阅读说明：本技术 电子设备和电子设备的控制方法 (Electronic device and control method of electronic device ) 是由 严笔祥 于 2019-10-25 设计创作，主要内容包括：本申请公开了一种电子设备和电子设备的控制方法,电子设备包括电池盖、中框组件、电池组件和电声组件,中框组件与电池盖沿第一方向相连,中框组件包括中框和设于中框的显示屏,电池组件设于中框组件和电池盖之间,以与中框组件和电池盖共同限定出密闭空腔,电池组件与显示屏相连,电池组件与中框组件之间设有第二密封件,第二密封件用于密封电池组件和中框组件之间的间隙,且第二密封件位于空腔外,电声组件设于空腔内,以使空腔形成为电声组件的后腔。根据本申请的电子设备,具有良好的外放效果。(The application discloses electronic equipment and a control method of the electronic equipment, the electronic equipment comprises a battery cover, a middle frame assembly, a battery assembly and an electroacoustic assembly, the middle frame assembly is connected with the battery cover along a first direction, the middle frame assembly comprises a middle frame and a display screen arranged on the middle frame, the battery assembly is arranged between the middle frame assembly and the battery cover to jointly define a closed cavity with the middle frame assembly and the battery cover, the battery assembly is connected with the display screen, a second sealing element is arranged between the battery assembly and the middle frame assembly and used for sealing a gap between the battery assembly and the middle frame assembly, the second sealing element is located outside the cavity, and the electroacoustic assembly is arranged in the cavity to form a rear cavity of the electroacoustic assembly. According to the electronic equipment of the application, the good external playing effect is achieved.)

1. An electronic device, comprising:

a battery cover;

the middle frame assembly is connected with the battery cover along a first direction, the middle frame assembly comprises a middle frame and a display screen arranged on the middle frame, and the first direction is the thickness direction of the battery cover;

the battery assembly is arranged between the middle frame assembly and the battery cover so as to jointly define a closed cavity together with the middle frame assembly and the battery cover, the battery assembly is connected with the display screen, a second sealing element is arranged between the battery assembly and the middle frame assembly and used for sealing a gap between the battery assembly and the middle frame assembly, and the second sealing element is positioned outside the cavity;

the electroacoustic component is arranged in the cavity, so that the cavity is formed as a back cavity of the electroacoustic component.

2. The electronic device of claim 1, wherein a first seal is disposed between the battery assembly and the battery cover, the first seal being configured to seal a gap between the battery assembly and the battery cover.

3. The electronic device of claim 2, wherein the cavity is located at one side of the battery assembly, and the first sealing member is disposed at an end of the battery assembly corresponding to the cavity.

4. The electronic device of claim 2, wherein the first seal is disposed outside the cavity.

5. The electronic device of claim 1, wherein the cavity is located at one side of the battery assembly, and the second sealing member is disposed at an end of the battery assembly corresponding to the cavity.

6. The electronic device of claim 1, wherein the electro-acoustic assembly is fixedly mounted to one of the center frame assembly and the battery cover.

7. The electronic device of claim 1, wherein the electro-acoustic assembly comprises a housing and a speaker, the housing having a mounting cavity, a side of the mounting cavity facing away from the battery cover having an opening, the speaker being mounted to the mounting cavity through the opening.

8. The electronic device of claim 1, wherein the volume V of the cavity satisfies: v is more than or equal to 2 cc.

9. The electronic device of any of claims 1-8, further comprising:

the piezoelectric ceramic device is arranged on one of the display screen and the middle frame.

10. The electronic device of claim 9, wherein the electronic device has a control unit and a high voltage power amplifier circuit module, the high voltage power amplifier circuit module is connected to the control unit, and the high voltage power amplifier circuit module is connected to the piezoelectric ceramic device in a communication manner.

11. The electronic device of claim 9, wherein the electronic device has a control unit and a smart power amplifier circuit module, the smart power amplifier circuit module is connected to the control unit, and the smart power amplifier circuit module is connected to the electroacoustic component in communication.

12. The electronic device of claim 9, wherein the piezo ceramic device and the electro-acoustic assembly are respectively located at two ends of the electronic device in a second direction, and the battery assembly is located between the piezo ceramic device and the electro-acoustic assembly, wherein the second direction is a length direction of the electronic device and is perpendicular to the first direction.

