CN108430000B - A method, microphone device and system for controlling a microphone device based on power management - Google Patents

Abstract

A method for managing and controlling a microphone device based on electric quantity, the microphone device and a system thereof comprise: acquiring a first real-time electric quantity value of first terminal equipment and/or a second real-time electric quantity value of microphone equipment; judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value; and when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, disconnecting the first terminal equipment. By implementing the embodiment of the invention, the phenomenon that the microphone equipment is forgotten to disconnect the connection between the microphone equipment and the first terminal equipment for direct charging can be avoided, and the power consumption of the microphone equipment and the first terminal equipment is reduced.

Description

Method for managing and controlling microphone equipment based on electric quantity, microphone equipment and system

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a method for managing and controlling microphone equipment based on electric quantity, the microphone equipment and a system.

Background

At present, a plurality of learning flat plates with microphones appear in the market, so that the interestingness of using the learning flat plates is improved. In practice, it is found that when the electric quantity of the learning tablet is too low or the electric quantity of the microphone is too low, students often stop using the learning tablet and the microphone, but in the process, the students often forget to disconnect the connection between the microphone and the learning tablet for direct charging, so that the electric consumption of the microphone and the learning tablet is increased.

Disclosure of Invention

The embodiment of the invention discloses a method for controlling a microphone device based on electric quantity, the microphone device and a system, which can reduce the electric quantity consumption of the microphone device and a first terminal device.

The first aspect of the embodiment of the invention discloses a method for managing and controlling microphone equipment based on electric quantity, which comprises the following steps:

acquiring a first real-time electric quantity value of a first terminal device and/or a second real-time electric quantity value of the microphone device;

judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value;

and when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, disconnecting the microphone device from the first terminal device.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the acquiring a first real-time electric quantity value of the first terminal device includes:

sending an acquisition instruction to a first terminal device which is connected with the microphone device in advance at intervals of a preset time; the obtaining instruction is used for indicating to obtain the first real-time electric quantity value of the first terminal equipment;

receiving the first real-time electric quantity value returned by the first terminal equipment according to the acquisition instruction;

after the receiving of the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction, the method further includes:

displaying the first real-time electricity value on a display screen of the microphone apparatus.

As an optional implementation manner, in the first aspect of this embodiment of the present invention, the method further includes:

when the first real-time electric quantity value is smaller than the preset first electric quantity value, displaying a first low-electric-quantity prompt on a display screen of the microphone device; the first low power prompt is used for prompting that the first terminal equipment is in a low power state;

when the second real-time electric quantity value is smaller than the preset second electric quantity value, displaying a second low-electric-quantity prompt on a display screen of the microphone device; the second low power prompt is used to prompt that the microphone device is in a low power state.

As an optional implementation manner, in the first aspect of this embodiment of the present invention, the method further includes:

detecting whether a disconnection instruction sent by second terminal equipment is received; the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment;

when the disconnection instruction is received, executing the disconnection of the microphone device and the first terminal device, and displaying a management and control prompt on a display screen of the microphone device; the management and control prompt is used for prompting that the microphone device is in a parent management and control state.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, after the disconnecting the connection from the first terminal device and displaying a management and control prompt on a display screen of the microphone device, the method further includes:

detecting whether a control releasing instruction sent by the second terminal equipment is received; the control releasing instruction is used for indicating to restore the connection between the microphone device and the first terminal device;

and when the control-releasing instruction is received, the microphone equipment is connected with the first terminal equipment.

A second aspect of an embodiment of the present invention discloses a microphone apparatus, including:

the acquisition unit is used for acquiring a first real-time electric quantity value of first terminal equipment and/or a second real-time electric quantity value of the microphone equipment;

the first judging unit is used for judging whether the first real-time electric quantity value acquired by the acquisition unit is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value acquired by the acquisition unit is smaller than a preset second electric quantity value;

and the disconnection unit is used for disconnecting the microphone device from the first terminal device when the first judgment unit judges that the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the acquisition unit includes:

the sending subunit is configured to send, at preset time intervals, an acquisition instruction to a first terminal device that establishes a connection with the microphone device in advance; the obtaining instruction is used for indicating to obtain the first real-time electric quantity value of the first terminal equipment;

the receiving subunit is configured to receive the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction sent by the sending subunit;

wherein the microphone apparatus further comprises:

and the first display unit is used for displaying the first real-time electric quantity value on a display screen of the microphone device after the receiving subunit receives the first real-time electric quantity value returned by the first terminal device according to the acquisition instruction.

As an alternative implementation, in the second aspect of the embodiment of the present invention,

the first display unit is further configured to display a first low power prompt on a display screen of the microphone device when the first judgment unit judges that the first real-time power value is smaller than the preset first power value; the first low power prompt is used for prompting that the first terminal equipment is in a low power state; when the first judging unit judges that the second real-time electric quantity value is smaller than the preset second electric quantity value, displaying a second low-electric-quantity prompt on a display screen of the microphone device; the second low power prompt is used to prompt that the microphone device is in a low power state.

