CN204694827U - Smart machine and battery electric quantity remote management devices thereof and system - Google Patents

Abstract

The utility model relates to device battery electric power detection and reminding technology field, provides a kind of smart machine and battery electric quantity remote management devices thereof and system.Wherein, smart machine battery electric quantity remote management devices comprises battery electric quantity detection module and communication module, described battery electric quantity detection module is for detecting the battery electric quantity of described smart machine, and sending the first notification message to communication module detecting that described battery is in when electricity is less than or equal to the state of charge of set amount, described first notification message comprises battery electric quantity data; Described communication module is connected with described battery electric quantity detection module, for receiving described first notification message and reporting.The utility model energy active detecting smart machine battery electric quantity by server display alarm in another display device.

Description

Intelligent device and battery electric quantity remote management device and system thereof

[ technical field ] A method for producing a semiconductor device

The utility model relates to an equipment battery power detects and reminds technical field, especially relates to an intelligent equipment and battery power remote management device and system thereof.

[ background of the invention ]

With the rapid development of mobile internet, more and more intelligent devices are walking into our lives from exhibition stands, such as smart toys, smart wearable devices (smart bracelets, smart watches, smart glasses, etc.), educational electronic products (point-to-read machines, story machines, etc.), and the like. These smart devices are not designed to operate on their own batteries. Therefore, the detection and the reminding of the battery power on the intelligent equipment are very important, and the timely reminding can lead a user to charge in time when the power is too low and the residual service life is too low or reasonably use the intelligent equipment in the residual service life.

At present, the scheme that intelligent equipment detects and reminds self battery electric quantity is mature. In the prior art scheme related to power detection, chinese patent publication No. CN103171446A discloses that the publication date is 26.6.2013, and the patent named as the vehicle-mounted battery management system discloses a technical scheme for querying the power of the vehicle-mounted battery through a portable terminal, and the technical scheme is not suitable for detecting the power of the battery of the intelligent device, because the scheme requires a user to actively query the remaining power, and cannot directly push a reminder of low power or low remaining service time through a server, and cannot meet the power detection and reminding requirements of the intelligent device.

[ Utility model ] content

The to-be-solved technical problem of the utility model is to provide a smart machine and battery power remote management device and system thereof can initiative detection smart machine battery power and show the warning on another display device through the server.

The embodiment of the utility model provides a smart machine battery power remote management device, including battery power detection module and communication module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a first notification message to the communication module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the first notification message comprises battery electric quantity data,

the communication module is connected with the battery electric quantity detection module and used for receiving and reporting the first notification message; or,

the device includes battery power detection module and pronunciation warning module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a third notification message to the voice reminding module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the third notification message comprises battery electric quantity data,

the voice reminding module is connected with the battery electric quantity detection module and used for carrying out voice broadcasting reminding after receiving the third notification message; or,

the device includes battery power detection module, communication module and pronunciation warning module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a first notification message to the communication module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the first notification message comprises battery electric quantity data,

the communication module is connected with the battery electric quantity detection module and used for receiving and reporting the first notification message,

the communication module is also connected with the voice reminding module, and is also used for receiving a fourth notification message that the remaining service life of the battery is less than the set time length and forwarding the fourth notification message to the voice reminding module,

and the voice reminding module is used for carrying out voice broadcasting reminding after receiving the fourth notification message.

Further, the battery electric quantity detection module comprises an electric quantity detection unit and an electric quantity comparison unit which are electrically connected with each other, the electric quantity detection unit is used for detecting the electric quantity of the battery, the electric quantity comparison unit is used for receiving the electric quantity of the battery and comparing the electric quantity with a set quantity, and when the electric quantity of the battery is smaller than or equal to the set quantity, a first notification message is sent to the communication module.

Furthermore, the electric quantity detection unit comprises a voltage detection subunit and an electric quantity conversion subunit, wherein the voltage detection subunit is used for detecting the voltage of the battery, and the electric quantity conversion subunit is used for receiving the voltage of the battery and converting the voltage into electric quantity.

Furthermore, the voltage detection subunit includes a first voltage-dividing resistor, a second voltage-dividing resistor, and an analog-to-digital converter, where one end of the first voltage-dividing resistor is connected to the battery voltage end, the other end of the first voltage-dividing resistor is connected to a sampling voltage input end of the analog-to-digital converter, and the other end of the first voltage-dividing resistor is also grounded through the second voltage-dividing resistor; the analog-to-digital converter also receives a reference voltage through a reference voltage input end; and/or the electric quantity conversion subunit is a digital signal processing device and is used for calculating and converting the residual electric quantity of the battery by looking up a table according to the detected battery voltage, wherein the electric quantity is in a percentage form.