13. A method of controlling an electronic device, the electronic device comprising:

a battery cover;

the middle frame assembly is connected with the battery cover along a first direction, the middle frame assembly comprises a middle frame and a display screen arranged on the middle frame, and the first direction is the thickness direction of the battery cover;

the battery assembly is arranged between the middle frame assembly and the battery cover so as to jointly define a closed cavity together with the middle frame assembly and the battery cover, the battery assembly is connected with the display screen, a second sealing element is arranged between the battery assembly and the middle frame assembly and used for sealing a gap between the battery assembly and the middle frame assembly, and the second sealing element is positioned outside the cavity;

an electro-acoustic assembly disposed within the cavity such that the cavity forms a back volume of the electro-acoustic assembly,

a piezoelectric ceramic device disposed on one of the display screen and the middle frame,

the control method comprises the following steps:

the electronic equipment is provided with a first working mode and a second working mode, and the piezoelectric ceramic device is used as an earphone in the first working mode; in the second working mode, the electroacoustic component works, the piezoelectric ceramic device drives the display screen and one of the display screen and the middle frame to vibrate and sound, and the electronic equipment has a sound external playing function.

Technical Field

The present application relates to the field of communications devices, and in particular, to an electronic device and a method for controlling the electronic device.

Background

In the related art, the external playing effect of electronic devices such as mobile phones is generally poor, and F0 (on a speaker impedance curve, a maximum impedance value appears in a low frequency band, a frequency corresponding to the impedance is referred to as a resonant frequency of the speaker, which is denoted as F0, i.e., a frequency corresponding to a first main peak of a speaker impedance module value rising with frequency on the impedance curve) of a common speaker is high, so that the low frequency effect is difficult to improve; and some loudspeaker devices such as two unification loudspeaker subassemblies arrange the requirement too high, and need be at the cell-phone outward appearance trompil, are unfavorable for the design of full screen, and the effect promotes not obvious simultaneously, and the consumption is also higher simultaneously.

Disclosure of Invention

The application provides an electronic device, electronic device has good external effect of putting.

The application also provides a control method of the electronic equipment.

According to the electronic equipment of this application embodiment, include: a battery cover; the middle frame assembly is connected with the battery cover along a first direction, the middle frame assembly comprises a middle frame and a display screen arranged on the middle frame, and the first direction is the thickness direction of the battery cover; the battery assembly is arranged between the middle frame assembly and the battery cover so as to define a closed cavity together with the middle frame assembly and the battery cover, and the battery assembly is connected with the display screen; the electroacoustic component is arranged in the cavity, so that the cavity is formed as a back cavity of the electroacoustic component.

According to the electronic equipment of this application embodiment, inject airtight cavity jointly through making battery pack, center subassembly and battery cover to make the cavity form the rear chamber of electroacoustic subassembly, outside the cavity was located to the second sealing member, effectively promoted the volume of electroacoustic subassembly rear chamber, thereby promoted electroacoustic subassembly's low frequency effect, promoted electronic equipment's the effect of putting outward.

In some embodiments, a first seal is disposed between the battery assembly and the battery cover for sealing a gap between the battery assembly and the battery cover.

In some embodiments, the cavity is located at one side of the battery assembly, and the first sealing member is disposed at one end of the battery assembly corresponding to the cavity.

In some embodiments, the first seal is disposed outside of the cavity.

In some embodiments, the cavity is located at one side of the battery assembly, and the second sealing member is disposed at one end of the battery assembly corresponding to the cavity.

In some embodiments, the electro-acoustic assembly is fixedly disposed on one of the center frame assembly and the battery cover.

In some embodiments, the electro-acoustic assembly includes a housing having a mounting cavity, a side of the mounting cavity facing away from the battery cover having an opening, and a speaker mounted to the mounting cavity through the opening.

In some embodiments, the volume V of the cavity satisfies: v is more than or equal to 2 cc.

In some embodiments, the electronic device further comprises: the piezoelectric ceramic device is arranged on one of the display screen and the middle frame.

In some embodiments, the electronic device has a control unit and a high-voltage power amplifier circuit module, the high-voltage power amplifier circuit module is connected to the control unit, and the high-voltage power amplifier circuit module is connected to the piezoelectric ceramic device in a communication manner.

