CN110972023B - Earphone charging box and voice playing system thereof - Google Patents

Abstract

The invention discloses an earphone charging box and a voice playing system thereof, and relates to the technical field of earphones. The voice playing system comprises: the voice control system comprises a voice trigger module, a voice integrated circuit module, a loudspeaker module and a control unit module; the input end of the control unit module is connected with the voice trigger module, and the output end of the control unit module is connected with the voice integrated circuit module, and is used for acquiring preset target voice information according to a trigger signal generated by the voice trigger module and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module; the output end of the voice integrated circuit module is connected with the loudspeaker module and used for sending corresponding voice analog signals to the loudspeaker module according to the target voice signals so as to trigger the loudspeaker module to play voice according to the voice analog signals. Therefore, the sound generating function of the earphone charging box is realized, so that the playability of the earphone charging box is improved, and the use viscosity of a user is enhanced.

Description

Earphone charging box and voice playing system thereof

Technical Field

The embodiment of the invention relates to the technical field of earphones, in particular to an earphone charging box and a voice playing system thereof.

Background

With the rapid development of communication technology, the bluetooth headset is more and more popular, and great convenience is brought to the life, work and study of people.

Currently, bluetooth headsets, such as True Wireless Stereo (TWS) headsets, are often randomly equipped with a matching headset charging box that can provide power and stow and store functionality. Particularly, when the user need not use bluetooth headset, can put into the earphone box of charging with this bluetooth headset to charge for this bluetooth headset through the earphone box of charging, and conveniently carry the bluetooth headset after putting into the earphone box of charging. Therefore, the existing earphone charging box is basically only used for storage and charging of earphones, and is single in function, so that the use viscosity of a user is influenced.

Disclosure of Invention

The invention provides a voice playing system of an earphone charging box and the earphone charging box, which are used for endowing the earphone charging box with a sound production function, increasing the playability of the earphone charging box and further enhancing the use viscosity of a user.

In a first aspect, an embodiment of the present invention provides a voice playing system for an earphone charging box, including: the voice control system comprises a voice trigger module, a voice integrated circuit module, a loudspeaker module and a control unit module;

the input end of the control unit module is connected with the voice trigger module, and the output end of the control unit module is connected with the voice integrated circuit module, and is used for acquiring preset target voice information according to a trigger signal generated by the voice trigger module and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module;

the output end of the voice integrated circuit module is connected with the loudspeaker module and used for sending a corresponding voice analog signal to the loudspeaker module according to the target voice signal so as to trigger the loudspeaker module to play voice according to the voice analog signal.

Optionally, the voice trigger module includes at least one of the following sub-modules: the device comprises a switch submodule, a knocking sensing integrated circuit submodule and a charging probe submodule. The input of the control unit module is connected with the voice trigger module, and comprises: the first input end of the control unit module is connected with the switch submodule, the second input end of the control unit module is connected with the knocking sensing integrated circuit submodule, and the third input end of the control unit module is connected with the charging probe submodule.

Optionally, the switch sub-module includes a hall switch. The first input end of the control unit module is connected with the switch submodule and comprises: and a first input end of the control unit module is connected with an output end of the Hall switch. The Hall switch is used for generating a corresponding box cover signal when the opening or closing of the earphone charging box is detected, and sending the box cover signal to the control unit module as the trigger signal.

Optionally, the control unit module is configured to obtain preset target voice information according to the box cover signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module, and includes: when the received box cover signal is a box cover opening signal, acquiring preset box cover opening voice information corresponding to the box cover opening signal, generating a box cover opening voice signal corresponding to the box cover opening voice information, and transmitting the box cover opening voice signal to the voice integrated circuit module as the target voice signal so as to trigger the voice integrated circuit module to send a corresponding box cover opening voice analog signal to the loudspeaker module; when the received box cover signal is a box cover closing signal, acquiring the box cover closing signal corresponding to the preset box cover closing voice information, generating a box cover opening voice signal corresponding to the box cover closing voice information, and taking the box cover opening voice signal as the target voice signal to be transmitted to the voice integrated circuit module so as to trigger the voice integrated circuit module to transmit a corresponding box cover closing voice analog signal to the loudspeaker module. The loudspeaker module is used for carrying out voice playing according to the voice analog signal when the box cover is opened or the voice analog signal when the box cover is closed.

Optionally, the knock sensing integrated circuit sub-module includes a knock sensing integrated circuit. The second input end of the control unit module is connected with the knocking sensing integrated circuit submodule and comprises: and the second input end of the control unit module is connected with the output end of the knocking sensing integrated circuit. The knocking sensing integrated circuit is used for generating a knocking sensing signal corresponding to the earphone charging box and sending the knocking sensing signal to the control unit module as the trigger signal.

Optionally, before the tapping sensing signal is sent to the control unit module as the trigger signal, the tapping sensing integrated circuit is further configured to record a tapping number corresponding to the tapping sensing signal, so as to send the tapping sensing signal to the control unit module when the tapping number exceeds a preset number threshold;

the control unit module is specifically used for acquiring corresponding preset knocking voice information according to the knocking sensing signal, generating a knocking voice digital signal corresponding to the knocking voice information, and transmitting the knocking voice digital signal to the voice integrated circuit module as the target voice signal so as to trigger the voice integrated circuit module to send a corresponding voice analog signal to the loudspeaker module.