Further, the battery power detection module detects the battery power of the intelligent device according to a set frequency.

Furthermore, the communication module is further configured to receive a battery power detection command and send the battery power detection command to the battery power detection module, and the battery power detection module is configured to detect the battery power of the smart device after receiving the battery power detection command and report the battery power through the communication module.

The intelligent equipment is provided with a battery, and the intelligent equipment is also provided with the intelligent equipment battery power remote management device.

A smart device battery power remote management system, the system comprising a smart device, a server and a display device as described above, wherein:

the intelligent device is used for detecting the electric quantity of the battery of the intelligent device and sending a first notification message to the server when the battery is in the electric quantity state that the electric quantity is less than or equal to the set quantity,

the server is used for converting the first notification message into a second notification message and sending the second notification message to the display device;

the display device is used for receiving and displaying the second notification message; or,

the system comprises the intelligent equipment, the server and the display device, wherein:

the intelligent device is used for detecting the electric quantity of the battery of the intelligent device and sending a first notification message to the server when the battery is in the electric quantity state that the electric quantity is less than or equal to the set quantity,

the server is used for calculating the remaining battery use duration of the intelligent equipment according to the battery power data in the first notification message, and sending a second notification message to the display device when the intelligent equipment is in a short standby state in which the remaining battery use duration is less than a set duration,

and the display device is used for receiving and displaying the second notification message.

Further, the server comprises a server communication module, a battery remaining usage time calculation module and a battery remaining usage time comparison module, wherein:

the server communication module is used for receiving the first notification message and sending the first notification message to the battery remaining service life calculation module;

the battery remaining use time length calculation module is used for calculating the battery remaining use time length of the intelligent equipment according to the battery electric quantity data in the first notification message;

the battery remaining service time comparison module is used for receiving the battery remaining service time, comparing the battery remaining service time with a set time, and sending a second notification message to a display device when the battery remaining service time is less than the set time.

Further, the intelligent device has a unique identifier, and the unique identifier of the intelligent device is also included in the first notification message;

the server stores the corresponding relation between the intelligent equipment and the display device, the display device also has a unique identifier, and after receiving the first notification message, the server matches the unique identifier of the display device corresponding to the unique identifier of the intelligent equipment, generates a second notification message comprising the unique identifier of the display device and sends the second notification message to the corresponding display device;

or after receiving the first notification message, the server generates a fourth notification message including the remaining battery use duration and sends the fourth notification message to the intelligent device to remind through voice broadcasting.

Further, in the apparatus, the apparatus for remotely managing battery power of an intelligent device further includes a main control module, configured to receive, through the communication module, a command to enter an energy saving mode when the battery is in a power state where the power is less than or equal to a set amount, and control the intelligent device to enter the energy saving mode;

in the system, the intelligent device battery power remote management device or the intelligent device still includes host system, the server still includes server host system, server host system is used for sending intelligent device entering energy-saving mode command when the battery of intelligent device is in the electric quantity state that electric quantity is less than or equal to the setting value and gives the intelligent device, intelligent device battery power remote management device or host system on the intelligent device is used for passing through communication module receives and gets into energy-saving mode command and control the intelligent device gets into energy-saving mode.

Furthermore, the display device is arranged on another intelligent device, and the intelligent device and the server are communicated in a wired or wireless mode.

To sum up, the utility model provides an embodiment is through setting up battery power detection module and communication module, and battery power detection module carries out smart machine's battery power automatically and detects to pass through the mode of message notice with information such as the battery power data that detect, report through communication module, the server receives this message notice back and sends a display device again, carries out low-power and reminds, compares the scheme that needs user initiative inquiry residual capacity among the prior art, the utility model discloses a scheme can satisfy smart machine's electric quantity sensing and warning demand through the warning of the low battery power of the direct propelling movement of server.

