Patent Application
20250203274
The present disclosure relates to electroacoustic transducers, in particular to a speaker module.
With the development of science and technology, portable electronic products, such as mobile phones, handheld game consoles, navigation devices and handheld multimedia entertainment devices, are widely used in people's daily life. Since emitting sounds is an essential function of these portable electronic products and the quality of sounds directly affects user's experiences when using these portable electronic products, the requirements for speaker modules used therein are getting higher and higher.
Volumes of front and back cavities of a speaker module in the related art are often compressed to meet the miniaturization requirement. In this way, for the speaker module, it is not only easy to make a diaphragm for emitting sounds bulging or dented, but also cause a low high-frequency sensitivity, which seriously affect the acoustic performances.
Thus, it is necessary to provide a novel speaker module to solve the problems.
An objective of the present disclosure is to overcome the above technical problems and provide a speaker module which can improve the acoustic performances.
In order to achieve the objective mentioned above, the present disclosure discloses a speaker module including a shell having a containing space, a speaker unit contained in the containing space and a ring body. The shell includes an upper shell and a lower shell engaged with the upper shell for forming the containing space. The speaker unit includes a frame, a magnetic circuit system and a vibration system that are fixed to the frame, a through hole and a waterproof and air-permeable membrane. The magnetic circuit system includes a yoke, a main magnetic unit disposed on the yoke, and a secondary magnetic unit disposed on the yoke and surrounding the main magnetic unit for forming a magnetic gap. The vibration system includes a diaphragm in a ring shape and a voice coil located in the magnetic gap for driving the diaphragm for vibrating and emitting sounds. The through hole penetrates through the yoke and the main magnetic unit. The membrane is attached on the yoke and covers a side of the through hole close to the upper shell. The ring body is sandwiched between the main magnetic unit and the lower shell. An outer edge of the diaphragm is fixed to the frame, and an inner edge of the diaphragm is fixed to the main magnetic unit and surrounds the ring body. The membrane, the main magnetic unit, the ring body and the lower shell together form a resonance cavity. The diaphragm, the lower shell and the ring body together form a front cavity. The ring body is provided with an access communicating the resonance cavity and the front cavity.
As an improvement, the main magnetic unit includes an upper main magnet and a lower main magnet opposite to each other and a main magnetically conductive plate sandwiched between the upper main magnet and the lower main magnet. The through hole penetrates through the yoke, the upper main magnet, the lower main magnet and the main magnetically conductive plate. The ring body and the inner edge of the diaphragm are fixed to the lower main magnet.
As an improvement, the lower shell is provided with an acoustic channel disposed at a side of the speaker module. The acoustic channel communicates the front cavity.
As an improvement, the access locates at a side of the ring body close to the acoustic channel.
As an improvement, the ring body includes a first end fixed to the lower main magnet and a second end fixed to the lower shell. The access is formed by recessing from the second end toward the first end.
As an improvement, an inner wall of the acoustic channel is provided with a convex region and a concave region adjacent to each other. The convex region is closer to the front cavity than the concave region.
As an improvement, the upper shell, the speaker unit and the lower shell together form a back cavity. The back cavity is air-coupled with the resonance cavity through the membrane.
As an improvement, the yoke includes an upper surface close to the upper shell and is provided with a receiving groove recessed from the upper surface. The membrane is received in the receiving groove and is flush with the upper surface.
As an improvement, the secondary magnetic unit includes a secondary magnet and a secondary magnetically conductive plate attached on the secondary magnet. The frame is fixed to the secondary magnetically conductive plate.
In the speaker module according to the present disclosure, the resonance cavity can enhance the high-frequency sensitivity, thereby improving the acoustic performances. In addition, there is no need for the speaker module to set a leakage hole in the shell for the back cavity, thus, the speaker module can also save the space and simplify the production process.