Optionally, the voice integrated circuit module includes a voice integrated circuit, an input end of the voice integrated circuit is connected to an output end of the control unit module, and an output end of the voice integrated circuit is connected to an input end of the speaker module. The control unit module is used for obtaining preset target voice information according to the knocking sensing signal and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module, and the control unit module comprises: after the knocking sensing signal is received, determining the knocking times corresponding to the knocking sensing signal, acquiring preset knocking voice information corresponding to the knocking times, generating a knocking voice digital signal corresponding to the knocking voice information, and sending the knocking voice digital signal serving as the target voice signal to the voice integrated circuit. The voice integrated circuit is used for converting the knocking voice digital signal into a voice analog signal corresponding to the appearance shape of the earphone charging box and sending the voice analog signal to the loudspeaker module so as to trigger the loudspeaker module to play voice according to the voice analog signal.

Optionally, the charging probe sub-module comprises a charging probe; the charging probe submodule comprises a charging probe, a first end of the charging probe is connected with a third input end of the control unit module, and a second end of the charging probe is used for connecting a load of the earphone charging box;

the charging probe is specifically configured to generate a corresponding load signal when the second end is connected to the load or the second end is disconnected from the load, and send the load signal to the control unit module as the trigger signal.

Optionally, the load includes an earphone, the load signal includes an earphone connection signal and an earphone disconnection signal, the earphone connection signal is a signal generated when the charging probe is connected to the earphone, and the earphone disconnection signal is a signal generated when the charging probe is disconnected from the earphone. The control unit module is used for obtaining preset target voice information according to the load signal and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module, and comprises: when the received load signal is an earphone connection signal, acquiring preset earphone connection voice information corresponding to the earphone connection signal, generating an earphone connection voice signal corresponding to the earphone connection voice information, and transmitting the earphone connection voice signal to the voice integrated circuit module as the target voice signal to trigger the voice integrated circuit module to send a corresponding earphone connection voice analog signal to the speaker module; and when the received load signal is an earphone disconnection signal, acquiring a preset earphone disconnection voice message corresponding to the earphone disconnection signal, generating an earphone disconnection voice signal corresponding to the earphone disconnection voice message, and transmitting the earphone disconnection voice signal to the voice integrated circuit module as the target voice signal so as to trigger the voice integrated circuit module to send a corresponding earphone disconnection voice analog signal to the speaker module. The loudspeaker module is used for carrying out voice playing according to the earphone connection voice analog signal or the earphone disconnection voice analog signal. The fourth input end of the control unit module is connected with a battery power supply of the earphone charging box, and the control unit module is further used for charging the earphone according to the earphone connection signal and a voltage signal provided by the power battery.

In a second aspect, an embodiment of the present invention further provides an earphone charging box, including the voice playing system of the earphone charging box according to the first aspect.

The processing unit module in the embodiment of the invention can acquire preset target voice information according to the trigger signal generated by the voice trigger module and send the target voice signal corresponding to the target voice information to the voice integrated circuit module, so that the voice integrated circuit module can send a corresponding voice analog signal to the loudspeaker module according to the target voice signal to trigger the loudspeaker module to play voice according to the voice analog signal, namely send out a corresponding sound effect of the voice analog signal, thereby realizing the sound production function of the earphone charging box, solving the problem that the existing earphone charging box is only used for earphone storage and charging use and is single in function, greatly increasing the playability of the earphone charging box, strengthening the use viscosity of a user, and solving the problem that the existing earphone charging box is low in playability and causes the use viscosity of the user to be low.

Drawings

Fig. 1 is a block diagram of a voice playing system of an earphone charging box according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a voice playing system of an earphone charging box according to an alternative embodiment of the present invention;

fig. 3 is a schematic structural diagram of an earphone charging box in an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1, a block diagram of a voice playing system of an earphone charging box according to an embodiment of the present invention is shown. The voice playing system 100 of the earphone charging box may include: voice trigger module 110, voice integrated circuit module 120, speaker module 130, and control unit module 140. The input end of the control unit module 140 is connected to the voice trigger module 110, and the output end of the control unit module 140 is connected to the voice integrated circuit module 120, and is configured to obtain preset target voice information according to a trigger signal generated by the voice trigger module 110, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120. The output end of the voice integrated circuit module 120 is connected to the speaker module 130, and is configured to send a corresponding voice analog signal to the speaker module 130 according to the target voice signal, so as to trigger the speaker module 130 to perform voice playing according to the voice analog signal.

In this embodiment, after the voice trigger module 110 generates a signal, the signal may be determined as a voice trigger signal, and the voice trigger signal may be sent to the processing unit module for processing. Specifically, after receiving the trigger signal generated by the voice trigger module 110, the control unit module 140 may obtain preset voice information based on the trigger signal, and use the preset voice information as target voice information, and then send a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, so that the voice integrated circuit module 120 may receive the target voice signal, convert the target voice signal into a corresponding voice analog signal, and send the corresponding voice analog signal to the speaker module 130, so as to perform voice playing according to the voice analog signal through the speaker module 130, i.e., send a corresponding sound effect of the voice analog signal.

Therefore, the voice playing system is added in the earphone charging box, the sounding function of the earphone charging box is realized, and the problem of single function caused by the fact that the existing earphone charging box is only used for accommodating and charging earphones is solved; and the earphone charging box can sound, greatly increasing the playability of the earphone charging box, further enhancing the use viscosity of people, and solving the problem that the use viscosity of users is low due to the low playability of the existing earphone charging box.