[ description of the drawings ]

Fig. 1 is a block diagram of a remote management device for battery power of an intelligent device provided in embodiment 1 of the present invention;

fig. 2 is a circuit diagram of a voltage detection subunit provided in embodiment 1 of the present invention;

fig. 3 is a block diagram of a remote management device for battery power of an intelligent device according to embodiment 2 of the present invention;

fig. 4 is a block diagram of a remote management device for battery power of an intelligent device provided in embodiment 3 of the present invention;

fig. 5 is a block diagram of an intelligent device according to embodiment 4 of the present invention;

fig. 6 is a block diagram of a system for remotely managing battery power of an intelligent device according to embodiment 5 of the present invention;

fig. 7 is a structural block diagram of a system for remotely managing battery power of an intelligent device provided by embodiment 6 of the present invention

Fig. 8 is a flowchart of a method for remotely managing battery power of an intelligent device according to an embodiment 7 of the present invention;

fig. 9 is a flowchart of a method for remotely managing battery power of an intelligent device according to an embodiment 8 of the present invention;

fig. 10 is a flowchart of a method for remotely managing battery power of an intelligent device according to embodiment 9 of the present invention.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

The broken lines in the drawings indicate the contents included in the preferred embodiments unless otherwise specified.

Example 1:

the embodiment 1 of the utility model provides a smart machine battery power remote management device 100, notice server when the electric quantity reaches set amount (generally be a lower warning value), do not possess display device on the smart machine, perhaps when the smart machine is not near the user, another smart machine that has display device of user's accessible receives the low battery power warning of being surveyed the smart machine.

As shown in fig. 1, the remote management apparatus 100 for battery power of an intelligent device includes a battery power detection module 110 and a communication module 120, where the battery power detection module 110 is configured to detect battery power of the intelligent device and send a first notification message to the communication module 120 when detecting that the battery is in a power state where the power is less than or equal to a set amount, where the first notification message includes battery power data information; the communication module 120 is connected to the battery power detection module 110, and configured to receive and report the first notification message. After receiving the first notification message, the server can send the reminding message to a set display device for display.

This embodiment is through setting up battery power detection module 110 and communication module 120, battery power detection module 110 carries out the battery power detection of smart machine automatically, and pass through the mode of message notice with information such as battery power data that detect, report through communication module 120, the server receives this message notice after and sends a display device again, carry out the electric quantity and remind, compare the scheme that needs the user initiative inquiry residual electric quantity among the prior art, the scheme of this embodiment can be through the warning of the direct propelling movement low battery power of server, the electric quantity that has satisfied smart machine is listened and is reminded the demand.

Of course, after receiving the message notification of the electric quantity, the server may not send the message notification to the display device, but estimate the use duration of the remaining battery electric quantity of the device according to the use habit of the user, and send the message notification to the display device only when judging that the intelligent device is in the short standby state in which the remaining use duration of the battery is less than the set duration. The scheme has the advantages that the intelligent device can be flexibly notified according to habits of different users in using the intelligent device, when the usage habits of the users are that the intelligent device is not frequently used in a certain time period, the server receives low-power reminding in the time period, the calculated service life of the residual battery power of the device is longer, and reminding does not need to be displayed on the display device. Compared with the direct low-power reminding mode, the reminding mode is more accurate.

In addition, this embodiment is also suitable for not possessing display device on the smart machine, or under the condition that the smart machine is not near the user, the user can remotely receive the low battery capacity or the low remaining service life of the smart machine under test through another smart machine that possesses display device.

In this embodiment, the battery power detection module 110 includes a power detection unit 111 and a power comparison unit 112 electrically connected to each other, the power detection unit 111 is configured to detect a power of the battery, the power comparison unit 112 is configured to receive the power of the battery and compare the power with a set value, and when the power of the battery is less than or equal to the set value (that is, the battery is in a power state where the power is less than or equal to the set value), a first notification message is sent to the communication module 120. There are various ways to detect the remaining battery capacity, including but not limited to voltage testing method, battery modeling method, coulometer, etc., and the present invention is not limited thereto. Specifically, in this embodiment, a voltage test method is adopted, and the scheme is as follows:

the power detection unit 111 includes a voltage detection subunit 1111 for detecting the battery voltage, and a power conversion subunit 1112 for receiving the battery voltage and converting the battery voltage into power. The electric quantity converting sub-unit 1112 employs a digital signal processing device, such as a single chip microcomputer or a digital signal processor, for calculating and converting the remaining electric quantity of the battery, which may be in the form of percentage, by looking up a table according to the detected voltage of the battery.