As an alternative implementation, in the second aspect of the embodiment of the present invention, the microphone apparatus further includes:

the detection unit is used for detecting whether a disconnection instruction sent by the second terminal equipment is received; the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment;

the disconnection unit is further configured to disconnect the microphone device from the first terminal device when the detection unit detects that the disconnection instruction is received;

the second display unit is used for displaying a management and control prompt on a display screen of the microphone device when the detection unit detects that the disconnection instruction is received; the management and control prompt is used for prompting that the microphone device is in a parent management and control state.

As an alternative implementation, in the second aspect of the embodiment of the present invention,

the detection unit is further configured to detect whether a control release instruction sent by the second terminal device is received after the disconnection unit disconnects the connection with the first terminal device and the second display unit displays a control management prompt on a display screen of the microphone device; the control releasing instruction is used for indicating to restore the connection between the microphone device and the first terminal device;

and the connection unit is used for establishing connection between the microphone equipment and the first terminal equipment when the detection unit detects that the control-releasing instruction is received.

The third aspect of the embodiment of the invention discloses a system based on an electric quantity control microphone device, which comprises a first terminal device, a microphone device and a second terminal device;

wherein the first terminal device includes:

the first generating unit is used for acquiring a first real-time electric quantity value of the first terminal equipment;

the first sending unit is used for sending the first real-time electric quantity value collected by the first generating unit to the microphone equipment;

wherein the microphone apparatus includes:

the second generating unit is used for acquiring a second real-time electric quantity value of the microphone device;

the receiving unit is used for receiving the first real-time electric quantity value sent by the first sending unit;

the second judging unit is used for judging whether the first real-time electric quantity value received by the receiving unit is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value acquired by the second generating unit is smaller than a preset second electric quantity value;

the control unit is used for disconnecting the microphone device from the first terminal device when the second judging unit judges that the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value;

wherein the second terminal device includes:

a second transmitting unit configured to transmit a disconnection instruction to the microphone device; the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment;

the control unit is further configured to disconnect the microphone device from the first terminal device when receiving the disconnection instruction sent by the second sending unit.

A fourth aspect of the present embodiments discloses a computer program product, which, when run on a computer, causes the computer to perform some or all of the steps of any one of the methods of the first aspect.

A fifth aspect of an embodiment of the present invention discloses an application publishing platform, where the application publishing platform is configured to publish a computer program product, where when the computer program product runs on a computer, the computer is caused to perform part or all of the steps of any one of the methods in the first aspect.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, a first real-time electric quantity value of first terminal equipment and/or a second real-time electric quantity value of microphone equipment are/is collected; judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value; and when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, disconnecting the first terminal equipment. In the process, when the electric quantity of the first terminal device (such as a learning tablet) is smaller than a preset first electric quantity value and/or the electric quantity of the microphone device (such as a microphone connected with the learning tablet) is smaller than a preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, the phenomenon that the microphone device is forgotten to disconnect the connection between the microphone device and the first terminal device for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for managing and controlling a microphone device based on electric quantity according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of another method for managing a microphone device based on power consumption according to an embodiment of the present disclosure;

fig. 3 is a flowchart illustrating another method for managing microphone devices based on power consumption according to an embodiment of the disclosure;

fig. 4 is a schematic structural diagram of a microphone apparatus according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another microphone apparatus disclosed in the embodiments of the present invention;

fig. 6 is a schematic structural diagram of another microphone apparatus disclosed in the embodiments of the present invention;

fig. 7 is a schematic structural diagram of another microphone apparatus disclosed in the embodiments of the present invention;

fig. 8 is a schematic structural diagram of a system based on a power management microphone device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is to be noted that the terms "comprises" and "comprising" and any variations thereof in the embodiments and drawings of the present invention are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The embodiment of the invention discloses a method for controlling a microphone device based on electric quantity, the microphone device and a system, which can reduce the electric quantity consumption of the microphone device and a first terminal device. The following are detailed below.

Example one

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a method for managing a microphone device based on electric quantity according to an embodiment of the present invention. As shown in fig. 1, the method for managing a microphone device based on power consumption may include the following steps:

101. a first real-time electric quantity value of the first terminal device and/or a second real-time electric quantity value of the microphone device are/is acquired.

In this embodiment of the present invention, the first terminal device may be a learning tablet matched with the microphone device in advance, or may be a mobile phone matched with the microphone device in advance, and the embodiment of the present invention is not limited in this embodiment. The microphone device can be connected with the first terminal device, wherein the microphone device can utilize a Bluetooth module of the microphone device to establish wireless connection with the first terminal device, and the microphone device can also utilize a WIFI module of the microphone device to establish wireless connection with the first terminal device. The main body of step 101 may be a microphone device, or may also be a second terminal device, which is not limited in the embodiment of the present invention. The second terminal device may be a mobile phone used by a parent and matched with the microphone device in advance. The microphone device can acquire a first real-time electric quantity value of the first terminal device and also can acquire a second real-time electric quantity value of the microphone device; or the second terminal device may acquire the first real-time electric quantity value of the first terminal device, and may also acquire the second real-time electric quantity value of the microphone device.