In a specific implementation, the target voice signal corresponding to the target voice information may be a voice digital signal generated according to the target voice information. After receiving the target voice signal, the voice integrated circuit module 120 may convert the target voice signal into a corresponding voice analog signal through digital-to-analog conversion, and may send the voice analog signal to the speaker module 130, so that the speaker module 130 performs voice playing according to the voice analog signal.

The voice trigger module 110 in this embodiment may be configured to generate a voice trigger signal, that is, a signal for triggering the earphone charging box to sound. Further, the voice trigger module 110 may include one or more sub-modules, and each sub-module may be connected to an input terminal of the control unit module 140.

Optionally, on the basis of the foregoing embodiment, the voice trigger module 110 in this embodiment may include at least one of the following sub-modules: the switch submodule 111, the tapping sensing integrated circuit submodule 112, the charging probe submodule 113, and the like, which is not particularly limited in the present embodiment. As shown in fig. 2, the connection of the input terminal of the control unit module 140 and the voice trigger module 110 may include: a first input terminal of the control unit module 140 is connected to the switch submodule 111, a second input terminal of the control unit module 140 is connected to the tapping sensing integrated circuit submodule 112, and a third input terminal of the control unit module 140 is connected to the charging probe submodule 113.

In the actual process, the switch submodule 111 may be configured to generate a corresponding trigger signal when the charging box is closed or opened, and send the trigger signal to the control unit module 140, so as to trigger the control unit module 140 to obtain, according to the trigger signal, preset voice information that the earphone charging box is opened or closed as target voice information, so that the control unit module 140 sends a target voice signal corresponding to the voice information that the earphone charging box is opened or closed to the voice integrated circuit module 120, so as to convert the target voice signal into a corresponding voice analog signal through the voice integrated circuit module 120, and send the corresponding voice analog signal to the speaker module 130 for voice playing.

In a specific implementation, a hall switch may be employed to detect the opening or closing of the headset charging box. Thus, in an alternative embodiment of the present invention, the switch submodule 111 may comprise a hall switch. The first input end of the control unit module 140 is connected to the switch sub-module 111, and includes: a first input terminal of the control unit module 140 is connected to an output terminal of the hall switch. The hall switch is configured to generate a corresponding box cover signal when detecting that the earphone charging box is opened or closed, and send the box cover signal to the control unit module 140 as the trigger signal.

Specifically, when the hall switch detects that the earphone charging box is opened or closed, the hall switch may generate a corresponding box cover signal, and may send the box cover signal to the control unit module 140 as a trigger signal of the earphone charging box voice, so that the control unit module 140 may obtain preset target voice information according to the box cover signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, and thus may trigger the voice integrated circuit module 120 to send a corresponding box cover opening or closing voice analog signal to the speaker module 130, and may trigger the speaker module 130 to send a sound effect of opening or closing the earphone charging box.

Specifically, in this embodiment, when the received box cover signal is a box cover opening signal, the control unit module 140 obtains preset box cover opening voice information corresponding to the box cover opening signal, and uses the box cover opening voice information as target voice information, so as to use a voice digital signal corresponding to the box cover opening voice information as a target voice signal, and transmit the target voice signal to the voice integrated circuit module 120, so as to trigger the voice integrated circuit module 120 to send a corresponding box cover opening voice analog signal to the speaker module 130 for voice playing; and when the received box cover signal is the box cover closing signal, acquiring preset box cover closing voice information corresponding to the box cover closing signal, taking the box cover closing voice information as target voice information, taking a voice digital signal corresponding to the box cover closing voice information as a target voice signal, and transmitting the target voice signal to the voice integrated circuit module 120, so that the voice integrated circuit module 120 can be triggered to send a corresponding box cover closing voice analog signal to the speaker module 130 for voice playing.

Optionally, in this embodiment, the control unit module 140 is configured to obtain preset target voice information according to the box cover signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, and specifically may include: when the received box cover signal is a box cover opening signal, acquiring preset box cover opening voice information corresponding to the box cover opening signal, generating a box cover opening voice signal corresponding to the box cover opening voice information, and transmitting the box cover opening voice signal to the voice integrated circuit module 120 as the target voice signal to trigger the voice integrated circuit module 120 to send a corresponding box cover opening voice analog signal to the speaker module 130; when the received box cover signal is a box cover closing signal, acquiring the box cover closing signal corresponding to the preset box cover closing voice information, generating a box cover opening voice signal corresponding to the box cover closing voice information, and transmitting the box cover opening voice signal as the target voice signal to the voice integrated circuit module 120 so as to trigger the voice integrated circuit module 120 to transmit a corresponding box cover closing voice analog signal to the speaker module 130. The speaker module 130 is configured to play the voice according to the voice analog signal when the box cover is opened or the voice analog signal when the box cover is closed.

Specifically, when the earphone charging box is opened, the hall switch can be triggered to generate a box cover opening signal, the box cover opening signal can be transmitted to a micro control Unit (MicroControl Unit, MCU) in the control Unit module 140, the MCU can acquire corresponding preset box cover opening voice information according to the box cover opening signal, the box cover opening voice signal corresponding to the box cover opening voice information is generated, the box cover opening voice signal is transmitted to the voice integrated circuit module 120, the voice integrated circuit module 120 transmits a corresponding box cover opening voice analog signal to the speaker module 130, and sound corresponding to the box cover opening voice analog signal is transmitted through a loudspeaker in the speaker module 130.