As shown in fig. 2, in the present embodiment, the voltage detection subunit includes a first voltage-dividing resistor R1, a second voltage-dividing resistor R2, and an Analog-to-Digital Converter (ADC), where one end of the first voltage-dividing resistor R1 is connected to the battery voltage terminal, the other end is connected to the sampling voltage input terminal of the ADC, and the other end of the first voltage-dividing resistor R1 is further grounded through the second voltage-dividing resistor R2; in addition, the ADC also receives a reference voltage through a reference voltage input. The test scheme is simple, easy to implement and low in cost.

The electric quantity comparison unit 112 may be implemented by a comparator, one input end of the comparator is connected to the reference voltage input (specifically, the set quantity), and the other input end of the comparator is connected to the output end of the electric quantity conversion sub-unit 1112.

The communication module 120 may be a Wifi module, a bluetooth module, or the like that can implement wireless communication.

In this embodiment, each smart device has a unique identifier, and the first notification message further includes the unique identifier of the smart device. The scheme has the advantages that: the server, upon receiving the first notification message, may send a directional alert to a particular display device associated with the smart device. On the basis, one display device can be associated with a plurality of intelligent devices, and one intelligent device can also be associated with a plurality of display devices.

It is understood that the battery level detection module 110 may detect the battery level of the smart device according to a set frequency. For example, after the battery charge amount comparison unit 112 receives the battery charge amount and compares the battery charge amount with the set amount, the time is delayed for a set time, and then the detection of the battery charge amount and the subsequent operation are performed again and are cycled.

Preferably, as shown in fig. 1, the remote management apparatus 100 for battery power of an intelligent device may further include a main control module 130, configured to receive a command to enter an energy saving mode and control the intelligent device to enter the energy saving mode through the communication module 120 when a battery of the intelligent device is in an electrical state where the electrical quantity of the battery is less than or equal to a set quantity, that is, the intelligent device using the remote management apparatus 100 for battery power of the intelligent device may be remotely managed, and enter the energy saving mode through remote control when the battery is in a low electrical quantity, where the remote control may also be implemented through a server, and the server communicates with the remote management apparatus 100 for battery power of the intelligent device in a wired or wireless manner. The main control module 130 may be a single chip, a digital signal processor, or a microprocessor.

Besides, except sending a message notification to the server when the battery is in the state of electric quantity less than or equal to the set quantity, another intelligent device with a display screen can send a command for inquiring the residual electric quantity of the intelligent device to the server, the server sends a battery electric quantity detection command to the intelligent device battery electric quantity remote management device, a communication module in the device receives the battery electric quantity detection command and then sends the battery electric quantity detection command to a battery electric quantity detection module, the battery electric quantity detection module 110 detects the battery electric quantity of the intelligent device and reports the battery electric quantity to the server through the communication module 120, and the battery electric quantity detection command is sent to the intelligent device with the display device through the server. Therefore, when the intelligent equipment is not at the user side and the user wants to know the battery residual capacity of the intelligent equipment at any time, remote inquiry can be carried out through another intelligent equipment on the hand of the user.

It should be noted that the to-be-tested intelligent device includes, but is not limited to, products such as an intelligent toy, an intelligent wearable device (an intelligent bracelet, an intelligent watch, an intelligent glasses, etc.), an education electronic product (a point-to-read machine, a story machine, etc.), and the like; the display device for displaying the reminder may be an intelligent device with a display screen, including but not limited to products such as a smart phone, a tablet computer, a computer, and a set-top box supporting a television.

Example 2:

as shown in fig. 3, embodiment 2 of the present invention provides a remote management device 100 for battery power of an intelligent device, and only the differences between this embodiment and embodiment 1 are described below, and the descriptions of embodiment 1 can be referred to for other parts, which are not repeated herein.

The intelligent device battery power remote management apparatus 100 of this embodiment includes a battery power detection module 110 and a voice prompt module 140, wherein:

the battery power detection module 110 is configured to detect a battery power of the smart device, and send a third notification message to the voice prompt module 140 when detecting that the battery is in a power state where the power is less than or equal to a set value, where the third notification message includes battery power data.

The voice prompt module 140 is connected to the battery power detection module 110, and is configured to perform voice broadcast prompting after receiving the third notification message.

The voice reminding module 140 can be realized by a single chip microcomputer + voice processing integrated circuit, a single chip microcomputer + buzzer, a single chip microcomputer + loudspeaker and the like. The device of this embodiment can carry out voice broadcast automatically and remind when the smart machine electric quantity that its was used is lower.