In some embodiments, the electronic device has a control unit and an intelligent power amplifier circuit module, the intelligent power amplifier circuit module is connected to the control unit, and the intelligent power amplifier circuit module is connected to the electroacoustic component in a communication manner.

In some embodiments, the piezoelectric ceramic device and the electroacoustic component are respectively located at two ends of the electronic device in a second direction, and the battery component is located between the piezoelectric ceramic device and the electroacoustic component, wherein the second direction is a length direction of the electronic device and is perpendicular to the first direction.

According to the control method of the electronic device of the embodiment of the application, the electronic device comprises: a battery cover; the middle frame assembly is connected with the battery cover along a first direction, the middle frame assembly comprises a middle frame and a display screen arranged on the middle frame, and the first direction is the thickness direction of the battery cover; the battery assembly is arranged between the middle frame assembly and the battery cover so as to jointly define a closed cavity together with the middle frame assembly and the battery cover, the battery assembly is connected with the display screen, a second sealing element is arranged between the battery assembly and the middle frame assembly and used for sealing a gap between the battery assembly and the middle frame assembly, and the second sealing element is positioned outside the cavity; an electro-acoustic assembly disposed within the cavity such that the cavity forms a back volume of the electro-acoustic assembly, a piezo ceramic device disposed in one of the display screen and the bezel, the control method comprising: the electronic equipment is provided with a first working mode and a second working mode, and the piezoelectric ceramic device is used as an earphone in the first working mode; in the second working mode, the electroacoustic component works, the piezoelectric ceramic device drives the display screen and one of the display screen and the middle frame to vibrate and sound, and the electronic equipment has a sound external playing function.

According to the electronic equipment of this application embodiment, through setting up electroacoustic component and piezoceramics device for electronic equipment can realize the earphone function, also can realize putting the function outward, and has guaranteed that electronic equipment all has good effect of putting outward at whole frequency channel.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of an electronic device according to one embodiment of the present application;

FIG. 2 is an exploded view of the electronic device shown in FIG. 1;

FIG. 3 is a partial cross-sectional view of the electronic device shown in FIG. 1;

FIG. 4 is another schematic view of the electronic device shown in FIG. 1;

fig. 5 is a flowchart illustrating a control method of an electronic device according to an embodiment of the application.

Reference numerals:

electronic device 100, cavity 100a, rear cavity 100b,

A battery cover 1,

A middle frame component 2, a middle frame 21, a display screen 22,

A battery assembly 3,

The electroacoustic component 4, the housing 41, the mounting chamber 410, the opening 410a, the speaker 42,

A piezoelectric ceramic device 5,

A first seal 61, a second seal 62,

A control unit 70, a high-voltage power amplifier circuit module 71 and an intelligent power amplifier circuit module 72.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

An electronic device 100 according to an embodiment of the application is described below with reference to fig. 1-4.

As shown in fig. 1 to 3, an electronic device 100 according to an embodiment of the present application may include a battery cover 1, a middle frame assembly 2, a battery assembly 3, and an electroacoustic assembly 4.

For example, as shown in fig. 2 and 3, the middle frame assembly 2 is connected to the battery cover 1 in a first direction (e.g., AA' direction in fig. 2 and 3), which may be a thickness direction of the battery cover 1, the middle frame assembly 2 and the battery cover 1 may be arranged in the first direction, and the middle frame assembly 2 is connected to the battery cover 1; the middle frame assembly 2 comprises a middle frame 21 and a display screen 22 arranged on the middle frame 21, wherein the middle frame 21 can be formed into a ring-shaped structure, and the middle frame 21 can be positioned at the edge of the display screen 22; the battery assembly 3 is connected with the display screen 22, and the battery assembly 3 can supply power to the display screen 22.

As shown in fig. 1 and 3, the battery assembly 3 is disposed between the middle frame assembly 2 and the battery cover 1 to define a sealed cavity 100a together with the middle frame assembly 2 and the battery cover 1; the electroacoustic component 4 is disposed in the cavity 100a, so that the cavity 100a is formed as a rear cavity 100b of the electroacoustic component 4, the cavity 100a can correct low-frequency sounds emitted by the electroacoustic component 4, and the sound quality of the electronic device 100 is ensured, and the rear cavity 100b is formed with high operability and low cost.