Similarly, when the earphone charging box is closed, can trigger hall switch and produce a lid closure signal, and can give the MCU in the control unit module 140 with this lid closure signal transmission, thereby make this MCU obtain the corresponding predetermined lid closure speech information according to this lid closure signal, and generate the lid closure speech signal that this lid closure speech information corresponds, later with lid closure speech signal transmission for pronunciation integrated circuit module 120, make pronunciation integrated circuit module 120 send corresponding lid closure speech analog signal to speaker module 130, send the lid closure speech analog signal corresponding sound through the loudspeaker in this speaker module 130.

As an example of the present invention, when the flip opens the earphone charging box, the hall switch in the earphone charging box may be triggered to send out a signal as a box cover opening signal. The lid opening signal is processed by the MCU to generate a lid opening voice signal, and the lid opening voice signal is transmitted to a voice Integrated Circuit (IC) in the voice Integrated Circuit module 120. After receiving the lid opening voice signal, the voice IC may convert the lid opening voice signal into a signal corresponding to the playing sound a (i.e., the lid opening voice analog signal), and output the signal of the playing sound a to the speaker in the speaker module 130, so that the speaker emits the sound a. Similarly, when the box cover of the earphone charging box is closed, the Hall switch in the earphone charging box can be triggered to send a signal as a box cover closing signal. The lid closing signal is processed by the MCU to generate a lid closing voice signal, and then the lid closing voice signal is transmitted to the voice IC. After receiving the lid closing voice signal, the voice IC may convert the lid closing voice signal into a signal corresponding to the playing sound B (i.e., a lid closing voice analog signal), and output the signal of the playing sound B to the speaker in the speaker module 130, so that the speaker emits the sound B.

It can be seen that this example can trigger hall switch and send a signal when earphone charging box flip opens or closes, handles through MCU and sends the signal of the corresponding sound of broadcast for pronunciation IC again, and pronunciation IC receives the signal and exports the signal of broadcast sound to loudspeaker for loudspeaker send corresponding sound loudspeaker and send B sound, have increased earphone charging box's object for appreciation nature, thereby strengthened people's use viscidity.

Of course, the earphone charging box in this embodiment may also emit corresponding sound under the condition of other voice triggers, for example, the earphone may emit corresponding sound when the earphone is placed in or separated from the earphone charging box, or the user may emit corresponding sound when the user taps the earphone charging box or taps other objects with the earphone charging box, and the embodiment does not specifically limit this.

Specifically, the tapping sensing integrated circuit sub-module 112 in the embodiment of the present invention may be configured to generate a corresponding trigger signal when the earphone charging box is tapped or the earphone charging box taps another object, and send the trigger signal to the control unit module 140, so that the control unit module 140 obtains preset tapping voice information as target voice information according to the trigger signal, so that the control unit module 140 sends the target voice signal corresponding to the tapping voice information to the voice integrated circuit module 120, so as to convert the target voice signal into a corresponding voice analog signal through the voice integrated circuit module 120, and send the corresponding voice analog signal to the speaker module 130 for voice playing.

In the actual process, whether the earphone charging box is knocked or not or whether other objects are knocked by the earphone charging box can be detected by adopting the knocking sensing IC. Thus, in an alternative embodiment of the present invention, the tap sensing integrated circuit sub-module 112 comprises a tap sensing integrated circuit. A second input of the control unit module 140 is connected to the knock sensing integrated circuit sub-module 112, and may include: a second input terminal of the control unit module 140 is connected to an output terminal of the knock sensing integrated circuit. The knocking sensing integrated circuit is configured to generate a knocking sensing signal corresponding to the earphone charging box, and send the knocking sensing signal to the control unit module 140 as the trigger signal. The knocking sensing signal can indicate a signal sensed by the knocking sensing IC when the user knocks the earphone charging box or knocks other objects with the earphone charging box.

Specifically, when a user taps the earphone charging box or taps another object with the earphone charging box, the tapping sensor IC in the tapping sensor IC sub-module 112 may generate a corresponding tapping sensing signal, and may send the tapping sensing signal to the control unit module 140 as a trigger signal, so that the control unit module 140 may obtain preset tapping voice information according to the tapping sensing signal, and may use the tapping voice information as target voice information, so as to transmit a target voice signal corresponding to the tapping voice information to the voice IC module 120, so as to trigger the voice IC module 120 to send a corresponding voice analog signal to the speaker module 130, and further trigger the speaker module 130 to perform voice playing according to the voice analog signal.

In a specific implementation, the earphone charging box in the embodiment of the invention can trigger a signal according to the number of times of knocking. Optionally, before the tapping sensing signal is sent to the control unit module 140 as the trigger signal, the tapping sensing integrated circuit in this embodiment may be further configured to record a tapping number corresponding to the tapping sensing signal, so as to send the tapping sensing signal to the control unit module 140 when the tapping number exceeds a preset number threshold; the control unit module 140 is specifically configured to obtain a preset knocking voice message according to the knocking sensing signal, and transmit the knocking voice message as the target voice message to the voice integrated circuit module 120, so as to trigger the voice integrated circuit module 120 to send a corresponding voice analog signal to the speaker module 130. The number of taps corresponding to the tap sensing signal may indicate the number of times of generation of the tap sensing signal within a certain time range, for example, if a user taps the earphone charging box 3 times within one minute, the number of taps corresponding to the tap sensing signal may be 3 times, so as to indicate that the tap sensing IC generates 3 tap sensing signals within the minute. The threshold of the number of times of knocking may be set according to the sound production requirement of the earphone charging box, such as 1 time, 2 times, etc., and this embodiment does not specifically limit this.