Example 3:

as shown in fig. 4, embodiment 3 of the present invention provides a remote management device 100 for battery power of an intelligent device, and only the differences between this embodiment and embodiment 1 are described below, and the descriptions of embodiment 1 can be referred to for other parts, which are not repeated herein.

The intelligent device battery power remote management apparatus 100 of the present embodiment includes a battery power detection module 110, a communication module 120 and a voice prompt module 140, wherein:

the battery power detection module 110 is configured to detect a battery power of the smart device, and send a first notification message to the communication module 120 when detecting that the battery is in a power state where the power is less than or equal to a set value, where the first notification message includes battery power data;

the communication module 120 is connected to the battery power detection module 110, and configured to receive and report the first notification message;

the communication module 120 is further connected to the voice reminding module 140, and the communication module 120 is further configured to receive a fourth notification message of the remaining battery life and forward the fourth notification message to the voice reminding module 140;

the voice prompt module 140 is configured to perform voice broadcast prompt after receiving the fourth notification message.

The device of this embodiment can carry out voice broadcast automatically and remind when the smart machine electric quantity that its was used is lower, and what broadcast moreover is that the battery remaining duration of use after the server calculates, makes the user have more audio-visual understanding to smart machine's battery user state.

Example 4:

as shown in fig. 5, embodiment 4 of the present invention provides a smart device 200, a battery 210 is disposed on the smart device 200, and the smart device battery capacity remote management apparatus 100 provided in embodiment 1, and a battery capacity detection module 110 in the smart device battery capacity remote management apparatus 100 is connected to a battery 210 voltage terminal and detects the battery capacity and then sends the battery capacity to a remote server. For details, reference may be made to the description of example 1, which is not repeated herein.

Through setting up foretell battery power remote management device, even do not possess the smart machine of display screen, also can show the warning of low battery power or low surplus length of use through another display device. Or when the intelligent device is not at the user, the reminding message can be remotely sent to the intelligent device with the display device on the hand of the user through the network for reminding.

Example 5:

the embodiment 5 of the utility model provides a smart machine battery power remote management system, notice server when smart machine's battery power reaches the setting value (generally be a lower alert value), do not possess display device on smart machine, perhaps when smart machine is not near the user, another smart machine that has display device of user's accessible receives the low battery power warning of being surveyed smart machine.

As shown in fig. 6, the system includes the smart device 200 provided in embodiment 4, and a server 300 and a display apparatus 400, wherein: the intelligent device 200 is configured to detect an electric quantity of a battery thereof, and send a first notification message to the server 300 when the battery is in an electric quantity state where the electric quantity is less than or equal to a set quantity; the server 300 is configured to convert the first notification message into a second notification message and send the second notification message to the display device 400; the display device 400 is used for receiving and displaying the second notification message.

In this embodiment, the server 300 stores the correspondence between the smart device 200 and the display apparatus 400, the smart device 200 has a unique identifier, the first notification message further includes the unique identifier of the smart device 200, the display apparatus 400 also has a unique identifier, and after receiving the first notification message, the server 300 matches the unique identifier of the display apparatus 400 corresponding to the unique identifier of the smart device 200, generates a second notification message including the unique identifier of the display apparatus 400, and sends the second notification message to the corresponding display apparatus 400. The display apparatus 400 may display the unique identifier of the smart device 200 or the name of the smart device represented by the unique identifier at the same time when displaying the alert message. The scheme has the advantages that: the intelligent equipment can be associated with a specific display device to send the directional reminding, on the basis, one display device can be associated with a plurality of intelligent equipment, and one intelligent equipment can also be associated with a plurality of display devices.

Preferably, in the system, the remote management apparatus for battery power of an intelligent device or the intelligent device 200 further includes a main control module 130, the server 300 further includes a server main control module 340, the server main control module 340 is configured to send a command for the intelligent device to enter the energy saving mode to the intelligent device 200 when the battery of the intelligent device 200 is in a state of power with the power less than or equal to a set amount, and the main control module 130 on the remote management apparatus for battery power of the intelligent device or the intelligent device 200 is configured to receive the command for entering the energy saving mode through the communication module and control the intelligent device 200 to enter the energy saving mode. The server master module 340 may be a processor of the server 300.