Because the cavity 100a is defined by the battery component 3, the middle frame component 2 and the battery cover 1, the volume of the rear cavity 100b of the electroacoustic component 4 is effectively increased, so that the low-frequency effect of sound emission of the electronic equipment 100 is effectively improved, the tone quality of the electronic equipment 100 is improved, and the use experience effect of a user is improved; for example, when the electroacoustic component 4 is used as a speaker device, the electroacoustic component 4 may play music, and the electroacoustic component 4 may serve as a main effect unit due to the fact that the electroacoustic component 4 has the rear cavity 100b with a large volume, so as to provide a good low-frequency effect, thereby improving the play-out effect of the electronic device 100.

As shown in fig. 2 and 3, a second sealing member 62 is disposed between the battery assembly 3 and the middle frame assembly 2, and the second sealing member 62 is used for sealing a gap between the battery assembly 3 and the middle frame assembly 2, so as to prevent the sound of the electroacoustic assembly 4 from leaking from the gap between the battery assembly 3 and the middle frame assembly 2, thereby improving the sealing performance of the rear cavity 100b, effectively preventing the acoustic short circuit of the low frequency in the electroacoustic assembly 4, and for example, preventing the acoustic short circuit of the medium frequency when the electroacoustic assembly 4 is used as a speaker device.

Wherein the second sealing member 62 is located outside the cavity 100a, the second sealing member 62 is disposed so as not to occupy the space of the cavity 100a, i.e., the second sealing member 62 is disposed so as not to reduce the space of the cavity 100a, thereby further ensuring the volume of the back cavity 100b of the electroacoustic component 4.

According to the electronic device 100 of the embodiment of the application, the battery component 3, the middle frame component 2 and the battery cover 1 jointly define the closed cavity 100a, and the cavity 100a is formed into the rear cavity 100b of the electroacoustic component 4, so that the limited space of the electronic device 100 can be effectively utilized, the design of the 'zero rear cavity' of the electroacoustic component 4 is realized, the volume of the rear cavity 100b of the electroacoustic component 4 is effectively increased, the F0 of the electroacoustic component 4 can be reduced, the low-frequency effect of the electroacoustic component 4 is improved, and the external playing effect of the electronic device 100 is improved; by disposing the second sealing member 62 outside the cavity 100a, the sealing performance of the back chamber 100b can be improved, and the volume of the back chamber 100b of the electroacoustic component 4 can be ensured.

It can be understood that, compared with the case that the whole Box is arranged to form the rear cavity, or the half Box is arranged to define the rear cavity jointly by the Box upper cover and the middle frame assembly, the electronic device 100 has reasonable layout of the components, and the rear cavity 100b is defined reasonably, so that the volume of the rear cavity 100b is effectively increased.

In order to improve the sealing effect of the cavity 100a, as shown in fig. 2 and 3, a first sealing member 61 is disposed between the battery assembly 3 and the battery cover 1, and the first sealing member 61 is used for sealing a gap between the battery assembly 3 and the battery cover 1 to prevent the sound of the electroacoustic assembly 4 from leaking from the gap between the battery assembly 3 and the battery cover 1, so as to improve the sealing performance of the rear cavity 100b, effectively prevent the low-frequency acoustic short circuit in the electroacoustic assembly 4, and for example, prevent the low-frequency acoustic short circuit when the electroacoustic assembly 4 is used as a speaker device.

For example, as shown in fig. 1 to 3, the cavity 100a is located at one side of the battery assembly 3, and the first sealing member 61 is disposed at one end of the battery assembly 3 corresponding to the cavity 100a, so as to facilitate the arrangement of the first sealing member 61 and ensure the sealing reliability of the first sealing member 61 on the premise of ensuring that the cavity 100a has a large volume; meanwhile, since the first sealing member 61 is disposed at one end of the battery assembly 3 corresponding to the cavity 100a, compared with the case where the first sealing member 61 is disposed at one end of the battery assembly 3 far from the cavity 100a, it is possible to prevent the cavity 100a from being excessively large and being prone to sound leakage to some extent.

For example, as shown in fig. 2 and 3, the first sealing member 61 is located outside the cavity 100a, and the arrangement of the first sealing member 61 does not occupy the space of the cavity 100a, i.e., the arrangement of the first sealing member 61 does not reduce the space of the cavity 100a, so as to further ensure the volume of the back cavity 100b of the electroacoustic component 4.