Specifically, when the user taps the earphone charging box or taps other objects with the earphone charging box, the tapping sensor IC may generate a corresponding tapping sensing signal, and may record the generation frequency of the tapping sensing signal within a certain time range as the tapping frequency corresponding to the tapping sensing signal, so that when the tapping frequency reaches a preset tapping frequency threshold, the tapping sensing signal may be sent to the control unit module 140 as a trigger signal, so that the control unit module 140 may obtain preset target voice information according to the tapping sensing signal, and transmit the target voice signal corresponding to the target voice information to the voice integrated circuit module 120, so as to trigger the voice integrated circuit module 120 to send a corresponding voice analog signal to the speaker module 130 for voice playing.

Optionally, the control unit module 140 may also send the tapping times corresponding to the tapping sensing signals to the control unit module 140, so that the control unit module 140 can obtain the corresponding preset tapping voice information according to the tapping times corresponding to the tapping sensing signal, the knocking voice information is used as target voice information, and a corresponding knocking voice digital signal is generated according to the knocking voice information and is transmitted to a voice IC module as a target voice signal, so as to trigger the voice integrated circuit module 120 to send a voice analog signal corresponding to the number of taps to the speaker module 130 according to the tapped voice signal, the speaker module 130 can play voice according to the voice analog signal corresponding to the knocking times, so that the effect of sending out the sound effect corresponding to the knocking times according to different knocking times is achieved, and the playability of the earphone charging box is further improved.

Further, the voice ic module 120 in this embodiment may include a voice ic, an input of the voice ic is connected to the output of the control unit module 140, and an output of the voice ic is connected to the input of the speaker module 130. The control unit module 140 is configured to obtain preset target voice information according to the tapping sensing signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, and includes: after the knocking sensing signal is received, determining the knocking times corresponding to the knocking sensing signal, acquiring preset knocking voice information corresponding to the knocking times, generating a knocking voice digital signal corresponding to the knocking voice information, and sending the knocking voice digital signal serving as the target voice signal to the voice integrated circuit. The voice integrated circuit is configured to convert the knocking voice digital signal into a voice analog signal corresponding to an appearance shape of the earphone charging box, and send the voice analog signal to the speaker module 130, so as to trigger the speaker module 130 to perform voice playing according to the voice analog signal.

Specifically, in this embodiment, after receiving the tapping sensing signal sent by the tapping sensing IC, the control unit module 140 may record the number of times of receiving the tapping sensing signal to serve as the number of times of tapping corresponding to the tapping sensing signal, and then may obtain the corresponding preset tapping voice information according to the number of times of tapping, and use the tapping voice information as the target voice information, and use the tapping voice digital signal corresponding to the tapping voice information as the target voice signal, and transmit the target voice signal to the voice integrated circuit module 120, so that the voice integrated circuit module 120 may be triggered to send the corresponding tapping voice analog signal to the speaker module 130 for voice playing. The knocking voice digital signal corresponding to the knocking voice information may be a voice digital signal generated by the control unit module 140 according to the knocking voice information and corresponding to the appearance shape of the earphone charging box, so that the voice integrated circuit module 120 may generate a voice analog signal corresponding to the appearance shape of the earphone charging box according to the knocking voice digital signal and transmit the voice analog signal to the speaker module 130 for voice playing, thereby enabling the earphone charging box to emit a sound effect corresponding to the appearance shape.

For example, in the case that the external appearance of the earphone charging box is a frog, that is, the external appearance of the earphone charging box is a frog, when the earphone charging box is knocked down, the earphone charging box can be triggered to make a "pipe" sound through the voice playing system, and the "pipe" sound can be called as a sound which is more painful than the frog; when knocking the third earphone charging box, the earphone charging box can be triggered to send out 'guaguagua' sound, which can be called with a frog with pain.

Therefore, the embodiment of the invention can be combined with the appearance shape of the earphone charging box to play voice by using corresponding sound, for example, under the condition that the appearance shape of the earphone charging box is the animal appearance shape, the earphone charging box can be combined with the animal appearance to play voice by using the corresponding sound, so that the earphone charging box can be played by a pet, the combination of the earphone charging box and the sounding toy is realized, the playability of the earphone charging box is improved, and the use viscosity of people is enhanced.

For example, in combination with the above example, in the case that the external shape of the earphone charging box is a frog shape, when the flip cover of the earphone charging box is opened, the earphone charging box may be triggered to make a frog-like cry "guag", which is similar to the frog-opening mouth shape; when the flip cover is closed, the earphone charging box can be triggered to send out a frog-calling sound which is similar to disappointing sound; when a user picks up the headphones from the headphone charging box, the headphone charging box can be triggered to sound "swooshing" like a frog floating out of the water; when the user puts the earphone into the earphone charging box, the earphone charging box can be triggered to generate a sound similar to a frog-in-water clattering and the like.