In addition, please refer to fig. 3, besides sending a message notification to the server 300 when the battery of the smart device 200 is in a state of electric quantity in which the electric quantity is less than or equal to the set quantity, the smart device with the display device 400 can send a command to the server 300 to query the remaining electric quantity of the smart device 200, the server 300 sends a battery electric quantity detection command to the battery electric quantity remote management device 100 in the smart device 200, the communication module 120 in the battery electric quantity remote management device 100 receives the battery electric quantity detection command and sends the battery electric quantity to the battery electric quantity detection module 110, and the battery electric quantity detection module 110 detects the battery electric quantity of the smart device and sends the battery electric quantity to the server 300 through the communication module 120, and then sends the battery electric quantity to the smart device with the display device 400 through the server 300. Thus, when the smart device 200 is not located by the user and the user wants to know the remaining battery capacity of the smart device 200 at any time, the user can perform remote query through another smart device on the hand of the user.

The battery power remote management apparatus 100 in the smart device refers to the description of embodiment 1, and is not described herein again.

Example 6:

the embodiment 6 of the utility model provides a smart machine battery power remote management system, be with the difference of embodiment 5: in the system provided in this embodiment, after receiving the message notification of the low power, the server does not send the message notification to the display device, but estimates the use duration of the remaining battery power of the device according to the use habit of the user, and sends the message notification to the display device only when it is determined that the intelligent device is in the short standby state in which the remaining battery use duration is less than the set duration. Only the differences between this embodiment and embodiment 5 will be described below:

as shown in fig. 7, the system includes the smart device 200 provided in embodiment 4, and a server 300 and a display apparatus 400, wherein: the intelligent device 200 is configured to detect an electric quantity of a battery thereof, and send a first notification message to the server 300 when the battery is in an electric quantity state where the electric quantity is less than or equal to a set quantity; the server 300 is configured to calculate a remaining usage duration of the smart device 200 according to the battery power data in the first notification message, and send a second notification message to the display device 400 when the smart device 200 is in a short standby state where the remaining usage duration of the battery is less than a set duration; the display device 400 is used for receiving and displaying the second notification message.

Specifically, the server 300 includes a server communication module 310, a battery remaining usage time calculation module 320, and a battery remaining usage time comparison module 330, wherein: the server communication module 310 is configured to receive the first notification message and send the first notification message to the battery remaining usage time calculation module 320; the battery remaining usage duration calculation module 320 is configured to calculate a battery remaining usage duration of the smart device according to the battery power data in the first notification message; the remaining battery life comparing module 330 is configured to receive the remaining battery life, compare the remaining battery life with the set time, and send a second notification message to the display device 400 when the remaining battery life is less than the set time. The server communication module 310 may be a wired network card or a wireless network card on the motherboard of the server 300, the battery remaining usage time calculation module 320 may adopt an independent calculation module card (mountable to a server expansion slot), the battery remaining usage time comparison module 330 may be implemented by a simple comparator, one input of the comparator is connected to a signal input of a set time, and the other input of the comparator is connected to an output end of the battery remaining usage time calculation module 320.

Preferably, when the smart device 200 is the smart device 200 with the function of automatically and audibly reporting the reminder when the power supply is low provided by embodiment 3, the server main control module 340 in this embodiment is further configured to send a third notification message and forward the third notification message to the battery remaining usage duration calculation module 320 when the server communication module 310 receives that the battery of the intelligent device is in a state of the electric quantity of which the electric quantity is less than or equal to the set quantity, the battery remaining usage duration calculation module 320 calculates the battery remaining usage duration of the intelligent device according to the battery electric quantity data in the third notification message, the battery remaining usage duration comparison module 330 is configured to receive the battery remaining usage duration and compare the battery remaining usage duration with the set duration, when the remaining battery usage duration is less than the set duration, the server main control module 340 sends a fourth notification message to the smart device 200 through the server communication module 310 for voice announcement. The display device 400 is disposed on another intelligent device, and the intelligent device provided with the display device 400 communicates with the server 300 in a wired or wireless manner, preferably a wireless manner, such as Wifi, bluetooth or mobile communication traffic.

The method and the device have the advantages that flexible notification can be carried out according to habits of different users in using the intelligent device, when the usage habits of the users are that the intelligent device is not frequently used in a certain time period, the server receives low-power reminding in the time period, the calculated usage duration of the residual battery power of the device is long, and reminding does not need to be displayed on the display device. This alert is more accurate than the low battery direct alert of example 5.

Example 7:

the embodiment provides a method for remotely managing battery power of an intelligent device, and according to the method provided by the embodiment, when the battery power of the intelligent device reaches a set value (generally, a lower warning value), a server is notified, and a display device is not provided on the intelligent device, or when the intelligent device is not near a user, the user can receive a low battery power prompt of the intelligent device to be tested through another intelligent device with a display device.