In the example of fig. 2 and 3, the first sealing member 61 may be a foam member such as a high compression ratio foam member, and the foam is provided between the battery assembly 3 and the battery cover 1 to achieve effective sealing by the pressing force between the battery assembly 3 and the battery cover 1; the first seal 61 may be formed in a substantially U-shaped configuration. Of course, the first sealing member 61 may be another material, but is not limited thereto.

For example, as shown in fig. 1 to 3, the cavity 100a is located at one side of the battery assembly 3, and the second sealing member 62 is disposed at one end of the battery assembly 3 corresponding to the cavity 100a, so as to facilitate the disposition of the second sealing member 62 and ensure the sealing reliability of the second sealing member 62 on the premise of ensuring that the cavity 100a has a larger volume; meanwhile, since the second sealing member 62 is disposed at one end of the battery assembly 3 corresponding to the cavity 100a, compared with the case where the second sealing member 62 is disposed at one end of the battery assembly 3 far from the cavity 100a, it is possible to prevent the cavity 100a from being excessively large and being susceptible to sound leakage, etc. to some extent.

In the example of fig. 2 and 3, the second sealing member 62 may be an adhesive tape, such as an elastic adhesive tape, to effectively seal the gap between the battery assembly 3 and the middle frame assembly 2; the second seal 62 may be formed in a generally U-shaped configuration. Of course, the second sealing member 62 may be other material pieces, and is not limited thereto.

It is understood that, in order to ensure the sealing performance of the cavity 100a, the electronic device 100 may further include a third sealing member, which may be disposed between the battery cover 1 and the middle frame assembly 2, for example, the third sealing member may be a double-sided tape; but is not limited thereto.

As shown in fig. 3, the electroacoustic component 4 is fixedly arranged on one of the middle frame component 2 and the battery cover 1, that is, the electroacoustic component 4 is fixedly arranged on the middle frame component 2, or the electroacoustic component 4 is fixedly arranged on the battery cover 1, so that the arrangement and installation of the electroacoustic component 4 are facilitated, and the installation reliability of the electroacoustic component 4 is ensured. For example, when the electroacoustic component 4 is fixedly mounted on the middle frame component 2, the electroacoustic component 4 may be fixedly connected to the middle frame 21, and the connection manner between the electroacoustic component 4 and the middle frame 21 is not particularly limited, for example, the electroacoustic component 4 and the middle frame 21 may be fixedly connected by a threaded fastener, such as a screw; for another example, when the electroacoustic component 4 is fixedly mounted on the battery cover 1, the electroacoustic component 4 may be fixedly connected to the battery cover 1 by a threaded fastener, such as a screw, but is not limited thereto.

For example, as shown in fig. 2 and 3, the electroacoustic component 4 comprises a housing 41 and a speaker 42, the housing 41 has a mounting cavity 410, a side of the mounting cavity 410 facing away from the battery cover 1 has an opening 410a, and the speaker 42 is mounted in the mounting cavity 410 through the opening 410a, so that the structure of the electroacoustic component 4 is simplified, the cost is reduced, and meanwhile, the cavity 100a is further ensured to be used as the rear cavity 100b of the electroacoustic component 4. Compared with the prior art, the whole Box is arranged to be made into a whole, the whole Box comprises the Box upper cover and the Box lower cover, the conventional Box rear cavity 100b is not arranged in the application, the limitation of the volume and the amplitude of the conventional Box rear cavity 100b can be avoided, and the low-frequency effect of the electroacoustic component 4 is effectively improved.

It is understood that when the electro-acoustic assembly 4 includes the housing 41 and the speaker 42, the speaker 42 is mounted on the housing 41, for example, the speaker 42 may be connected to the housing 41 by adhesive, and the housing 41 may be fixed to one of the middle frame assembly 2 and the battery cover 1.

As shown in FIGS. 1-3, the volume V of the cavity 100a satisfies V ≧ 2cc, for example, the volume V of the cavity 100a can be 2cc, 3cc, or 5cc, etc., and compared with the related art, the volume of the conventional Box back cavity 100b formed by arranging the whole Box or half Box is substantially 0.8cc, the volume of the back cavity 100b of the electroacoustic component 4 in the present application can reach 2cc, even can exceed 2cc, thereby effectively increasing the volume of the back cavity 100b of the electroacoustic component 4 and enhancing the low-frequency effect of the electronic device 100.