To sum up, this embodiment can trigger the earphone and send corresponding sound effect under these circumstances such as earphone charging box is taken out or is put into to earphone charging box and beats earphone charging box at earphone charging box flip open and shut earphone for the user can open and shut at flip, the earphone takes out to put into and beats earphone charging box these repetitive motions release pressure, can let use earphone charging box these corresponding crowds release pressure, promotes user experience.

In the embodiment of the present invention, the charging probe sub-module 113 may be configured to detect whether an earphone in the earphone charging box leaves the earphone charging box and/or detect whether the earphone is placed in the box body of the earphone charging box, and may generate a corresponding trigger signal when the earphone leaves the earphone charging box or is placed in the earphone charging box, and send the trigger signal to the control unit module 140, so as to trigger the control unit module 140 to obtain preset target voice information according to the trigger signal, so that the control unit module 140 sends the target voice signal corresponding to the target voice information to the voice integrated circuit module 120, so as to convert the target voice signal into a corresponding voice analog signal through the voice integrated circuit module 120, and send the corresponding voice analog signal to the speaker module 130 for voice playing.

In a specific implementation, a charging probe in the earphone charging box may be used to detect whether the earphone is placed in or out of the earphone charging box. Accordingly, in an alternative embodiment of the present invention, the charging probe sub-module 113 contains charging probes. A third input terminal of the control unit module 140 is connected to the charging probe submodule 113, and includes: a third input of the control unit module 140 is connected to the charging probe. The charging probe is used for connecting a load of the earphone charging box, generating a corresponding load signal when the earphone charging box is connected to the load or the earphone charging box is disconnected from the load, and sending the load signal to the control unit module 140 as the trigger signal.

Specifically, a first end of the charging probe is connected to a third input end of the control unit module 140, and a second end of the charging probe is used for connecting to a load of the earphone charging box. The charging probe is specifically configured to generate a corresponding load signal when the second end is connected to the load or the second end is disconnected from the load, and send the load signal to the control unit module 140 as the trigger signal.

In the actual process, when the earphone leaves from the earphone charging box or is put into the earphone charging box, the charging probe in the earphone charging box may be triggered to generate a corresponding load signal, and the load signal may be sent to the control unit module 140 as a trigger signal, so that the control unit module 140 may obtain preset target voice information according to the load signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, so that the voice integrated circuit module 120 may be triggered to send a voice analog signal corresponding to the earphone leaving or putting into the earphone charging box to the speaker module 130, and further, the speaker module 130 may be triggered to send a sound effect that the earphone leaves or puts into the earphone charging box.

Specifically, in this embodiment, when the load signal received by the control unit module 140 is the load connection signal, the preset load connection voice information corresponding to the load connection signal is obtained, and the load connection voice information is used as the target voice information, so that the voice digital signal corresponding to the load connection voice information is used as the target voice signal and is transmitted to the voice integrated circuit module 120, so that the voice integrated circuit module 120 can be triggered to send a corresponding load connection voice analog signal to the speaker module 130 for voice playing; and when the received load signal is a load disconnection signal, acquiring preset load disconnection voice information corresponding to the load disconnection signal, and using the load disconnection voice information as the target voice information, so as to transmit a voice digital signal corresponding to the load disconnection voice information as a target voice signal to the voice integrated circuit module 120, and may trigger the voice integrated circuit module 120 to transmit a corresponding load disconnection voice analog signal to the speaker module 130 for voice playing.

Further, the load in the embodiment of the present invention may include an earphone. The load signal comprises an earphone connection signal and an earphone disconnection signal, the earphone connection signal is a signal generated when the charging probe is connected with the earphone, and the earphone disconnection signal is a signal generated when the charging probe is disconnected with the earphone. Optionally, the control unit module 140 in this embodiment of the present invention is configured to obtain preset target voice information according to the load signal, and transmit a target voice signal corresponding to the target voice information to the voice integrated circuit module 120, and specifically may include: when the received load signal is an earphone connection signal, acquiring preset earphone connection voice information corresponding to the earphone connection signal, generating an earphone connection voice signal corresponding to the earphone connection voice information, and transmitting the earphone connection voice signal as the target voice signal to the voice integrated circuit module 120 to trigger the voice integrated circuit module 120 to send a corresponding earphone connection voice analog signal to the speaker module 130; and when the received load signal is an earphone disconnection signal, acquiring preset earphone disconnection voice information corresponding to the earphone disconnection signal, generating an earphone disconnection voice signal corresponding to the earphone disconnection voice information, and transmitting the earphone disconnection voice signal to the voice integrated circuit module 120 as the target voice signal, so as to trigger the voice integrated circuit module 120 to send a corresponding earphone disconnection voice analog signal to the speaker module 130. The speaker module 130 is configured to play the voice according to the earphone connection voice analog signal or the earphone disconnection voice analog signal. The earphone connection voice signal may be a voice digital signal generated according to the earphone connection voice information, and the earphone connection voice analog signal may be an analog signal obtained by performing digital-to-analog conversion according to the earphone connection voice signal. Similarly, the earphone disconnection voice signal may be a voice digital signal generated according to the earphone disconnection voice information, and the earphone disconnection voice analog signal may be an analog signal obtained by performing digital-to-analog conversion according to the earphone connection voice signal.

