or the voice is collected by the voice collection assembly in the doorbell outdoor unit.

16. A non-transitory computer readable storage medium storing computer instructions for causing a computer to perform the low power wireless doorbell control method of any one of claims 6-10.

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