CN106453721B

CN106453721B - Mobile device

Info

Publication number: CN106453721B
Application number: CN201611070582.6A
Authority: CN
Inventors: 郝宁
Original assignee: Beijing Xiaomi Mobile Software Co Ltd
Current assignee: Beijing Xiaomi Mobile Software Co Ltd
Priority date: 2016-11-28
Filing date: 2016-11-28
Publication date: 2022-08-30
Anticipated expiration: 2036-11-28
Also published as: CN106453721A

Abstract

The disclosure relates to a mobile device, which comprises a frame body, a first panel and a second panel which are arranged on two sides of the frame body, and a piezoelectric receiver arranged on the first panel, wherein the piezoelectric receiver resonates with the frame body along a first preset direction; the frame body is provided with a first vibration damping device, and the first vibration damping device vibrates along the direction opposite to the first preset direction according to the vibration parameters of the piezoelectric receiver. When the piezoelectric receiver works, the driving signal is known, so that the vibration parameters of the piezoelectric receiver are also known, and the first vibration reduction device can vibrate along the direction opposite to the first preset direction according to the vibration parameters of the piezoelectric receiver, so that the extra vibration of the piezoelectric receiver to the frame body along the first preset direction is attenuated and counteracted, and the experience of a user for holding the equipment is improved.

Description

Mobile device

Technical Field

The present disclosure relates to a mobile device, and more particularly, to a mobile device having a shock absorbing effect.

Background

With the popularization of smart phones, the screen of the current mobile phone is larger and thinner. The conventional receiver (i.e., a receiver) is difficult to be miniaturized and thinned due to its complicated structure. And because the operating principle of traditional moving-coil receiver for the vibrating diaphragm promotes the air vibration and produces the sound, must keep the trompil that supplies the air conduction on applying structural design, destroyed the outward appearance of whole equipment to easily produce the hidden danger that dust or moisture got into equipment.

Generally, the mobile phone comprises a frame body, a front panel arranged on the front side of a middle frame and a rear panel arranged on the back side of the middle frame, a traditional receiver needs to be provided with holes on a cover plate glass of the mobile phone, and a piezoelectric receiver is fixed inside the mobile phone and generates sound through the self-vibration resonance front panel, so the front panel of the mobile phone using the piezoelectric receiver does not need to be provided with a hole design, but the resonance problem when the piezoelectric receiver is used is an urgent problem to be solved in the field.

Disclosure of Invention

The present disclosure provides a mobile device to solve the problem of the piezoelectric receiver of the mobile device of the prior art resonating the frame and the second panel of the mobile device when vibrating.

A mobile device comprises a frame body, a first panel and a second panel which are arranged on two sides of the frame body, and a piezoelectric receiver which is arranged on the first panel, wherein the piezoelectric receiver resonates with the frame body along a first preset direction; the frame body is provided with a first vibration damping device, and the first vibration damping device vibrates in the direction opposite to the first preset direction according to the vibration parameters of the piezoelectric receiver so as to counteract the resonance effect of the piezoelectric receiver on the frame body in the first preset direction.

Optionally, the number of the first vibration damping devices is multiple, and the multiple first vibration damping devices are symmetrically arranged on the two first side walls of the frame body along the first preset direction.

Optionally, the first vibration damping device is a motor vibrator or a piezo-ceramic vibrator.

Optionally, the piezoelectric receiver resonates the frame body along a second preset direction; the frame body is also provided with a second vibration damping device, and the second vibration damping device vibrates along the direction opposite to the second preset direction according to the vibration parameters of the piezoelectric receiver; the second preset direction is perpendicular to the first preset direction.

Optionally, the number of the second vibration damping devices is multiple, and the multiple second vibration damping devices are symmetrically arranged on two second side walls of the frame body along a second preset direction.

Optionally, the second vibration damping device is a motor vibrator or a piezo-ceramic vibrator.

Optionally, the piezoelectric receiver resonates with the second panel along a third preset direction; a third vibration damping device is arranged on the second panel and vibrates in a direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver; the third preset direction is perpendicular to the first preset direction and the second preset direction.

Optionally, the piezoelectric receiver resonates the second panel along a third preset direction; a third vibration damping device is arranged on the second panel and vibrates in a direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver; the third preset direction is perpendicular to the first preset direction and the second preset direction.