As shown in fig. 8, the method includes the steps of: step 101: receiving a first notification message which comprises battery capacity data and is reported by intelligent equipment;

the intelligent device sends a first notification message to the server when detecting that the battery is in an electric quantity state with the electric quantity less than or equal to the set quantity.

Step 102: calculating the remaining service life of the intelligent equipment according to the battery power data in the first notification message;

step 103: and when the intelligent equipment is in a short standby state that the remaining battery use time is less than the set time, sending a second notification message to the display device for displaying.

Preferably, the method further comprises step 104: and sending a command for entering the energy-saving mode to control the intelligent equipment to enter the energy-saving mode.

Example 8:

the embodiment provides a remote management method for battery power of an intelligent device, and by the method provided by the embodiment, voice broadcast reminding can be automatically performed when the battery power of the intelligent device reaches a set value (generally, a lower warning value).

As shown in fig. 9, the method includes the steps of:

step 201: detecting the electric quantity of the battery;

step 202: when the battery is in a power state that the power is less than or equal to the set amount, sending a third notification message;

the third notification message includes battery power data.

Step 203: and receiving the third notification message and carrying out voice broadcast reminding.

The content of the voice broadcast prompt comprises the residual electric quantity of the battery.

Example 9:

the embodiment provides a remote management method for battery power of an intelligent device, which includes reporting the battery power of the intelligent device to a server when the battery power reaches a set value (generally a lower warning value), estimating the use duration of the remaining battery power of the device by the server according to the use habit of a user, and sending a message notification to the intelligent device to enable the intelligent device to perform voice broadcast reminding when the intelligent device is judged to be in a short standby state in which the remaining use duration of the battery is smaller than the set duration.

As shown in fig. 10, the method includes the steps of:

step 301: receiving a first notification message which comprises battery capacity data and is reported by intelligent equipment;

the intelligent device sends a first notification message to the server when detecting that the battery is in an electric quantity state with the electric quantity less than or equal to the set quantity.

Step 302: calculating the remaining service life of the intelligent equipment according to the battery power data in the first notification message;

step 303: and when the intelligent equipment is in a short standby state that the residual service time of the battery is less than the set time, sending a fourth notification message to the intelligent equipment to remind the intelligent equipment through voice broadcasting.

The content of the voice broadcast prompt comprises the residual battery capacity and/or the residual battery use duration.

It should be noted that, for the specific processing procedure of the method embodiment, since the information interaction and execution procedure between the modules and units in the device and system embodiments are based on the same concept, specific contents may refer to the description in the device and system embodiments of the present invention, and are not described herein again.

Those of ordinary skill in the art will appreciate that all or part of the steps of the various methods of the embodiments may be implemented by associated hardware as instructed by a program, which may be stored on a computer-readable storage medium, which may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (12)

1. The utility model provides a remote management device of smart machine battery power, its characterized in that includes battery power detection module and communication module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a first notification message to the communication module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the first notification message comprises battery electric quantity data,

the communication module is connected with the battery electric quantity detection module and used for receiving and reporting the first notification message; or,

the device includes battery power detection module and pronunciation warning module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a third notification message to the voice reminding module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the third notification message comprises battery electric quantity data,

the voice reminding module is connected with the battery electric quantity detection module and used for carrying out voice broadcasting reminding after receiving the third notification message; or,

the device includes battery power detection module, communication module and pronunciation warning module, wherein:

the battery electric quantity detection module is used for detecting the battery electric quantity of the intelligent equipment and sending a first notification message to the communication module when the battery is detected to be in an electric quantity state that the electric quantity is less than or equal to a set quantity, wherein the first notification message comprises battery electric quantity data,

the communication module is connected with the battery electric quantity detection module and used for receiving and reporting the first notification message,

the communication module is also connected with the voice reminding module, and is also used for receiving a fourth notification message of the remaining service life of the battery and forwarding the fourth notification message to the voice reminding module,

and the voice reminding module is used for carrying out voice broadcasting reminding after receiving the fourth notification message.

2. The device according to claim 1, wherein the battery power detection module comprises a power detection unit and a power comparison unit electrically connected to each other, the power detection unit is configured to detect a battery power, the power comparison unit is configured to receive the battery power and compare the battery power with a set value, and send a first notification message to the communication module when the battery power is less than or equal to the set value.