Specifically, when the earphone is taken out from the earphone charging box, that is, when the earphone is disconnected from the charging probe of the earphone charging box, the charging probe may be triggered to generate an earphone disconnection signal, and the earphone disconnection signal may be transmitted to a Micro Control Unit (MCU) in the Control Unit module 140, so that the MCU acquires corresponding preset earphone disconnection voice information according to the earphone disconnection signal, and generates an earphone disconnection voice signal corresponding to the earphone disconnection voice information, and then transmits the earphone disconnection voice signal to the voice integrated circuit module 120, so that the voice integrated circuit module 120 transmits a corresponding earphone disconnection voice analog signal to the speaker module 130 according to the earphone disconnection voice signal, and then transmits a sound corresponding to the earphone disconnection voice analog signal through a speaker in the speaker module 130. Similarly, when the earphone is put into the earphone charging box, that is, when the earphone is connected with the charging probe of the earphone charging box, the charging probe can be triggered to generate an earphone connection signal, and the earphone connection signal can be transmitted to the MCU in the control unit module 140, so that the MCU acquires the corresponding preset earphone connection voice information according to the earphone connection signal, and generates an earphone connection voice signal corresponding to the earphone connection voice information, and then the earphone connection voice signal can be transmitted to the voice integrated circuit module 120, so that the voice integrated circuit module 120 transmits the corresponding earphone connection voice analog signal to the speaker module 130 according to the earphone connection voice signal, and then the speaker in the speaker module 130 transmits the sound corresponding to the earphone connection voice analog signal.

For example, as shown in fig. 2, when the earphone 200 is placed in the earphone charging box, the MCU in the control unit module 140 may receive a signal generated by the charging probe, and may process the signal as an earphone connection signal to generate an earphone connection voice signal, which is transmitted to the voice IC in the voice IC module 120. After receiving the earphone connection voice signal, the voice IC may convert the earphone connection voice signal into a signal corresponding to the playing sound C (i.e., an earphone connection voice analog signal), and output the signal of the playing sound C to the speaker in the speaker module 130, so that the speaker emits the sound C. In a similar way, when the earphone is taken out from the earphone charging box, the Hall switch in the earphone charging box can be triggered to send a signal as an earphone disconnection signal. The earphone disconnection signal is processed by the MCU to generate an earphone disconnection voice signal, and then the earphone disconnection voice signal is transmitted to the voice IC. After receiving the earphone disconnection voice signal, the voice IC may convert the earphone disconnection voice signal into a signal corresponding to the play sound D (i.e., an earphone disconnection voice analog signal), and output the signal of the play sound D to the speaker in the speaker module 130, so that the speaker emits the sound D.

In practice, the headset charging box may contain a battery power source. After the headset is placed in the headset charging box, the headset can be charged based on the voltage provided by the battery power supply. Further, a fourth input terminal of the control unit module 140 in this embodiment may be connected to a battery power supply of the earphone charging box, and the control unit module 140 is further configured to charge the earphone according to the earphone connection voice signal and a voltage signal provided by the power battery. Specifically, after receiving the earphone connection voice signal transmitted by the charging probe, the control unit module 140 may charge the earphone based on the voltage signal provided by the power supply battery, so as to achieve the function of automatically charging the earphone.

In conclusion, the voice trigger module 110, the voice integrated circuit module and the speaker module 130 are added to the earphone charging box in the embodiment, so that the voice playing system is added to the earphone charging box, the voice playing function of the earphone charging box is realized through the voice playing system, the combination of the earphone charging box and the voice toy is realized, the playability of the earphone charging box is greatly improved, and the use viscosity of a user is enhanced.

Referring to fig. 3, a block diagram of a charging box for an earphone according to an embodiment of the present invention is shown. The earphone charging box 300 may include: a voice playing system of an earphone charging box. The voice playing system of the earphone charging box can be used as a voice playing system in the earphone charging box, and specifically can include the voice playing system 100 of the earphone charging box in any one of the above embodiments.

Therefore, in the embodiment, the voice trigger module 110, the voice integrated circuit module and the speaker module 130 are added in the existing earphone charging box and are controlled by the control unit module 140, so that the earphone charging box is endowed with a sound producing function, the playability of the earphone charging box is greatly increased, and the use viscosity of a user is enhanced.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For example, for the system embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the bluetooth headset and/or charging bay embodiment.

From the above description of the embodiments, it is obvious for those skilled in the art that the present invention can be implemented by software and necessary general hardware, and certainly, can also be implemented by hardware, but the former is a better embodiment in many cases. It should be noted that, in the above earphone charging box and the voice playing system thereof, the units and modules included in the earphone charging box are only divided according to functional logic, but are not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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

Claims (5)

1. A voice playback system for an earphone charging box, comprising: the voice control system comprises a voice trigger module, a voice integrated circuit module, a loudspeaker module and a control unit module;

the input end of the control unit module is connected with the voice trigger module, and the output end of the control unit module is connected with the voice integrated circuit module, and is used for acquiring preset target voice information according to a trigger signal generated by the voice trigger module and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module;

the output end of the voice integrated circuit module is connected with the loudspeaker module and used for sending a corresponding voice analog signal to the loudspeaker module according to the target voice signal so as to trigger the loudspeaker module to play voice according to the voice analog signal;

the voice trigger module comprises the following sub-modules: the device comprises a switch submodule, a knocking sensing integrated circuit submodule and a charging probe submodule;

the input of the control unit module is connected with the voice trigger module, and comprises: the first input end of the control unit module is connected with the switch submodule, the second input end of the control unit module is connected with the knocking sensing integrated circuit submodule, and the third input end of the control unit module is connected with the charging probe submodule;