As shown in fig. 1 and 4, the electronic device 100 further includes a piezoelectric ceramic device 5, where the piezoelectric ceramic device 5 is disposed on one of the display screen 22 and the middle frame 21, and the piezoelectric ceramic device 5 can drive the one of the display screen 22 and the middle frame 21 to vibrate to generate sound. For example, when the piezoelectric ceramic device 5 is disposed on the display screen 22, the piezoelectric ceramic device 5 may be disposed on a back surface of the display screen 22, and the piezoelectric ceramic device 5 may drive the display screen 22 to vibrate and sound when operating; when the piezoelectric ceramic device 5 is disposed on the middle frame 21, the piezoelectric ceramic device 5 may be disposed on an inner sidewall of the middle frame 21, and the piezoelectric ceramic device 5 may drive the middle frame 21 to vibrate and sound when operating. Wherein, when the user uses the electronic device 100, the side of the display screen 22 facing away from the user is the back side of the display screen 22.

It should be noted that the "piezoelectric ceramic device 5" may refer to a device that vibrates and sounds by using an inverse piezoelectric effect, and the piezoelectric ceramic device 5 may have an earpiece mode and a loud-speaker mode, and in the loud-speaker mode, may improve an effect of a high frequency band in the electronic device 100, and is used in cooperation with the electroacoustic component 4, so that the loud-speaker effect of the electronic device 100 in the whole frequency band may be effectively improved, and the loudness of the electronic device 100 is effectively improved.

When piezoelectric ceramic device 5 uses as the earphone, because piezoelectric ceramic device 5 drives display screen 22 or center 21 vibration sound production, then electronic equipment 100's display screen 22 can need not the trompil, be convenient for realize real integrated full-face screen design, also need not to set up the earphone pipeline simultaneously, reliability problems such as the waterproof dustproof performance is not good enough have been avoided producing, and piezoelectric ceramic device 5's consumption is less than the consumption of two unification loudspeaker in the correlation technique, piezoelectric ceramic device 5's loudness is also big than two unification loudspeaker's loudness, thereby when promoting electronic equipment 100 external playing effect, the consumption also can obtain good control, be favorable to the good control of electronic equipment's complete machine temperature rise, guarantee that duration is good.

As shown in fig. 4, the electronic device 100 has a control unit 70 and a high voltage power amplifier circuit module 71, the high voltage power amplifier circuit module 71 is connected to the control unit 70, the control unit 70 can transmit an audio signal to the high voltage power circuit module 71, the high voltage power amplifier circuit module 71 is in communication connection with the piezoelectric ceramic device 5, and the high voltage power amplifier circuit module 71 can push the piezoelectric ceramic device 5 to operate.

For example, the piezoelectric ceramic device 5 may have a headphone mode and a playback mode, in which the piezoelectric ceramic device 5 is pushed by the high-voltage power amplifier circuit module 71, adjusts the gain of the offset according to the objective loudness standard, and optimizes the EQ (Equalizer) through subjective testing; in the play mode, the electronic device 100 may implement a sound play function, and the control unit 70 may pass the audio signal through the I₂S (Inter-IC Sound, bus) is sent to the high-voltage power amplifier circuit module 71, and the high-voltage power amplifier circuit module 71 drives the piezoelectric ceramic device5, the sound is produced, through the OCP (Over Current Protection) and OVP (Over Voltage Protection) and the temperature Protection mechanism inside the high-Voltage power amplifier circuit module 71, the Boost at the two ends of the piezoelectric ceramic device can be given, the loudness and the effect of the middle and high frequency band are compensated and promoted, and the electronic device 100 can effectively promote the play effect on the whole frequency band by matching with the electroacoustic component 4.

Wherein, the audio signal in the play-out mode can be processed by mix.

As shown in fig. 4, the electronic device 100 has a control unit 70 and an intelligent power amplifier circuit module 72, the intelligent power amplifier circuit module 72 is connected to the control unit 70, the control unit 70 can transmit an audio signal to the intelligent power amplifier circuit module 72, the intelligent power amplifier circuit module 72 is in communication connection with the electroacoustic component 4, and the intelligent power amplifier circuit module 72 can push the electroacoustic component 4 to operate.

