RU2782690C1 - Terminal apparatus - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: terminal apparatus for audio reproduction, consisting of: a body of the apparatus, wherein the body comprises an installation space and a first internal cavity, isolated from each other; a speaker, wherein the speaker is installed in the installation space, and the speaker comprises a speaker body equipped with a sound hole and a second internal cavity, as well as a vibration element, a signal amplifier, and a speaker body, located in the second inner cavity. The first inner cavity is isolated from the second inner cavity. A printed circuit board is installed in the first internal cavity; the printed circuit board is equipped with an audio signal processing module and a vibration sound wave generation apparatus; the vibration sound wave generation apparatus is connected to the audio signal processing module; the vibration sound wave generation apparatus converts the audio signal from the audio signal processing module into a vibration signal; the vibration element vibrates due to the effect of the vibration signal and generates an electrical signal; the signal amplifier is connected to the vibration element to amplify the electrical signal, and the speaker body is connected to the signal amplifier to reproduce sound based on the amplified electrical signal through the sound hole.

EFFECT: higher sound quality.

10 cl, 5 dwg

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority on the basis of Chinese Patent Application No. 201910334738.4, filed April 24, 2019, and incorporated herein by reference in its entirety.

FIELD OF TECHNOLOGY

This invention relates to the field of communications and, in particular, to a terminal device.

BACKGROUND OF THE INVENTION

With the rapid development of technology and the improvement of people's living and consumption standards, terminal devices have become an indispensable tool in people's life, work and entertainment. Meanwhile, along with the differentiation of lifestyles and entertainment, users demand greater adaptability of the terminal devices to the environment, such as waterproof, dustproof, and adaptable to high and low temperatures.

For a terminal device in the prior art, the loudspeaker is conductively connected to the pad, typically through a spring plate, to receive electrical signals for sound reproduction. The sound cavity of the speaker is usually formed by including the main board of the terminal unit, against which the foam is pressed tightly. However, the wiring design on the surface of the main board may lead to an uneven surface, resulting in gaps between the foam and the main board, which will further lead to air leakage or liquid leakage from the sound cavity. Therefore, it affects the sound quality and overall waterproof performance of the speaker, and thus limits the application environment of the terminal. Once liquid enters the terminal device, the main board is prone to burnout, and the contact position of the spring plate is prone to problems such as corrosion due to electrochemical reactions, resulting in damage to the terminal device. Therefore, users are making current demands on the watertightness of their terminals.

SUMMARY OF THE INVENTION

The present invention provides a terminal device for solving the problems associated with air leakage and the relatively poor water tightness of the speaker sound cavity in the terminal device.

To solve the above problems, the present invention uses the following technical solutions:

Represents a terminal device and includes:

a device body, in which the device body includes an installation space and a first interior cavity isolated from each other;

a speaker in which the speaker is installed in the installation space, and the speaker includes a speaker case provided with a sound hole and a second inner cavity, as well as a vibrating part, a signal amplifier and a speaker case, which are located in the second inner cavity, the first inner cavity and the second internal cavity isolated from each other; and

a printed circuit board in which the printed circuit board is installed in the first internal cavity; it is equipped with an audio signal processing module and a vibration sound wave generation device. The vibration sound wave generation device is connected to the sound signal processing module, the vibration sound wave generation device converts the sound signal from the sound signal processing module into a vibration signal. The vibrating element vibrates under the action of the vibration signal and generates an electrical signal, the signal amplifier is connected to the vibration element and amplifies the electrical signal, and the speaker cabinet is connected to the signal amplifier and produces sound based on the amplified electrical signal through the sound hole.

The following beneficial effects can be achieved using the technical solutions used in this invention:

In the terminal device of the present invention, under the control of the control part of the terminal device, the audio signal processing unit emits a sound signal, and the vibration sound wave generating device converts the sound signal into a vibration signal. A vibration signal is essentially a sound wave of vibration. During propagation, the sound wave is transmitted to the speaker cabinet through the air or components of the terminal device, and finally transmitted to the vibrating element in the speaker cabinet. The vibrating element vibrates to create an electrical signal, and the electrical signal is amplified by a signal amplifier and transmitted to the speaker cabinet. The speaker housing produces sound based on an amplified electrical signal and ultimately reproduces the sound through the speaker's sound hole. Therefore, the speaker provided in the embodiment of the present invention is a passive speaker. The second inner cavity of the speaker body can be isolated from the first inner cavity of the device body without affecting the sound production of the speaker. In this case, foreign objects such as dust or water entering the speaker may not enter the body of the terminal unit, providing optimal protection against dust and water. Due to the insulation between the second inner cavity and the first inner cavity, the speaker is spared the problem of relatively poor sound effects caused by air leakage.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings described herein are used to provide a further understanding of this invention and form part of this invention. The exemplary embodiments of the present invention and their descriptions are used to explain the present invention and do not constitute any undue limitation to the present invention.