As an alternative implementation, the microphone device acquiring the first real-time electric quantity value of the first terminal device may include:

at intervals of a preset time interval, the microphone equipment sends an acquisition instruction to first terminal equipment which is connected with the microphone equipment in advance; the acquisition instruction is used for indicating to acquire a first real-time electric quantity value of the first terminal equipment;

the microphone equipment receives a first real-time electric quantity value returned by the first terminal equipment according to the acquisition instruction;

as another optional implementation manner, after receiving the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction, the following steps may also be performed:

the microphone apparatus displays the first real-time electric quantity value on a display screen of the microphone apparatus.

By implementing the optional implementation manner, the microphone device may acquire the first real-time electric quantity value of the first terminal device at preset time intervals, and may not need to acquire the first real-time electric quantity value in real time, so as to further reduce the power consumption of the microphone device and the first terminal device; and moreover, the display module can be arranged on the microphone device, the first real-time electric quantity value of the first terminal device can be displayed on the display screen of the microphone device, the hardware structure of the microphone device is increased, the functions of the microphone device are enriched, and the interest of a user in using the microphone device can be improved.

102. And judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value, executing a step 103 when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, and ending the process when the first real-time electric quantity value is larger than or equal to the preset first electric quantity value and the second real-time electric quantity value is larger than or equal to the preset second electric quantity value.

In this embodiment of the present invention, the first terminal device may determine whether the first real-time electric quantity value is smaller than a preset first electric quantity value, or the microphone device may also determine whether the acquired first real-time electric quantity value is smaller than the preset first electric quantity value, or the second terminal device may also determine whether the acquired first real-time electric quantity value is smaller than the preset first electric quantity value, which is not limited in this embodiment of the present invention. The microphone device may determine whether the second real-time electric quantity value is smaller than a preset second electric quantity value, or the second terminal device may also determine whether the second real-time electric quantity value is smaller than the preset second electric quantity value, or the microphone device sends the second real-time electric quantity value to the first terminal device so that the first terminal device determines whether the second real-time electric quantity value is smaller than the preset second electric quantity value. The preset first electric quantity value may be the same as the preset second electric quantity value, or may be different from the preset second electric quantity value, which is not limited in the embodiment of the present invention.

As an optional implementation manner, after determining that the first real-time electric quantity value is smaller than the preset first electric quantity value, the following steps may be further performed:

controlling the first terminal device to vibrate and sending a first voice prompt message, and triggering and executing step 103, wherein the first voice prompt message is used for prompting a user to charge the first terminal device and prompting the user that the connection between the first terminal device and the microphone device is about to be disconnected;

after the second real-time electric quantity value is judged to be smaller than the preset second electric quantity value, the following steps can be further executed:

controlling the first terminal device to vibrate and sending a second voice prompt message, and triggering and executing step 103, where the second voice prompt message is used to prompt the user to charge the microphone device and prompt the user that the connection between the first terminal device and the microphone device is about to be disconnected.

By implementing the optional implementation mode, when the electric quantity of the first terminal equipment is insufficient, the first terminal equipment can vibrate and prompt a user to charge the first terminal equipment in a voice mode, and prompt that the connection between the microphone equipment and the first terminal equipment is about to be disconnected; when the electric quantity of the microphone equipment is insufficient, the first terminal equipment can vibrate and prompt a user to charge the microphone equipment through voice, and the prompt is about to disconnect the microphone equipment from the first terminal equipment. The process can remind the user of charging the microphone device or the first terminal device in time, so that the situation that the microphone device or the first terminal device is used by the user due to insufficient electric quantity is avoided, and user experience is improved.

103. The microphone device is disconnected from the first terminal device.

In this embodiment of the present invention, when the first real-time electric quantity value of the first terminal device is smaller than the preset first electric quantity value, the microphone device may automatically disconnect the microphone device from the first terminal device, or the second terminal device may control the microphone device to disconnect from the first terminal device, or the first terminal device may automatically disconnect from the microphone device, which is not limited in this embodiment of the present invention.

For example, when the first terminal device is a learning tablet and the microphone device is a microphone matched with the learning tablet, the electric quantity of the learning tablet and/or the electric quantity of the microphone can be collected, and when the electric quantity of the learning tablet and/or the microphone is lower than a preset electric quantity value, the connection between the microphone and the learning tablet can be automatically disconnected. The condition that when the electric quantity of the learning tablet and/or the microphone is lower than the preset electric quantity value, the children forget to disconnect the learning tablet and the microphone and directly charge the learning tablet and/or the microphone to cause the increase of the electric quantity consumption of the learning tablet and/or the microphone and further cause the reduction of the charging speed is avoided, the electric consumption of the microphone and the learning tablet is reduced, and the charging speed is accelerated.

It can be seen that, when the method for managing and controlling the microphone device based on the electric quantity described in fig. 1 is implemented, a first real-time electric quantity value of the first terminal device and/or a second real-time electric quantity value of the microphone device are/is acquired; judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value; and when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, disconnecting the first terminal equipment. In the process, when the electric quantity of the first terminal device (such as a learning tablet) is smaller than a preset first electric quantity value and/or the electric quantity of the microphone device (such as a microphone connected with the learning tablet) is smaller than a preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, the phenomenon that the microphone device is forgotten to disconnect the connection between the microphone device and the first terminal device for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

Example two

Referring to fig. 2, fig. 2 is a schematic flow chart illustrating another method for managing microphone devices based on electric quantity according to an embodiment of the present invention. As shown in fig. 2, the method for managing a microphone device based on power consumption may include the following steps:

201. a first real-time electric quantity value of the first terminal device and/or a second real-time electric quantity value of the microphone device are/is acquired and step 202 and/or step 203 is/are triggered to be executed.

202. Judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value, if so, executing step 204 and step 206; if not, the process is ended.

In the embodiment of the present invention, when the first real-time electric quantity value is determined to be smaller than the preset first electric quantity value, step 204 and step 206 are executed, wherein the order of executing step 204 and step 206 is not limited.

203. Judging whether the second real-time electric quantity value is smaller than a preset second electric quantity value, if so, executing step 205 and step 206; if not, the process is ended.

In the embodiment of the present invention, when it is determined that the second real-time electric quantity value is smaller than the preset second electric quantity value, step 205 and step 206 are executed, wherein the order of executing step 205 and step 206 is not limited.

In this embodiment of the present invention, the first terminal device may determine whether the first real-time electric quantity value is smaller than a preset first electric quantity value, or the microphone device may also determine whether the acquired first real-time electric quantity value is smaller than the preset first electric quantity value, or the second terminal device may also determine whether the acquired first real-time electric quantity value is smaller than the preset first electric quantity value, which is not limited in this embodiment of the present invention. The microphone device may determine whether the second real-time electric quantity value is smaller than a preset second electric quantity value, or the second terminal device may also determine whether the second real-time electric quantity value is smaller than the preset second electric quantity value, or the microphone device sends the second real-time electric quantity value to the first terminal device so that the first terminal device determines whether the second real-time electric quantity value is smaller than the preset second electric quantity value.

204. Displaying a first low battery prompt on a display screen of the microphone device.

In the embodiment of the invention, the first low power prompt is used for prompting that the first terminal equipment is in a low power state. The first low power prompt may be a special icon for prompting that the first terminal device is in the low power state, or may be a text message for prompting that the first terminal device is in the low power state, and the like.

205. Displaying a second low battery prompt on a display screen of the microphone device.

In the embodiment of the present invention, the second low power prompt is used to prompt that the microphone device is in a low power state. The second low power prompt may be a special icon for prompting that the second terminal device is in the low power state, or may be a text message for prompting that the second terminal device is in the low power state, and the like.

In this embodiment of the present invention, an execution main body of step 204 to step 205 may be a microphone device, or may also be a second terminal device or a first terminal device, and the second terminal device or the first terminal device may control a display screen of the microphone device to display a first low power prompt or a second low power prompt, which is not limited in this embodiment of the present invention.

206. The microphone device is disconnected from the first terminal device.

As an alternative embodiment, when the second real-time electric quantity value is smaller than the preset second electric quantity value, after the step 206 is executed, the following steps may be further executed:

and sending a power saving prompt to a second terminal device which is connected with the microphone device in advance, and disconnecting the microphone device from the second terminal device, wherein the power saving prompt is used for prompting that the microphone device is about to disconnect from the second terminal device and enter a power saving mode.

By implementing such an alternative embodiment, when the microphone device is in the low power state, not only the connection between the microphone device and the first terminal device can be disconnected, but also the connection between the microphone device and the second terminal device can be disconnected, so that a power saving prompt can be sent to the second terminal device to avoid unnecessary worry of a user (such as a parent of a child) of the second terminal device. This procedure allows the microphone device to achieve better power savings and eliminates the need for parents to worry unnecessarily.

It can be seen that, with the method for managing and controlling the microphone device based on the electric quantity described in fig. 2, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the connection between the microphone device and the first terminal device is forgotten to be disconnected for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

In addition, by implementing the method for managing and controlling the microphone device based on the electric quantity described in fig. 2, when the electric quantity of the first terminal device is insufficient, a first low-electric-quantity prompt can be displayed on the display screen of the microphone device, when the electric quantity of the microphone device is insufficient, a second low-electric-quantity prompt can be displayed on the display screen of the microphone device, different prompt information can be used for prompting the device (the microphone device or the first terminal device) in the low electric quantity state of the user, and the user can conveniently charge the microphone device in a targeted manner.

EXAMPLE III

Referring to fig. 3, fig. 3 is a flowchart illustrating another method for managing a microphone device based on power consumption according to an embodiment of the invention. As shown in fig. 3, the method for managing microphone devices based on power consumption may include the following steps:

301. a first real-time electric quantity value of the first terminal device and/or a second real-time electric quantity value of the microphone device are/is acquired, and step 302 and/or step 303 are/is triggered to be executed.

302. Judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value, if so, executing step 304 and step 307; if not, the process is ended.

In the embodiment of the present invention, when the first real-time electric quantity value is determined to be smaller than the preset first electric quantity value, step 304 and step 307 are executed.

303. Judging whether the second real-time electric quantity value is smaller than a preset second electric quantity value, if so, executing step 305 and step 307; if not, the process is ended.

In the embodiment of the present invention, when the second real-time electric quantity value is determined to be smaller than the preset second electric quantity value, step 305 and step 307 are executed.