Optionally, the number of the third vibration damping devices is multiple, and the multiple third vibration damping devices are symmetrically arranged on the second panel.

Optionally, the third vibration damping device is a motor vibrator or a piezo-ceramic vibrator.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

in the above embodiment, the first vibration damping device vibrates in the direction opposite to the first preset direction according to the vibration parameter of the piezoelectric receiver, so as to counteract the resonance effect of the piezoelectric receiver on the frame body in the first preset direction. And vibrating in the direction opposite to the second preset direction according to the vibration parameters of the piezoelectric receiver through the second vibration reduction device so as to counteract the resonance effect of the piezoelectric receiver on the frame body in the second preset direction. And vibrating in the direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver through the third vibration reduction device so as to counteract the resonance effect of the piezoelectric receiver on the second panel in the third preset direction.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure.

Fig. 1 is an exploded view of a mobile device shown in accordance with an exemplary embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

A mobile device may generally include a frame, a first panel and a second panel disposed on both sides of the frame, and a piezoelectric receiver disposed on the first panel. In general, the first panel is disposed on the front surface of the frame, the second panel is typically disposed on the back surface of the frame, and the piezoelectric receiver is fixed on the first panel of the mobile device according to a method of using the piezoelectric receiver to attach to an ear of a user, which is beneficial for the piezoelectric receiver to vibrate and resonate the first panel to generate sound to an ear of a person. However, since the piezoelectric receiver resonates in all directions when vibrating, the first panel resonates, and the frame and the second panel resonate, and the vibration of the frame and the second panel may cause vibration when a user holds the receiver when receiving a call, which may reduce user experience, and may cause sound leakage to be emitted from the second panel.

Accordingly, the present disclosure provides a mobile device to solve the problem of the piezoelectric receiver of the mobile device of the related art resonating the case and the second panel of the mobile device when vibrating. The mobile device of the present disclosure is described in detail below with reference to the accompanying drawings. The features of the following examples and embodiments may be combined with each other without conflict.

Fig. 1 is a schematic diagram illustrating a mobile device according to an exemplary embodiment. As shown in fig. 1, the mobile device of the present disclosure may include a frame 10, a first panel 20 and a second panel 30 disposed on both sides of the frame 10, and a piezoelectric receiver 40 disposed on the first panel 20, wherein the piezoelectric receiver 40 resonates with the frame 10 along a first preset direction (shown as an X direction). The frame 10 is provided with a first vibration damping device 510, and the first vibration damping device 510 vibrates in a direction opposite to the first preset direction according to the vibration parameter of the piezoelectric receiver 40, so as to counteract a resonance effect of the piezoelectric receiver 40 on the frame 10 in the first preset direction.

Optionally, the number of the first vibration dampers 510 is multiple, and the multiple first vibration dampers 510 are symmetrically disposed on the two first side walls 110 of the frame 10 along the first preset direction, so that the vibration of the frame 10 by the first vibration dampers 510 is more uniform, and the vibration damping effect is better. In the example shown in fig. 1, the number of the first vibration dampers 510 is two, and the first vibration dampers are symmetrically disposed on the two first side walls 110 of the frame 10 along the first predetermined direction.

Alternatively, the first vibration damping device 510 is a motor vibrator or a piezo-ceramic vibrator. Both motor vibrators and piezo-ceramic vibrators are active vibration damping devices, which may also be referred to as noise reducing vibration devices. The motor vibrator has the advantages of low cost but poor effect due to large occupied structure, and the pressure-sensitive ceramic vibrator has the advantages of customizable and light structure but higher cost. The user may select the type of the first vibration damping means 510 according to the actual needs.

In an embodiment of the present disclosure, the piezoelectric receiver 40 resonates with the frame 10 along a second preset direction (shown as a Y direction in the figure), and a second vibration damping device 520 is further disposed on the frame 10, where the second vibration damping device 520 vibrates along a direction opposite to the second preset direction according to the vibration parameter of the piezoelectric receiver 40, so as to counteract a resonant effect of the piezoelectric receiver 40 on the frame 10 along the second preset direction. The second preset direction is perpendicular to the first preset direction.

Optionally, the number of the second vibration dampers 520 is multiple, and the multiple second vibration dampers 520 are symmetrically disposed on the two second sidewalls 120 of the frame 10 along the second preset direction, so that the vibration is more uniform, and the reverse vibration effect is better. In the example shown in fig. 1, the number of the second vibration dampers 520 is two, and the second vibration dampers are symmetrically disposed on the two second side walls 120 of the frame 10 along the second predetermined direction.