For example, in play-out mode, control unit 70 may pass the audio signal through I₂S (bus) is sent to the intelligent power amplifier circuit module 72, the electroacoustic component 4 is pushed by the intelligent power amplifier circuit module 72, under the design of the rear cavity 100b, the amplitude can be pushed to a reference value given by a manufacturer, the low-frequency effect of the electroacoustic component 4 is fully exerted, and the stable operation of the electroacoustic component 4 is ensured through an amplitude protection mechanism and a temperature protection mechanism of the intelligent power amplifier circuit module 72.

As shown in fig. 1, the second direction (for example, the direction BB' in fig. 1) is perpendicular to the first direction, in the second direction, the piezoelectric ceramic device 5 and the electroacoustic component 4 are respectively located at two ends of the electronic apparatus 100, the battery component 3 is located between the piezoelectric ceramic device 5 and the electroacoustic component 4, for example, the piezoelectric ceramic device 5 may be located at the top end of the electronic apparatus 100, the electroacoustic component 4 may be located at the bottom end of the electronic apparatus 100, and the battery component 3 may be located at the middle position of the electronic apparatus 100, so as to ensure that the battery component 3 has a sufficient arrangement space, and facilitate the arrangement of the piezoelectric ceramic device 5 and the electroacoustic component 4. Wherein the second direction may be a length direction of the electronic device 100.

Wherein, in a third direction (for example, CC' direction in fig. 1), the piezoceramic device 5 may be located at a middle position of the electronic apparatus 100, and the electroacoustic component 4 may be disposed offset from the middle position of the electronic apparatus 100, the third direction being perpendicular to the first direction and the second direction, respectively; for example, the piezo ceramic device 5 may be located at the middle of the top of the electronic device 100, and the electro-acoustic assembly 4 may be located at the right side of the bottom of the electronic device 100, in which case the electro-acoustic assembly 4 may be located at the lower right side of the electronic device 100. But is not limited thereto.

In the description of the present application, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application.

Other configurations and operations of the electronic device 100 according to the embodiments of the present application are known to those of ordinary skill in the art and will not be described in detail herein.

According to the control method of the electronic apparatus 100 of the embodiment of the present application, the electronic apparatus 100 includes the battery cover 1, the middle frame assembly 2, the battery assembly 3, the electroacoustic assembly 4, and the piezoelectric ceramic device 5.

As shown in fig. 1 to 4, the middle frame assembly 2 is connected to the battery cover 1 in a first direction, which may be a thickness direction of the battery cover 1, the middle frame assembly 2 and the battery cover 1 may be arranged in the first direction, and the middle frame assembly 2 is connected to the battery cover 1; the middle frame assembly 2 comprises a middle frame 21 and a display screen 22 arranged on the middle frame 21, the battery assembly 3 is connected with the display screen 22, and the battery assembly 3 can supply power to the display screen 22.

The battery component 3 is arranged between the middle frame component 2 and the battery cover 1 to define a closed cavity 100a together with the middle frame component 2 and the battery cover 1; the electroacoustic component 4 is disposed in the cavity 100a, so that the cavity 100a is formed as a rear cavity 100b of the electroacoustic component 4, the cavity 100a can correct low-frequency sounds emitted by the electroacoustic component 4, and the sound quality of the electronic device 100 is ensured, and the rear cavity 100b is formed with high operability and low cost.

Because the cavity 100a is defined by the battery component 3, the middle frame component 2 and the battery cover 1, the volume of the rear cavity 100b of the electroacoustic component 4 is effectively increased, so that the low-frequency effect of sound emission of the electronic equipment 100 is effectively improved, the tone quality of the electronic equipment 100 is improved, and the use experience effect of a user is improved; for example, when the electroacoustic component 4 is used as a speaker device, the electroacoustic component 4 may play music, and the electroacoustic component 4 may serve as a main effect unit due to the fact that the electroacoustic component 4 has the rear cavity 100b with a large volume, so as to provide a good low-frequency effect, thereby improving the play-out effect of the electronic device 100.

As shown in fig. 2 and 3, a second sealing member 62 is disposed between the battery assembly 3 and the middle frame assembly 2, and the second sealing member 62 is used for sealing a gap between the battery assembly 3 and the middle frame assembly 2, so as to prevent the sound of the electroacoustic assembly 4 from leaking from the gap between the battery assembly 3 and the middle frame assembly 2, thereby improving the sealing performance of the rear cavity 100b, effectively preventing the acoustic short circuit of the low frequency in the electroacoustic assembly 4, and for example, preventing the acoustic short circuit of the medium frequency when the electroacoustic assembly 4 is used as a speaker device.