304. Displaying a first low battery prompt on a display screen of the microphone device.

305. Displaying a second low battery prompt on a display screen of the microphone device.

In this embodiment of the present invention, an execution main body of step 304 to step 305 may be a microphone device, or may also be a second terminal device or a first terminal device, and the second terminal device or the first terminal device may control a display screen of the microphone device to display a first low power prompt or a second low power prompt, which is not limited in this embodiment of the present invention.

306. And detecting whether a disconnection instruction sent by the second terminal equipment is received, if so, executing the step 307 to the step 309, and if not, ending the process.

In the embodiment of the invention, the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment. The microphone device may detect whether a disconnection instruction sent by the second terminal device is received, and when it is detected that the disconnection instruction is received, execute step 307 to step 309, and when it is detected that the disconnection instruction is not received, end the process.

307. The microphone device is disconnected from the first terminal device.

In this embodiment of the present invention, when the first real-time electric quantity value of the first terminal device is smaller than the preset first electric quantity value, the microphone device may automatically disconnect the microphone device from the first terminal device, or the second terminal device may control the microphone device to disconnect from the first terminal device, or the first terminal device may automatically disconnect from the microphone device, which is not limited in this embodiment of the present invention.

308. And displaying a management and control prompt on a display screen of the microphone device.

In the embodiment of the present invention, the management and control prompt is used to prompt that the microphone device is in a parent management and control state. The execution main body for displaying the control prompt on the display screen of the microphone device may be the microphone device, or may also be a second terminal device or a first terminal device, and the second terminal device or the first terminal device may control the display screen of the microphone device to display the control prompt, which is not limited in the embodiment of the present invention.

In this embodiment of the present invention, step 307 may also occur after step 308, and step 307 may also occur simultaneously with step 308, which is not limited in this embodiment of the present invention.

309. And detecting whether a control releasing instruction sent by the second terminal equipment is received, if so, executing the step 310, and if not, ending the process.

In the embodiment of the invention, the control releasing instruction is used for indicating to restore the connection between the microphone device and the first terminal device. The microphone device may detect whether a control release instruction sent by the second terminal device is received, execute step 310 when detecting that the control release instruction sent by the second terminal device is received, and end the process when detecting that the control release instruction sent by the second terminal device is not received.

310. The microphone device is connected to the first terminal device.

In the embodiment of the invention, when the microphone device detects that the control-releasing instruction sent by the second terminal device is received, the microphone device can automatically reestablish the connection with the first terminal device.

It can be seen that, with the method for managing and controlling the microphone device based on the electric quantity described in fig. 3, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the connection between the microphone device and the first terminal device is forgotten to be disconnected for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

In addition, by implementing the method for managing and controlling the microphone device based on the electric quantity described in fig. 3, when the electric quantity of the first terminal device is insufficient, a first low-electric-quantity prompt can be displayed on the display screen of the microphone device, when the electric quantity of the microphone device is insufficient, a second low-electric-quantity prompt can be displayed on the display screen of the microphone device, and different prompt information can be used to remind a user of the device (the microphone device or the first terminal device) at low electric power, so that the user can charge the device in a targeted manner.

In addition, when the second terminal device (e.g., a mobile phone used by a parent) issues a disconnection command, the method for managing the microphone device based on the electric quantity described in fig. 3 can disconnect the microphone device from the first terminal device, so as to manage the use of the user (e.g., a child) using the microphone device and the first terminal device, and prevent the child from being enthusiastic to use the first terminal device (e.g., a learning tablet) and the microphone device for entertainment. And when the second terminal equipment sends out the instruction of controlling, the microphone equipment can resume the connection with first terminal equipment for the head of a family management and control is more nimble.

Example four

Referring to fig. 4, fig. 4 is a schematic structural diagram of a microphone apparatus according to an embodiment of the present invention. As shown in fig. 4, the microphone apparatus 400 may include an acquisition unit 401, a first judgment unit 402, and a disconnection unit 403, where:

the acquiring unit 401 is configured to acquire a first real-time electric quantity value of the first terminal device and/or a second real-time electric quantity value of the microphone device.

The first judging unit 402 is configured to judge whether the first real-time electric quantity value acquired by the acquiring unit 401 is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value acquired by the acquiring unit 401 is smaller than a preset second electric quantity value.

As an optional implementation manner, after the first determining unit 402 determines that the first real-time electric quantity value is smaller than the preset first electric quantity value, the first determining unit 402 may be further configured to:

controlling the first terminal device to vibrate and send a first voice prompt message, and triggering the disconnection unit 403 to disconnect the microphone device from the first terminal device, where the first voice prompt message is used to prompt a user to charge the first terminal device and prompt the user that the connection between the first terminal device and the microphone device is to be disconnected;

after the first determining unit 402 determines that the second real-time electric quantity value is smaller than the preset second electric quantity value, the first determining unit 402 may be further configured to:

the first terminal device is controlled to vibrate and send a second voice prompt message, and the disconnection unit 403 is triggered to disconnect the microphone device from the first terminal device, where the second voice prompt message is used to prompt the user to charge the microphone device and prompt the user that the connection between the first terminal device and the microphone device is about to be disconnected.