3. The intelligent device battery power remote management apparatus according to claim 2, wherein the power detection unit includes a voltage detection subunit and a power conversion subunit, the voltage detection subunit is configured to detect a battery voltage, and the power conversion subunit is configured to receive the battery voltage and convert the battery voltage into power.

4. The device for remotely managing battery power of intelligent equipment according to claim 3, wherein the voltage detection subunit comprises a first voltage-dividing resistor, a second voltage-dividing resistor and an analog-to-digital converter, wherein one end of the first voltage-dividing resistor is connected to the battery voltage terminal, the other end of the first voltage-dividing resistor is connected to the sampling voltage input terminal of the analog-to-digital converter, and the other end of the first voltage-dividing resistor is further connected to ground through the second voltage-dividing resistor; the analog-to-digital converter also receives a reference voltage through a reference voltage input end; and/or the electric quantity conversion subunit is a digital signal processing device and is used for calculating and converting the residual electric quantity of the battery by looking up a table according to the detected battery voltage, wherein the electric quantity is in a percentage form.

5. The device according to claim 1, wherein the communication module is further configured to receive a battery power detection command and send the battery power detection command to the battery power detection module, and the battery power detection module is configured to detect the battery power of the smart device after receiving the battery power detection command and report the battery power through the communication module.

6. The apparatus of any one of claims 1-5,

the smart device has a unique identifier, and the first notification message also includes the unique identifier of the smart device.

7. The apparatus of any one of claims 1-5,

in the device, the intelligent device battery power remote management device further comprises a main control module, which is used for receiving a command of entering an energy-saving mode through the communication module and controlling the intelligent device to enter the energy-saving mode when the battery is in a power state in which the power is less than or equal to a set value.

8. An intelligent device, wherein a battery is arranged on the intelligent device, and the intelligent device is further provided with the intelligent device battery power remote management device according to any one of claims 1-5.

9. A smart device battery power remote management system, comprising the smart device of claim 8, a server and a display device, wherein:

the intelligent device is used for detecting the electric quantity of the battery of the intelligent device and reporting a first notification message to the server when the battery is in the electric quantity state that the electric quantity is less than or equal to the set quantity,

the server is used for converting the first notification message into a second notification message and sending the second notification message to the display device;

the display device is used for receiving and displaying the second notification message; or,

the system comprises the smart device of claim 8, a server, and a display apparatus, wherein:

the intelligent device is used for detecting the electric quantity of the battery of the intelligent device and reporting a first notification message to the server when the battery is in the electric quantity state that the electric quantity is less than or equal to the set quantity,

the server is used for calculating the remaining battery use duration of the intelligent equipment according to the battery power data in the first notification message, and sending a second notification message to the display device when the intelligent equipment is in a short standby state in which the remaining battery use duration is less than a set duration,

and the display device is used for receiving and displaying the second notification message.

10. The system according to claim 9, wherein the server comprises a server communication module, a battery remaining usage time calculation module, and a battery remaining usage time comparison module, wherein:

the server communication module is used for receiving the first notification message and sending the first notification message to the battery remaining service life calculation module;

the battery remaining use time length calculation module is used for calculating the battery remaining use time length of the intelligent equipment according to the battery electric quantity data in the first notification message;

the battery remaining service time comparison module is used for receiving the battery remaining service time, comparing the battery remaining service time with a set time, and sending a second notification message to a display device when the battery remaining service time is less than the set time.

11. The system of claim 9 or 10,

the server stores the corresponding relation between the intelligent equipment and the display device, the display device also has a unique identifier, and after receiving the first notification message, the server matches the unique identifier of the display device corresponding to the unique identifier of the intelligent equipment, generates a second notification message comprising the unique identifier of the display device and sends the second notification message to the corresponding display device;

or after receiving the first notification message, the server generates a fourth notification message including the remaining battery use duration and sends the fourth notification message to the intelligent device to remind through voice broadcasting.

12. The system of claim 9 or 10,

in the system, the intelligent device battery power remote management device or the intelligent device still includes host system, the server still includes server host system, server host system is used for sending intelligent device entering energy-saving mode command when the battery of intelligent device is in the electric quantity state that electric quantity is less than or equal to the setting value and gives the intelligent device, intelligent device battery power remote management device or host system on the intelligent device is used for passing through communication module receives and gets into energy-saving mode command and control the intelligent device gets into energy-saving mode.