Description of drawings:

FIG. 1 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;

FIG. 2 and FIG. 3 are a top view and a bottom view of FIG. 1, respectively;

FIG. 4 is a partial schematic structural diagram of a terminal device according to an embodiment of the present invention; and

FIG. 5 is a schematic structural diagram of a vibration part of another terminal according to an embodiment of the present invention.

Description of symbols:

100. device body

200 speaker 210 speaker shell; 211a. sound hole; 211b. sound hole; 220. vibration element; 221. first permanent magnet; 222 second permanent magnet; 223 ferromagnetic vibration diaphragm; 230. signal amplifier; 240 speaker housing; 250. controller

300. audio signal processing module

400. vibration sound wave generation device

DESCRIPTION OF EMBODIMENTS

For greater clarity of the objectives, technical solutions and advantages of the present invention, the following clearly and fully describes the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments represent some rather than all embodiments of the present invention. All other embodiments obtained by a person skilled in the art based on embodiments of the present invention without creative effort should fall within the protection scope of the present invention.

Together with the accompanying drawings, the technical solutions presented in the embodiments of the present invention are explained below in detail.

Referring to the drawings of FIG. 1 in FIG. 5, an embodiment of the present invention represents a terminal device, where the terminal device includes a device case 100, a speaker 200, a circuit board, an audio signal processing module 300, and a vibration sound wave generating device 400.

The device body 100 is the main component of the terminal device. The body of the device 100 provides a base for mounting the other components of the terminal device. Meanwhile, the body of the device 100 should be provided with some structures to facilitate the operation of some functional parts.

In embodiments of the present invention, the device body 100 includes a mounting space and a first interior cavity where the mounting space is configured to provide a mounting location for a speaker 200. The speaker 200 is mounted in the mounting space. Generally, the device body 100 may include a middle frame where an installation space is provided in the middle frame of the device body 100. first internal cavity. In this embodiment of the present invention, the installation space and the first internal cavity are isolated from each other.

The speaker 200 includes a speaker case 210, a vibration element 220, a signal amplifier 230, and a speaker case 240. The speaker case 210 includes a sound hole and a second internal cavity. The vibration element 220, the signal amplifier 230, and the speaker housing 240 are located in the second internal cavity of the speaker housing 210. The second internal cavity and the first internal cavity are isolated from each other to prevent foreign objects such as dust or water from entering the first internal cavity through the second the inner cavity of the speaker case 210. Specifically, the speaker 200 is mounted to the device case 100 by the speaker case 210. In a specific implementation, the speaker case 210 may be attached to the device case 100 by a threaded connector.

The printed circuit board is installed in the first internal cavity. The audio signal processing module 300 and the vibration sound wave generating device 400 are located on the printed circuit board. Generally, the audio signal processing unit 300 and the vibration sound wave generating device 400 are surface-mounted on the printed circuit board.

In this embodiment of the present invention, the printed circuit board may be a main terminal board or an auxiliary terminal board. Typically, the accessory board has a relatively smaller area, which makes it easier to install and disassemble for repair or replacement of electronic components installed on it. Therefore, in a further solution, the audio signal processing module 300 and the vibration sound wave generating device 400 can be configured on an accessory board of the terminal device.

The audio signal processing module 300 is configured to emit an audio signal, the vibration sound wave generating device 400 is connected to the audio signal processing module 300, and the vibration sound wave generating device 400 is configured to convert the audio signal into a vibration signal. The vibration element 220 vibrates under the action of the vibration signal and generates an electrical signal, that is, the vibration element 220 converts the vibration signal into an electrical signal. The signal amplifier 230 is connected to the vibration element 220, and the signal amplifier 230 amplifies the electrical signal so that the speaker cabinet 240 receives a clearer electrical signal.