Wherein the second sealing member 62 is located outside the cavity 100a, the second sealing member 62 is disposed so as not to occupy the space of the cavity 100a, i.e., the second sealing member 62 is disposed so as not to reduce the space of the cavity 100a, thereby further ensuring the volume of the back cavity 100b of the electroacoustic component 4.

The piezoelectric ceramic device 5 is disposed on one of the display screen 22 and the middle frame 21, and the piezoelectric ceramic device 5 can drive the one of the display screen 22 and the middle frame 21 to vibrate to generate sound.

As shown in fig. 5, the control method of the electronic device 100 includes the steps of: the electronic device 100 has a first operating mode in which the piezoelectric ceramic device 5 is used as an earpiece and a second operating mode; in the second operation mode, the electroacoustic component 4 operates, and the piezoelectric ceramic device 5 drives the display screen 22 to vibrate and sound.

For example, in a first operating mode, the piezoelectric ceramic device 5 may be in an earpiece mode, where the piezoelectric ceramic device 5 is used as an earpiece, and a user may hold the electronic apparatus 100 close to the ear to receive sound; under the second mode, electroacoustic component 4 works, can be with the signal of telecommunication transformation sound signal, and with sound signal diffusion to the air in, and piezoceramics device 5 can be in the mode of putting outward, piezoceramics device 5 drives display screen 22 vibration sound production, the sound that display screen 22 sent also diffuses to the air, finally all received by user's ear, electronic equipment 100's sound function of putting outward has been realized, electroacoustic component 4 can effectively promote electronic equipment 100's low frequency effect this moment, piezoceramics device 5 can promote electronic equipment 100's well high frequency effect and loudness, make electronic equipment 100 when the sound is put outward, all can obtain better effect and great loudness under whole mode.

Therefore, according to the electronic device 100 of the embodiment of the application, by arranging the electroacoustic component 4 and the piezoelectric ceramic device 5, the electronic device 100 can realize an earphone function and also can realize a play-out function, and the electronic device 100 is ensured to have a good play-out effect in the whole frequency band.

It can be understood that the driving power of the piezoelectric ceramic device 5 in the first operating mode is different from that in the second operating mode, and the audio parameters are different, so that the piezoelectric ceramic device 5 can be used as a receiver and can realize sound emission.

In addition, the electronic device 100 may be switched between the first operating mode and the second operating mode, that is, the electronic device 100 may be switched from the first operating mode to the second operating mode, or may be switched from the second operating mode to the first operating mode. The switching of the operation mode of the electronic device 100 may be implemented by user manipulation, but is not limited thereto.

For example, in the example of fig. 4, the electronic device 100 has a control unit 70, a high-voltage power amplifier circuit module 71 and an intelligent power amplifier circuit module 72, the high-voltage power amplifier circuit module 71 and the intelligent power amplifier circuit module 72 are both connected to the control unit 70, the high-voltage power amplifier circuit module 71 is electrically connected to the piezoelectric ceramic device 5, so that the piezoelectric ceramic device 5 can be driven by the high-voltage power amplifier circuit module 71, and the intelligent power amplifier circuit module 72 is electrically connected to the electroacoustic component 4, so that the electroacoustic component 4 can be driven by the intelligent power amplifier circuit module 72. The components of the high-voltage power amplifier circuit module 71 and the intelligent power amplifier circuit module 72 are well known to those skilled in the art and are not described herein again.

When the electronic device 100 is in the first working mode, the piezoelectric ceramic device 5 is pushed by the high-voltage power amplifier circuit module 71, adjusts the coherent gain according to the objective loudness standard, and optimizes the EQ through subjective testing; when the electronic device 100 is in the second operation mode, the control unit 70 may pass the audio signal through I₂S is provided for the high-voltage power amplifier circuit module 71 and the intelligent power amplifier circuit module 72, the high-voltage power amplifier circuit module 71 drives the piezoelectric ceramic device 5 to generate sound, the loudness and the effect of the medium and high frequency bands are compensated and improved, the intelligent power amplifier circuit module 72 drives the electroacoustic component 4 to generate sound, and the impact exerts the low-frequency effect of the electroacoustic component 4, so that the external playing effect of the electronic device 100 on the whole frequency band can be effectively improved.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means 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 application. 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.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.