wherein the tapping sensing integrated circuit sub-module comprises a tapping sensing integrated circuit;

the second input end of the control unit module is connected with the knocking sensing integrated circuit submodule and comprises: the second input end of the control unit module is connected with the output end of the knocking sensing integrated circuit;

the knocking sensing integrated circuit is used for generating a knocking sensing signal corresponding to the earphone charging box and sending the knocking sensing signal to the control unit module as the trigger signal;

before sending the knocking sensing signal to the control unit module as the trigger signal, the knocking sensing integrated circuit is further configured to record a knocking number corresponding to the knocking sensing signal, so as to send the knocking sensing signal to the control unit module when the knocking number exceeds a preset number threshold;

the control unit module is specifically used for acquiring corresponding preset knocking voice information according to the knocking sensing signal, generating a knocking voice digital signal corresponding to the knocking voice information, and transmitting the knocking voice digital signal to the voice integrated circuit module as the target voice signal so as to trigger the voice integrated circuit module to send a corresponding voice analog signal to the loudspeaker module;

the charging probe sub-module comprises a charging probe, a first end of the charging probe is connected with a third input end of the control unit module, and a second end of the charging probe is used for connecting a load of the earphone charging box;

the charging probe is specifically configured to generate a corresponding load signal when the second end is connected to the load or the second end is disconnected from the load, and send the load signal to the control unit module as the trigger signal;

the load comprises an earphone, the load signal comprises an earphone connection signal and an earphone disconnection signal, the earphone connection signal is a signal generated when the charging probe is connected with the earphone, and the earphone disconnection signal is a signal generated when the charging probe is disconnected with the earphone;

the control unit module is used for obtaining preset target voice information according to the load signal and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module, and comprises: when the received load signal is an earphone connection signal, acquiring preset earphone connection voice information corresponding to the earphone connection signal, generating an earphone connection voice signal corresponding to the earphone connection voice information, and transmitting the earphone connection voice signal to the voice integrated circuit module as the target voice signal to trigger the voice integrated circuit module to send a corresponding earphone connection voice analog signal to the speaker module; when the received load signal is an earphone disconnection signal, acquiring preset earphone disconnection voice information corresponding to the earphone disconnection signal, generating an earphone disconnection voice signal corresponding to the earphone disconnection voice information, and transmitting the earphone disconnection voice signal to the voice integrated circuit module as the target voice signal to trigger the voice integrated circuit module to send a corresponding earphone disconnection voice analog signal to the speaker module;

the loudspeaker module is used for carrying out voice playing according to the earphone connection voice analog signal or the earphone disconnection voice analog signal;

the fourth input end of the control unit module is connected with a battery power supply of the earphone charging box, and the control unit module is further used for charging the earphone according to the earphone connection signal and a voltage signal provided by the power battery.

2. The voice playback system of an earphone charging box according to claim 1, wherein the switch submodule comprises a hall switch;

the first input end of the control unit module is connected with the switch submodule and comprises: the first input end of the control unit module is connected with the output end of the Hall switch;

the Hall switch is used for generating a corresponding box cover signal when the opening or closing of the earphone charging box is detected, and sending the box cover signal to the control unit module as the trigger signal.

3. The voice playback system of an earphone charging box according to claim 2,

the control unit module is used for obtaining preset target voice information according to the box cover signal and transmitting the target voice signal corresponding to the target voice information to the voice integrated circuit module, and the control unit module comprises: when the received box cover signal is a box cover opening signal, acquiring preset box cover opening voice information corresponding to the box cover opening signal, generating a box cover opening voice signal corresponding to the box cover opening voice information, and transmitting the box cover opening voice signal to the voice integrated circuit module as the target voice signal so as to trigger the voice integrated circuit module to send a corresponding box cover opening voice analog signal to the loudspeaker module; when the received box cover signal is a box cover closing signal, acquiring preset box cover closing voice information corresponding to the box cover closing signal, generating a box cover opening voice signal corresponding to the box cover closing voice information, and transmitting the box cover opening voice signal to the voice integrated circuit module as the target voice signal to trigger the voice integrated circuit module to send a corresponding box cover closing voice analog signal to the speaker module;

the loudspeaker module is used for carrying out voice playing according to the voice analog signal when the box cover is opened or the voice analog signal when the box cover is closed.

4. The system of claim 1, wherein the voice ic module comprises a voice ic, an input of the voice ic is connected to an output of the control unit module, and an output of the voice ic is connected to an input of the speaker module;

the control unit module is used for obtaining preset target voice information according to the knocking sensing signal and transmitting a target voice signal corresponding to the target voice information to the voice integrated circuit module, and the control unit module comprises: after receiving the knocking sensing signal, determining the knocking times corresponding to the knocking sensing signal, acquiring preset knocking voice information corresponding to the knocking times, generating a knocking voice digital signal corresponding to the knocking voice information, and sending the knocking voice digital signal serving as the target voice signal to the voice integrated circuit;

the voice integrated circuit is used for converting the knocking voice digital signal into a voice analog signal corresponding to the appearance shape of the earphone charging box and sending the voice analog signal to the loudspeaker module so as to trigger the loudspeaker module to play voice according to the voice analog signal.

5. A headset charging box, characterized by a voice playback system comprising a headset charging box according to any of claims 1 to 4.

Images