Alternatively, the second vibration damping device 520 is a motor vibrator or a piezo-ceramic vibrator. Both motor vibrators and piezo-ceramic vibrators are active vibration damping devices, which may also be referred to as noise-reducing vibration devices. The motor vibrator has the advantages of low cost but poor effect due to large occupied structure, and the pressure-sensitive ceramic vibrator has the advantages of customizable and light structure but higher cost. The user can select the type of the second vibration damping device 520 according to actual needs.

In an embodiment of the present disclosure, the piezoelectric receiver 40 resonates with the second panel 30 along a third preset direction (shown as a Z direction), a third vibration reduction device 530 is disposed on the second panel 30, and the third vibration reduction device 530 vibrates in a direction opposite to the third preset direction according to the vibration parameter of the piezoelectric receiver 40, so as to counteract the resonant action of the piezoelectric receiver 40 on the second panel 30 along the third preset direction. The third preset direction is perpendicular to the first preset direction and the second preset direction.

Optionally, the number of the third vibration dampers 530 is plural, and the plural third vibration dampers 530 are symmetrically disposed on the second panel 30, so that the vibration is more uniform, and the reverse vibration effect is better. In the example shown in fig. 1, the number of the third vibration dampers 530 is two, and the third vibration dampers 530 are symmetrically disposed on the second panel 30, and the third vibration dampers 530 are arranged in the same direction as the piezoelectric microphones 40.

Alternatively, the third vibration damping device 530 is a motor vibrator or a piezo-ceramic vibrator. Both motor vibrators and piezo-ceramic vibrators are active vibration damping devices, which may also be referred to as noise-reducing vibration devices. The motor vibrator has the advantages of low cost but poor effect due to large occupied structure, and the pressure-sensitive ceramic vibrator has the advantages of customizable and light structure but higher cost. The user can select the type of the third vibration damping means 530 according to actual needs.

Therefore, the first vibration damping device 510 and the second vibration damping device 520 provided in the casing 10 of the mobile device of the present disclosure are mainly used to damp the resonance action of the piezoelectric microphone 40 on the casing 10 in the XY horizontal direction. The third vibration damping device 530 disposed on the second panel 30 of the mobile device is mainly used to damp the resonance action of the piezoelectric microphone 40 on the second panel 30 in the Z direction. Since the driving signal is known when the piezoelectric receiver 40 works, and the direction and amplitude of the vibration of the piezoelectric receiver are also known, the first vibration reduction device 510, the second vibration reduction device 520, and the third vibration reduction device 530 can perform opposite vibration in the XYZ direction relative to the resonant motion of the piezoelectric receiver 40 according to the vibration parameters of the piezoelectric receiver 40, so as to achieve the purpose of attenuating and canceling the additional vibration of the mobile device caused by the piezoelectric receiver 40. In addition, although the first vibration damping device 510, the second vibration damping device 520, and the third vibration damping device 530 do not affect the sound emission of the piezoelectric receiver 40 to the vibration of the first panel 20, unnecessary extra resonance of the housing 10 and the second panel 30 can be suppressed and attenuated, and finally, the user experience can be improved. In addition, when the extra vibration is reduced, the Signal-to-Noise Ratio (SNR) of the piezoelectric microphone 40 is improved, the Noise of the extra vibration is reduced, and the experience of the user holding the device is improved.

In practical applications, the method for using the mobile device of the present disclosure may include the following steps:

in step S101, a first vibration damping device 510 is disposed on the frame 10, and the first vibration damping device 510 vibrates in a direction opposite to the first preset direction according to the vibration parameter of the piezoelectric receiver 40, so as to counteract the resonance effect of the piezoelectric receiver 40 on the frame 10 in the first preset direction.

In step S102, a second vibration damping device 520 is disposed on the frame 10, and the second vibration damping device 520 vibrates in a direction opposite to the second preset direction according to the vibration parameter of the piezoelectric receiver 40 to counteract the resonance effect of the piezoelectric receiver 40 on the frame 10 in the second preset direction.