The speaker case 240 is the main component of the speaker 200, and the speaker case 240 is capable of producing sound for the speaker 200. The speaker case 240 is connected to the signal amplifier 230 and produces sound based on the amplified electrical signal through the sound hole, realizing sound reproduction for the speaker 200. In this embodiment, implementation of the present invention, the sounding principle of the speaker cabinet 240 is a well-known state of the art, which is not repeated here.

The workflow of a terminal device according to this embodiment of the present invention is as follows:

Under the control of the control part of the terminal device, the audio signal processing module 300 emits a sound signal, and the vibration sound wave generating device 400 converts the audio signal into a vibration signal. A vibration signal is essentially a sound wave of vibration. During propagation, the sound wave is transmitted to the speaker cabinet 210 through the air or components of the terminal device, and finally transmitted to the vibration element 220 in the speaker cabinet 210. The vibration element 220 vibrates to create an electrical signal, and the electrical signal is amplified by the signal amplifier 230 and transmitted to the cabinet. speaker 240. The housing of speaker 240 emits sound based on the amplified electrical signal and ultimately produces sound through the sound hole of speaker 200.

Based on the previous workflow, the speaker provided in the embodiments of the present invention is a passive speaker. The second inner cavity of the speaker case 210 can be isolated from the first inner cavity of the device case 100 without affecting the sound production of the speaker 200. In this case, foreign objects such as dust or water that enter the speaker 200 may not enter the inside of the device case 100 terminal device providing optimum protection against dust and water. Due to the isolation between the second inner cavity and the first inner cavity, the speaker 200 does not have a problem with sound effects caused by air leakage.

Vibration element 220 may generate electrical signals after vibration. Vibration element 220 has a variety of structures to implement its functions. In a specific embodiment, vibration element 220 may be a piezoelectric diaphragm. The piezoelectric diaphragm is a layered structure of piezoelectric materials. The piezoelectric diaphragm vibrates after receiving vibration sound waves, producing electrical signals. In the case where the vibration element 220 is a piezoelectric diaphragm, the structure of the vibration element 220 is relatively simple. In particular, the piezoelectric diaphragm may be a piezoelectric ceramic sheet, that is, made of a piezoelectric ceramic material. The piezoelectric diaphragm made of the piezoceramic material has high strength and high temperature resistance, so the speaker 200 in the embodiments of the present invention can have a wider range of applications. Of course, as an alternative, the piezoelectric diaphragm may be made from piezoelectric materials such as piezoelectric crystals and polyvinylidene fluoride. Embodiments of the present invention are not limited to specific types of piezoelectric materials.

To further increase the sensitivity to vibration of the vibration element 220, provided that the vibration element 220 is a piezoelectric diaphragm, the piezoelectric diaphragm can be attached to the inner wall of the speaker cabinet 210. In this case, in the process of sound vibration sound waves propagating through the speaker shell 210, the vibration of the speaker shell 210 directly causes the piezoelectric diaphragm to vibrate together. In particular, the piezoelectric diaphragm may be attached to the inner wall of the speaker housing 210.

Of course, the vibration element 220 may have other designs. In another specific embodiment, the vibration element 220 provided in this embodiment may include a first permanent magnet 221, a second permanent magnet 222, and a ferromagnetic vibration diaphragm 223, where the ferromagnetic vibration diaphragm 223 is positioned between the first permanent magnet 221 and the second permanent magnet. 222. The ferromagnetic vibrating diaphragm 223 is electrically connected to the signal amplifier 230. In a specific process, driven by the vibrating sound wave, the ferromagnetic vibrating diaphragm 223 vibrates in the magnetic field formed by the first permanent magnet 221 and the second permanent magnet 222, essentially cutting the lines of magnetic induction, further generation of current and, ultimately, the formation of an electrical signal. In such a case, the vibration element 220 can be formed from conventional raw materials, which helps to reduce the cost of the speaker 200.

In this embodiment of the invention, signal amplifier 230 is configured to amplify the signal generated by vibration element 220. There are many types of electronic devices that can amplify an electrical signal. In this embodiment of the present invention, signal amplifier 230 may be a passive signal amplifier.