By implementing the optional implementation mode, when the electric quantity of the first terminal equipment is insufficient, the first terminal equipment can vibrate and prompt a user to charge the first terminal equipment in a voice mode, and prompt that the connection between the microphone equipment and the first terminal equipment is about to be disconnected; when the electric quantity of the microphone equipment is insufficient, the first terminal equipment can vibrate and prompt a user to charge the microphone equipment through voice, and the prompt is about to disconnect the microphone equipment from the first terminal equipment. The process can remind the user of charging the microphone device or the first terminal device in time, so that the situation that the microphone device or the first terminal device is used by the user due to insufficient electric quantity is avoided, and user experience is improved.

A disconnecting unit 403, configured to disconnect the microphone device from the first terminal device when the first determining unit 402 determines that the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value.

As an optional implementation manner, when the second real-time electric quantity value is smaller than the preset second electric quantity value, after the disconnection unit 403 disconnects the microphone device from the first terminal device, the disconnection unit 403 is further configured to:

and sending a power saving prompt to a second terminal device which is connected with the microphone device in advance, and disconnecting the microphone device from the second terminal device, wherein the power saving prompt is used for prompting that the microphone device is about to disconnect from the second terminal device and enter a power saving mode.

By implementing such an alternative embodiment, when the microphone device is in the low power state, not only the connection between the microphone device and the first terminal device can be disconnected, but also the connection between the microphone device and the second terminal device can be disconnected, so that a power saving prompt can be sent to the second terminal device to avoid unnecessary worry of a user (such as a parent of a child) of the second terminal device. This procedure allows the microphone device to achieve better power savings and eliminates the need for parents to worry unnecessarily.

It can be seen that, with the microphone device described in fig. 4, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the microphone device forgets to disconnect the connection between the microphone device and the first terminal device for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

EXAMPLE five

Referring to fig. 5, fig. 5 is a schematic structural diagram of another microphone apparatus according to an embodiment of the disclosure. Wherein the microphone apparatus shown in fig. 5 is optimized from the microphone apparatus shown in fig. 4, compared to the microphone apparatus shown in fig. 4, in the microphone apparatus shown in fig. 5:

the acquisition unit 401 includes:

the sending sub-unit 4011 is configured to send, at preset time intervals, an acquisition instruction to a first terminal device that establishes a connection with a microphone device in advance; the acquisition instruction is used for instructing acquisition of a first real-time electric quantity value of the first terminal equipment.

The receiving sub-unit 4012 is configured to receive a first real-time electric quantity value returned by the first terminal device according to the obtaining instruction sent by the sending sub-unit 4011.

Optionally, the microphone apparatus 400 shown in fig. 5 may further include:

the first display unit 404 is configured to display the first real-time electric quantity value on the display screen of the microphone device after the receiving sub-unit 4012 receives the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction; the first judging unit 402 is further configured to display a first low power prompt on a display screen of the microphone device when the first real-time power value is judged to be smaller than a preset first power value; the first low power prompt is used for prompting that the first terminal equipment is in a low power state; when the first determining unit 402 determines that the second real-time electric quantity value is smaller than the preset second electric quantity value, displaying a second low-electric-quantity prompt on a display screen of the microphone device; the second low battery prompt is for prompting that the microphone apparatus is in a low battery state.

It can be seen that, with the microphone device described in fig. 5, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the microphone device forgets to disconnect the connection between the microphone device and the first terminal device for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

In addition, with the microphone device described in fig. 5, when the power of the first terminal device is insufficient, the first low power prompt can be displayed on the display screen of the microphone device, and when the power of the microphone device is insufficient, the second low power prompt can be displayed on the display screen of the microphone device, so that different prompt messages can be used to prompt the user of the device (the microphone device or the first terminal device) with low power, and the user can charge the device with pertinence.

EXAMPLE six

Referring to fig. 6, fig. 6 is a schematic structural diagram of another microphone apparatus according to an embodiment of the present invention. Wherein, the microphone apparatus shown in fig. 6 is optimized from the microphone apparatus shown in fig. 5, and compared with the microphone apparatus shown in fig. 5, the microphone apparatus shown in fig. 6 may further include:

a detecting unit 405, configured to detect whether a disconnection instruction sent by the second terminal device is received; the disconnection instruction is used for instructing the microphone device to disconnect from the first terminal device.

The disconnection unit 403 is further configured to disconnect the microphone device from the first terminal device when the detection unit 405 detects that the disconnection instruction is received.

A second display unit 406, configured to display a management and control prompt on a display screen of the microphone device when the detection unit 405 detects that the disconnection instruction is received; the management and control prompt is used for prompting that the microphone device is in a parent management and control state.

Alternatively, in the microphone arrangement shown in figure 6,

the detecting unit 405 is further configured to detect whether a control releasing instruction sent by the second terminal device is received after the disconnecting unit 403 disconnects the connection with the first terminal device and the second display unit 406 displays a control prompting on a display screen of the microphone device; the control releasing instruction is used for indicating that the connection between the microphone device and the first terminal device is restored.

A connection unit 407, configured to establish a connection between the microphone device and the first terminal device when the detection unit 405 detects that the control release instruction is received.

