The utility model relates to the audio playing equipment field, in particular to an ear cup cavity and corresponding earphone.
As an audio output device, the earphone is widely used, such as walkman, CD player, MP3 player etc. The user can enjoy the fun of the music alone and does not affect the others during using the earphone.
The ear cup cavity (i.e. audio cavity) of the earphone plays an important role in the sound performance of the earphone. The existing earphone generally uses the design of double audio cavities as shown in
However, during the implementation process of the utility model, the inventor founds that in actual use of the existing earphone with the design of double audio cavities, more air is gathered in the front cavity of the earphone due to outwards continuously played sound from the speaker, when the air gathered in the front cavity of the earphone is superfluous, the sound quality of the sound played from the earphone is directly affected, mainly resulting in vague and unclear sound.
The technical issue to be solved by the embodiments of the utility model is providing an ear cup cavity and the corresponding earphone, which can timely release superfluous air gathered in the front cavity of the earphone, control the air release process well and avoid the generation of new noise so as to ensure clear sound played from the earphone and improve the user experience.
To solve the technical issue, the utility model provides an ear cup cavity, comprising a speaker face shell 1, a speaker cavity 2, a speaker 3 and a rear shell 4;
The speaker cavity 2 is an annular labyrinth type structure which is fixed on the speaker face shell 1;
The speaker face shell 1 is provided with the first air port 11 through which air passes and enters into the speaker cavity 2; the second air port 21 through which air enters into the speaker cavity 2 is arranged on the position of the speaker cavity 2 corresponding to the first air port 11;
The rear shell 4 is a bowl-shaped structure for accommodating the speaker cavity 2 and the speaker 3.
Wherein, the rear shell 4 is provided with the third air port 41 through which air passes and is discharged from the ear cup cavity.
Wherein, the speaker 3 is arranged in a barrel-shaped space surrounded by the speaker face shell 1 and the speaker cavity 2.
Wherein, the centre of the speaker face shell 1 is provided with the first through hole 12 through which the sound from the speaker 3 is transferred outwards, the first through hole 12 is consistent with the sounding face of the speaker 3 in shape.
Wherein, the speaker cavity 2 comprises a substrate 22 and a cavity 23;
the centre of the substrate 22 is uniformly provided with the second through hole 23 through which the sound from the speaker 3 is transferred outwards, the area of the second through hole 23 on the substrate 22 corresponds to the area of the first through hole 12;
the outer edge of the substrate 22 is provided with an annular labyrinth type cavity 23; a barrel-shaped space for accommodating the speaker 3 is surrounded by the area of the second through hole 23 at the centre of the substrate 22 and the side wall of the labyrinth type cavity 23.
Wherein, the centre of the speaker face shell 1 is uniformly provided with the first through hole 12 through which the sound from the speaker 3 is transferred outwards, the area of the first through hole 1 on the speaker face shell 1 is consistent with the sounding face of the speaker 3 in shape.
Wherein, the area surrounded by the speaker cavity 2 is consistent with the area of the first through hole 12 on the speaker face shell 1, and a barrel-shaped space for accommodating the speaker 3 is surrounded by the side wall of the speaker cavity 2 and the area of the first through hole 12 on the speaker face shell 1.
Correspondingly, the embodiments of the utility model further provides an earphone, the earphone includes the ear cup cavity as claimed above.
Wherein, the air which enters into the first air port 11 and the second air port 21 is the air gathered in the front cavity of the earphone.
The ear cup cavity and corresponding earphone provided in the embodiments of the utility model can timely release superfluous air gathered in the front cavity of the earphone, control the air release process well and avoid the generation of new noise so as to ensure clear sound played from the earphone and improve the user experience.
To describe the technical solution in the embodiments of the utility model or in the prior art, the necessary drawings in the embodiments or the prior art are briefly introduced, obviously, the drawings described below are only some embodiments of the utility model, the skilled in the art can obtain the other drawings based on the drawing without paying the creative work.
The ear cup cavity and corresponding earphone provided in the embodiments of the utility model can timely release superfluous air gathered in the front cavity of the earphone, control the air release process well and avoid the generation of new noise so as to ensure clear sound played from the earphone and improve the user experience.
In combination with the drawings in the embodiments of the utility model, the technical solution in the embodiments of the utility model can be described clearly and completely as follows, obviously, the described embodiments are only one part of embodiments of the utility model but not all of the embodiments. All other embodiments obtained by the skilled of the art based on the embodiments of the utility model without paying the creative work are to be embraced within the scope of protection of the utility model.
The speaker cavity 2 is an annular labyrinth type structure which is fixed on the speaker face shell 1.
The speaker face shell 1 is provided with the first air port 11 through which air passes and enters into the speaker cavity 2; the second air port 21 through which air enters into the speaker cavity 2 is arranged on the position of the speaker cavity 2 corresponding to the first air port 11.
The rear shell 4 is a bowl-shaped structure for accommodating the speaker cavity 2 and the speaker 3.
The working principle is: when superfluous air is gathered in the front cavity of the earphone, the superfluous air enters into the speaker cavity 2 through the first air port 11 and the second air port 21 under pressure and is finally discharged from the inside of the earphone so as to release the superfluous air gathered in the front cavity and prevent the air from affecting the sound quality of the earphone. In the utility model, the speaker cavity is designed as a labyrinth type, which simplifies the control of the air discharge process, avoids the generation of the noise and affects the playing effect of the earphone.