In this embodiment of the present invention, at least two speakers 200 are provided. In a particular embodiment, two speakers 200 may be provided, and two speakers 200 may be located at the top and bottom of the body of the device 100, respectively, to reproduce sound in different parts of the terminal device.

In order to facilitate use by the user, in an additional solution, the sound hole 211b of the speaker 200 located in the upper part of the body of the device 100 may be located on the top surface of the device body. The sound hole 211a of the speaker 200 located at the bottom of the body of the device 100 may be located on the bottom surface of the body of the device, thus producing sounds from two sides. It should be noted that, in general, the terminal device includes a display and a battery cover. The display and the battery cover are located opposite each other. The top and bottom surfaces of the device body 100 are two sides between the display and the battery cover of the device body 100 facing the two sides in the longitudinal direction of the terminal device.

During actual use, the speaker 200 of the terminal may require a hands-free function. Based on this, in a further solution, the speaker 200 provided in the present invention may also include a controller 250. The controller 250 is connected to the vibration sound wave generating device 400, and the controller 250 is configured to control the amplitude of the vibration signal emitted by the vibration sound wave generating device 400. By controlling the amplitude of the vibration signal emitted by the vibration sound wave generating device 400, the controller 250 can control the switching between the handset function and the speakerphone function of the speaker 200. In this case, the terminal uses only one speaker 200 without requiring an additional speaker 200, thereby reducing the entire structural space of the terminal device and reducing the power consumption of the terminal device.

The terminal device provided in this embodiment of the present invention may be a mobile phone, a tablet computer, an e-book reader, a game console, a wearable device, and so on. This embodiment of the present invention is some kind of restriction on a particular type of terminal device.

The above embodiments of the present invention focus on the differences between the embodiments. Provided that the improvement parameters of the embodiments do not conflict with each other, these parameters may be combined to form more preferred embodiments. For the sake of brevity of this description, the details are not described here.

The above descriptions are only embodiments of the present invention and do not constitute any limitation of the present invention. For specialists in this field, this invention may have various changes and variations. Any modifications, equivalent substitutions, improvements, etc. made in accordance with the principles of this invention should fall within the scope of the applications of this invention.

Claims (13)

1. Terminal device for audio playback, consisting of: a device body, in which the device body comprises an installation space and a first internal cavity isolated from each other; speaker, in which the speaker is installed in the installation space, and the speaker includes a speaker case provided with a sound hole and a second inner cavity, as well as a vibration element, a signal amplifier and a speaker case, which are located in the second inner cavity, wherein the first inner cavity and the second internal cavity isolated from each other; and of the circuit board, in which the circuit board is installed in the first internal cavity, the circuit board is provided with an audio signal processing module and a vibration sound wave generation device, the vibration sound wave generation device is connected to the audio signal processing module, the vibration sound wave generation device converts the sound signal from the processing module sound signal into a vibration signal, the vibration element vibrates under the action of the vibration signal and generates an electrical signal, the signal amplifier connects to the vibration element and amplifies the electrical signal, and the speaker cabinet connects to the signal amplifier and produces sound based on the amplified electrical signal through the sound hole. 2. The apparatus of claim 1, wherein the vibration element is a piezoelectric diaphragm. 3. The apparatus of claim 2, wherein the vibration element is a piezoelectric ceramic sheet. 4. The apparatus of claim 2, wherein the piezoelectric diaphragm is attached to the inner wall of the speaker cabinet. 5. The apparatus of claim 1, wherein the vibration element includes a first permanent magnet, a second permanent magnet, and a ferromagnetic vibrating diaphragm that is positioned between the first permanent magnet and the second permanent magnet, and the ferromagnetic vibrating diaphragm is electrically connected to the signal amplifier. 6. The apparatus of claim 1, wherein the printed circuit board is the main board or sub board of the terminal device. 7. The device of claim 1, wherein two such speakers are provided and the two speakers are located at the top and bottom of the device body, respectively. 8. The device according to claim 7, in which the speaker sound hole located in the upper part of the device case is located on the upper surface of the device case, and the speaker sound hole located in the lower part of the device case is located on the lower surface of the device case. 9. The apparatus of claim 1, wherein the signal amplifier is a passive signal amplifier. 10. The apparatus of claim 1, further comprising a controller, wherein the controller is connected to the vibration sound wave generating device, and the controller is configured to control the amplitude of the vibration signal emitted by the vibration sound wave generating device.

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