In step S103, a third vibration damping device 530 is disposed on the second panel 30, and the third vibration damping device 530 vibrates in a direction opposite to the third preset direction according to the vibration parameter of the piezoelectric receiver 40, so as to counteract the resonance effect of the piezoelectric receiver 40 on the second panel 30 in the third preset direction.

In one example, when a user uses the mobile device, the first panel is attached to the ear, and the piezoelectric receiver vibrates to resonate the first panel and to generate sound to the ear, and simultaneously resonates the housing and the second panel. At the moment, the first vibration reduction device arranged on the frame body vibrates in the direction opposite to the first preset direction according to the vibration parameters of the piezoelectric receiver, so that the resonance effect of the piezoelectric receiver on the frame body in the first preset direction is counteracted. And vibrating in the direction opposite to the second preset direction according to the vibration parameters of the piezoelectric receiver through a second vibration damping device arranged on the frame body so as to counteract the resonance effect of the piezoelectric receiver on the frame body in the second preset direction. The third vibration reduction device arranged on the second panel vibrates in the direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver so as to counteract the resonance effect of the piezoelectric receiver on the second panel in the third preset direction, so that the purpose of attenuating and counteracting the additional vibration caused by the piezoelectric receiver on the mobile equipment is achieved, and the experience of a user for holding the equipment is improved.

It can be known from the foregoing embodiments that, in the mobile device provided in the embodiments of the present disclosure, the first vibration reduction device vibrates in a direction opposite to the first preset direction according to the vibration parameter of the piezoelectric receiver, so as to cancel a resonance effect of the piezoelectric receiver on the frame body in the first preset direction. And vibrating in the direction opposite to the second preset direction according to the vibration parameters of the piezoelectric receiver through the second vibration reduction device so as to counteract the resonance effect of the piezoelectric receiver on the frame body in the second preset direction. And the third vibration reduction device vibrates in the direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver so as to counteract the resonance effect of the piezoelectric receiver on the second panel in the third preset direction.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims

1. A mobile device is characterized by comprising a frame body, a first panel and a second panel which are arranged on two sides of the frame body, and a piezoelectric receiver arranged on the first panel, wherein the piezoelectric receiver resonates with the frame body along a first preset direction; the frame body is provided with a first vibration damping device, the first vibration damping device is an active vibration damping device, and the first vibration damping device vibrates along the direction opposite to the first preset direction according to the vibration parameters of the piezoelectric receiver so as to counteract the resonance effect of the piezoelectric receiver on the frame body along the first preset direction.

2. The mobile device according to claim 1, wherein the number of the first vibration damping devices is plural, and the plural first vibration damping devices are symmetrically disposed on two first side walls of the frame body along a first predetermined direction.

3. The mobile device of claim 1, wherein the first vibration reduction device is a motor vibrator or a piezo-ceramic vibrator.

4. The mobile device of claim 1 or 2, wherein the piezoelectric microphone resonates the frame in a second predetermined direction; the frame body is also provided with a second vibration damping device which is active vibration damping equipment, and the second vibration damping device vibrates in the direction opposite to the second preset direction according to the vibration parameters of the piezoelectric receiver; the second preset direction is perpendicular to the first preset direction.

5. The mobile device according to claim 4, wherein the number of the second vibration dampers is plural, and the plural second vibration dampers are symmetrically disposed on two second side walls of the frame body along the second predetermined direction.

6. Mobile device according to claim 4, characterized in that the second vibration-damping means is a motor vibrator or a piezo-ceramic vibrator.

7. The mobile device of claim 1, wherein the piezoelectric microphone resonates the second panel along a third predetermined direction; a third vibration damping device is arranged on the second panel, the third vibration damping device is an active vibration damping device, and the third vibration damping device vibrates in a direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver; the third preset direction is perpendicular to the first preset direction and the second preset direction.

8. The mobile device of claim 4, wherein the piezoelectric microphone resonates the second panel along a third predetermined direction; a third vibration damping device is arranged on the second panel and vibrates in a direction opposite to the third preset direction according to the vibration parameters of the piezoelectric receiver; the third preset direction is perpendicular to the first preset direction and the second preset direction.

9. The mobile device according to claim 7 or 8, wherein the number of the third vibration damping devices is plural, and the plural third vibration damping devices are symmetrically arranged on the second panel.

10. Mobile device as claimed in claim 7 or 8, characterized in that the third vibration-damping means is a motor vibrator or a piezo-ceramic vibrator.