More specifically, the speaker face shell 1 is provided with the first air port 11 through which air passes and enters into the speaker cavity 2. Correspondingly, the second air port 21 through which air passing through the first air port 11 enters into the speaker cavity 2 is arranged on the position of the speaker cavity 2 corresponding to the first air port 11. And the rear shell 4 is provided with the third air port 41 through which the air passing through the speaker cavity 2 is discharged from ear cup cavity.
The working principle is: when the speaker 3 is in a working state, the air will be gathered in the front cavity of the earphone continuously; the air will affect the sound quality of the earphone and makes the sound from the earphone vague and unclear after being gathered enough. After the earphone uses the ear cup cavity provided in the utility model, when there is superfluous air gathered in the front cavity of the earphone, the superfluous air enters into the speaker cavity 2 through the first air port 11 and the second air port 21 under pressure and is finally discharged through the third air port 41 on the rear shell so as to release the superfluous gathered in the front cavity of the earphone and further reduce useless noise and avoid the influence thereof on the sound quality of the earphone.
In addition, the key point of the utility model is designing the annular labyrinth type structure of the speaker cavity 2, and the speaker cavity 2 can be variously structured, the utility model uses two of them as example.
The first structure is shown in
The centre of the speaker face shell 1 is provided with the first through hole 12 through which the sound from the speaker 3 is transferred outwards, the first through hole 12 is consistent with the sounding face of the speaker 3 in shape. The first air port 11 is arranged on the position of the speaker face shell 1 corresponding to the labyrinth type audio cavity, and the size of the first air port 11 can adjust the air flow entering into the speaker cavity 2 so as to achieve a certain degree of sound quality requirement.
The speaker cavity 2 comprises a substrate 22 and a cavity 23.
The centre of the substrate 22 is uniformly provided with the second through holes 221 through which the sound from the speaker 3 is transferred outwards, the area of the second through holes 221 on the substrate 22 corresponds to the area of the first through hole 12 on the speaker face shell 1; the outer edge of the substrate 22 is provided with an annular labyrinth type cavity 23; a barrel-shaped space for accommodating the speaker 3 is surrounded by the area of the second through hole 221 at the centre of the substrate 22 and the side wall of the labyrinth type cavity 23.
The second one is: the centre of the speaker face shell is uniformly provided with multiple first through holes through which the sound from the speaker is transferred outwards, the area of the first through hole on the speaker face shell is consistent with the sounding face of the speaker in shape, the first air port 11 is arranged on the position of the speaker face shell corresponding to the labyrinth type audio cavity, the size of the first air port can adjust the air flow entering into the speaker cavity so as to achieve a certain sound quality requirement.
The area surrounded by the speaker cavity is consistent with the area of the first through hole on the speaker face shell, and a barrel-shaped space for accommodating the speaker is surrounded by the side wall of the speaker cavity and the area of the first through hole on the speaker face shell.
The ear cup cavity provided in the utility model can provide different sound effects transferred to the ears through the front cavity of the earphone. The different specific sound effect is mainly produced by controlling different air flow to enter into the labyrinth type speaker cavity 2 through the first air port 11 of the speaker face shell 1 and to release through the third air port 41 on the rear shell 4.
Different size of the speaker cavity or labyrinth may influence the air flow entering into the speaker cavity through the speaker face shell and finally released through the third air port 41 on the rear shell. Once the size of the speaker cavity or labyrinth was determined, when the earphone working, air flow enters into the labyrinth type speaker cavity through the first air port on the speaker face shell so as to increase the air flow pressure in the speaker cavity, the increased air flow pressure is mainly produced by the external air flowing in the labyrinth type speaker cavity, then the higher air flow is formed in the speaker cavity and released through the third air port 41 on the rear shell. The continuous process may gradually reduce the air flow volume in the front cavity of the earphone. Moreover, when the labyrinth type speaker cavity is longer, the impact is produced in the labyrinth type cavity to assist the air discharge, in contrast, if the cavity will impede the flow of the air in the cavity when being designed to be small.
In conclusion, the ear cup cavity provided in the utility model designs the speaker cavity to be a labyrinth type so as to timely release superfluous air gathered in the front cavity of the earphone, control the air release process well and avoid the generation of new noise so as to ensure clear sound played from the earphone and improve the user experience.
To be sure, the ear cup cavity provided in all embodiments of the utility model can be applied to various types of earphones.
Notably, the utility model described one product form of the ear cup cavity and corresponding earphone, the other products satisfying the structure of the utility model, even if the elements without influencing the product characteristics, such as material, name of component, appearance and component arrangement order are different, are still to be embraced within the scope of protection of the utility model.
The content mentioned above is the further detailed description of the utility model in combination with the specific preferred embodiments and it should not be considered that the specific embodiments of the utility model are to be limited in these descriptions. To the skilled in the art of the utility model, making multiple simple deductions or replacements without departing from the conception of the utility model should be regarded as being embraced within the scope of protection of the utility model.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2012/078755 | 7/17/2012 | WO | 00 | 5/26/2015 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/012217 | 1/23/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
8447058 | Sung | May 2013 | B1 |
8588453 | Lee | Nov 2013 | B1 |
9247337 | Foudhaili | Jan 2016 | B2 |
20070092098 | Kaderavek | Apr 2007 | A1 |
20080101640 | Ballad | May 2008 | A1 |
20090161885 | Donaldson et al. | Jun 2009 | A1 |
20130308786 | Sibbald | Nov 2013 | A1 |
Number | Date | Country |
---|---|---|
201426163 | Mar 2010 | CN |
201904901 | Jul 2011 | CN |
202103822 | Jan 2012 | CN |
202282851 | Jun 2012 | CN |
202841481 | Mar 2013 | CN |
Number | Date | Country | |
---|---|---|---|
20150296284 A1 | Oct 2015 | US |