It can be seen that, with the microphone device described in fig. 6, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the microphone device forgets to disconnect the connection between the microphone device and the first terminal device for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

In addition, with the microphone device described in fig. 6, the user may be reminded of the device (microphone device or first terminal device) at low power by using different prompting messages, so that the user can charge the device in a targeted manner.

In addition, with the microphone device described in fig. 6, when the second terminal device (e.g., a mobile phone used by a parent) issues a disconnection command, the connection between the microphone device and the first terminal device can be disconnected, so as to control the use of the user (e.g., a child) using the microphone device and the first terminal device, and prevent the child from being enthusiastic to use the first terminal device (e.g., a learning tablet) and the microphone device for entertainment. And when the second terminal equipment sends out the instruction of controlling, the microphone equipment can resume the connection with first terminal equipment for the head of a family management and control is more nimble.

EXAMPLE seven

Referring to fig. 7, fig. 7 is a schematic structural diagram of another microphone apparatus according to an embodiment of the disclosure. As shown in fig. 7, the microphone apparatus may include:

a memory 701 in which executable program code is stored;

a processor 702 coupled to the memory 701;

the processor 702 calls the executable program code stored in the memory 701 to execute any one of the methods of fig. 1 to 3 for managing and controlling the microphone device based on the electric quantity.

Example eight

Referring to fig. 8, fig. 8 is a schematic structural diagram of a system based on an electric quantity management microphone device according to an embodiment of the present invention. As shown in fig. 8, the system may include a first terminal device 80, a microphone device 90, and a second terminal device 100;

wherein the first terminal device 80 includes:

the first generating unit 801 is configured to collect a first real-time electric quantity value of the first terminal device 80.

The first sending unit 802 is configured to send the first real-time electric quantity value collected by the first generating unit 801 to the microphone device 90.

Wherein the microphone device 90 comprises:

a second generating unit 901, configured to collect a second real-time electric quantity value of the microphone apparatus 90.

A receiving unit 902, configured to receive the first real-time electric quantity value sent by the first sending unit 901.

The second determining unit 903 is configured to determine whether the first real-time electric quantity value received by the receiving unit 902 is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value collected by the second generating unit 901 is smaller than a preset second electric quantity value.

A control unit 904, configured to disconnect the microphone device 90 from the first terminal device 80 when the second determining unit 903 determines that the first real-time electrical quantity value is smaller than the preset first electrical quantity value and/or the second real-time electrical quantity value is smaller than the preset second electrical quantity value.

Wherein the second terminal device 100 includes:

a second transmitting unit 1001 for transmitting a disconnection instruction to the microphone device 90; the disconnection instruction is used to instruct the microphone device 90 to disconnect from the first terminal device 80.

The control unit 904 is further configured to disconnect the microphone device 90 from the first terminal device 80 when receiving the disconnection instruction transmitted by the second transmission unit 1001.

As can be seen, with the system for managing and controlling the microphone device based on the electric quantity described in fig. 8, when the electric quantity of the first terminal device (e.g., the learning tablet) is smaller than the preset first electric quantity value and/or the electric quantity of the microphone device (e.g., the microphone connected to the learning tablet) is smaller than the preset second electric quantity value, the connection between the microphone device and the first terminal device is automatically disconnected, a phenomenon that the connection between the microphone device and the first terminal device is forgotten to be disconnected for direct charging is avoided, and the electric consumption of the microphone device and the first terminal device is reduced.

For a detailed description of the microphone device 90, refer to the detailed description of the first to seventh embodiments.

In addition, with the system for managing microphone device based on power consumption described in fig. 8, when the second terminal device (e.g., a mobile phone used by a parent) issues a disconnection command, the connection between the microphone device and the first terminal device can be disconnected, so as to manage the usage of the user (e.g., a child) using the microphone device and the first terminal device, and prevent the child from being enthusiastic to use the first terminal device (e.g., a learning tablet) and the microphone device for entertainment.

The embodiment of the invention discloses a computer-readable storage medium which stores a computer program, wherein the computer program enables a computer to execute any one method based on an electric quantity control microphone device in figures 1-3.

Embodiments of the present invention also disclose a computer program product, wherein, when the computer program product is run on a computer, the computer is caused to execute part or all of the steps of the method as in the above method embodiments.

The embodiment of the present invention also discloses an application publishing platform, wherein the application publishing platform is used for publishing a computer program product, and when the computer program product runs on a computer, the computer is caused to execute part or all of the steps of the method in the above method embodiments.

In various embodiments of the present invention, it should be understood that the sequence numbers of the above-mentioned processes do not imply an inevitable order of execution, and the execution order of the processes should be determined by their functions and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

In the embodiments provided herein, it should be understood that "B corresponding to A" means that B is associated with A from which B can be determined. It should also be understood, however, that determining B from a does not mean determining B from a alone, but may also be determined from a and/or other information.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated units, if implemented as software functional units and sold or used as a stand-alone product, may be stored in a computer accessible memory. Based on such understanding, the technical solution of the present invention, which is a part of or contributes to the prior art in essence, or all or part of the technical solution, can be embodied in the form of a software product, which is stored in a memory and includes several requests for causing a computer device (which may be a personal computer, a server, a network device, or the like, and may specifically be a processor in the computer device) to execute part or all of the steps of the above-described method of each embodiment of the present invention.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by hardware instructions of a program, and the program may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory (CD-ROM), or other Memory, such as a magnetic disk, or a combination thereof, A tape memory, or any other medium readable by a computer that can be used to carry or store data.

The method, the microphone device and the system for managing and controlling the microphone device based on the electric quantity disclosed by the embodiment of the invention are introduced in detail, a specific example is applied in the text to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (8)

1. A method for managing and controlling a microphone device based on electric quantity is characterized by comprising the following steps:

acquiring a first real-time electric quantity value of a first terminal device and/or a second real-time electric quantity value of the microphone device;

judging whether the first real-time electric quantity value is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value is smaller than a preset second electric quantity value;

when the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value, disconnecting the microphone device from the first terminal device;

detecting whether a disconnection instruction sent by second terminal equipment is received; the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment;

when the disconnection instruction is received, disconnecting the microphone device from the first terminal device;

displaying a management and control prompt on a display screen of the microphone device; the management and control prompt is used for prompting that the microphone device is in a parent management and control state.

2. The method of claim 1, wherein the collecting the first real-time electric quantity value of the first terminal device comprises:

sending an acquisition instruction to a first terminal device which is connected with the microphone device in advance at intervals of a preset time; the obtaining instruction is used for indicating to obtain the first real-time electric quantity value of the first terminal equipment;

receiving the first real-time electric quantity value returned by the first terminal equipment according to the acquisition instruction;

after the receiving of the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction, the method further includes:

displaying the first real-time electricity value on a display screen of the microphone apparatus.

3. The method of claim 2, further comprising:

when the first real-time electric quantity value is smaller than the preset first electric quantity value, displaying a first low-electric-quantity prompt on a display screen of the microphone device; the first low power prompt is used for prompting that the first terminal equipment is in a low power state;

when the second real-time electric quantity value is smaller than the preset second electric quantity value, displaying a second low-electric-quantity prompt on a display screen of the microphone device; the second low power prompt is used to prompt that the microphone device is in a low power state.

4. The method of claim 1, wherein after disconnecting the first terminal device and displaying a regulatory prompt on a display screen of the microphone device, the method further comprises:

detecting whether a control releasing instruction sent by the second terminal equipment is received; the control releasing instruction is used for indicating to restore the connection between the microphone device and the first terminal device;

and when the control-releasing instruction is received, the microphone equipment is connected with the first terminal equipment.

5. A microphone apparatus, comprising:

the acquisition unit is used for acquiring a first real-time electric quantity value of first terminal equipment and/or a second real-time electric quantity value of the microphone equipment;

the first judging unit is used for judging whether the first real-time electric quantity value acquired by the acquisition unit is smaller than a preset first electric quantity value and/or whether the second real-time electric quantity value acquired by the acquisition unit is smaller than a preset second electric quantity value;

the disconnection unit is used for disconnecting the microphone device from the first terminal device when the first judgment unit judges that the first real-time electric quantity value is smaller than the preset first electric quantity value and/or the second real-time electric quantity value is smaller than the preset second electric quantity value;

the detection unit is used for detecting whether a disconnection instruction sent by the second terminal equipment is received; the disconnection instruction is used for indicating the microphone equipment to be disconnected from the first terminal equipment;

the disconnection unit is further configured to disconnect the microphone device from the first terminal device when the detection unit detects that the disconnection instruction is received;

the second display unit is used for displaying a management and control prompt on a display screen of the microphone device when the detection unit detects that the disconnection instruction is received; the management and control prompt is used for prompting that the microphone device is in a parent management and control state.

6. The microphone apparatus according to claim 5, wherein the acquisition unit includes:

the sending subunit is configured to send, at preset time intervals, an acquisition instruction to a first terminal device that establishes a connection with the microphone device in advance; the obtaining instruction is used for indicating to obtain the first real-time electric quantity value of the first terminal equipment;

the receiving subunit is configured to receive the first real-time electric quantity value returned by the first terminal device according to the obtaining instruction sent by the sending subunit;

wherein the microphone apparatus further comprises:

and the first display unit is used for displaying the first real-time electric quantity value on a display screen of the microphone device after the receiving subunit receives the first real-time electric quantity value returned by the first terminal device according to the acquisition instruction.

7. The microphone apparatus of claim 6,

the first display unit is further configured to display a first low power prompt on a display screen of the microphone device when the first judgment unit judges that the first real-time power value is smaller than the preset first power value; the first low power prompt is used for prompting that the first terminal equipment is in a low power state; when the first judging unit judges that the second real-time electric quantity value is smaller than the preset second electric quantity value, displaying a second low-electric-quantity prompt on a display screen of the microphone device; the second low power prompt is used to prompt that the microphone device is in a low power state.

8. Microphone arrangement according to claim 5,

the detection unit is further configured to detect whether a control release instruction sent by the second terminal device is received after the disconnection unit disconnects the connection with the first terminal device and the second display unit displays a control management prompt on a display screen of the microphone device; the control releasing instruction is used for indicating to restore the connection between the microphone device and the first terminal device;

and the connection unit is used for establishing connection between the microphone equipment and the first terminal equipment when the detection unit detects that the control-releasing instruction is received.

Images