In order to more clearly illustrate the technical solutions in embodiments of the present disclosure, the accompanying drawings used in the description of the embodiments will be briefly introduced below. It is apparent that, the accompanying drawings in the following description are only some embodiments of the present disclosure, and other drawings can be obtained by those of ordinary skill in the art based on the accompanying drawings without creative efforts, wherein:
The technical solutions in embodiments of the present disclosure will be described clearly and completely below with reference to the accompanying drawings in the embodiments of the present disclosure. It is apparent that, the described embodiments are merely some of rather than all of the embodiments of the present disclosure. All other embodiments acquired by those of ordinary skill in the art without creative efforts based on the embodiments of the present disclosure shall fall within the protection scope of the present disclosure.
Referring to
The shell 1 includes a lower shell 11 and an upper shell 12 engaged with the lower shell 11 for forming the containing space 10. The lower shell 11 is provided with an acoustic channel 111 disposed at a side of the speaker module 100. An inner wall of the acoustic channel 111 is provided with a convex region 111a and a concave region 111b adjacent to each other. The convex region 111a and the concave region 111b not only can enlarge the sound outputting area and improve the smoothness of outputting sounds, but also can prevent some dust and foreign matters from entering the speaker module 100.
The speaker unit 2 includes a frame 21, and a vibration system 22 and a magnetic circuit system 23 that are fixed to the frame 21.
The magnetic circuit system 23 includes a yoke 231, a main magnetic unit 232 disposed on the yoke 231, and a secondary magnetic unit 233 disposed on the yoke 231 and surrounding the main magnetic unit 232 for forming a magnetic gap 23a. The yoke 231 is used for magnetically shielding, and also for converging magnetic fields of the main magnetic unit 232 and the secondary magnetic unit 233 and holding the main magnetic unit 232 and the secondary magnetic unit 233. The speaker module 100 further includes a ring body 3 sandwiched between the main magnetic unit 232 and the lower shell 11. The main magnetic unit 232 includes an upper main magnet 232a and a lower main magnet 232b opposite to each other and a main magnetically conductive plate 232c sandwiched between the upper main magnet 232a and the lower main magnet 232b. The secondary magnetic unit 233 includes a secondary magnet 233a and a secondary magnetically conductive plate 233b attached on the secondary magnet 233a. The frame 21 is fixed to the secondary magnetically conductive plate 233b.
The vibration system 22 includes a diaphragm 221 and a voice coil 222 located in the magnetic gap 23a for driving the diaphragm 221 for vibrating and emitting sounds. When the voice coil 222 is energized, the voice coil 222 electromagnetically interacts with the magnetic circuit system 23 for driving the diaphragm 221 for vibrating and emitting sounds. The diaphragm 221 is in a ring shape, an outer edge of the diaphragm 221 is fixed to the frame 21, and an inner edge of the diaphragm 221 is fixed to the main magnetic unit 232 and surrounds the ring body 3.
The speaker unit 2 further includes a through hole 24 penetrating through the yoke 231 and the main magnetic unit 232. In this embodiment, the through hole 24 penetrates through the yoke 231, the upper main magnet 232a, the lower main magnet 232b and the main magnetically conductive plate 232. The ring body 3 and the inner edge of the diaphragm 221 are fixed to the lower main magnet 232b.
The speaker unit 2 further includes a waterproof and air-permeable membrane 25 attached on the yoke 231 and covering a side of the through hole 24 close to the upper shell 12. The yoke 231 includes an upper surface 231a close to the upper shell 12 and is provided with a receiving groove 231b recessed from the upper surface 231a. The membrane 25 is received in the receiving groove 231b and is flush with the upper surface 231a of the yoke 231.
The membrane 25, the main magnetic unit 232, the ring body 3 and the lower shell 11 together form a resonance cavity 101. The diaphragm 221, the lower shell 11 and the ring body 3 together form a front cavity 102. The acoustic channel 111 communicates the front cavity 102. The front cavity 102 communicates with the outside through the acoustic channel 111. The convex region 111a is closer to the front cavity 102 than the concave region 111b.
The ring body 3 is provided with an access 31 communicating the resonance cavity 101 and the front cavity 102. The ring body 3 includes a first end 32 fixed to the lower main magnet 232b and a second end 33 fixed to the lower shell 11. The access 31 locates at a side of the ring body 3 close to the acoustic channel 111 and is formed by recessing from the second end 33 toward the first end 32. When the vibration system 22 vibrates and emits sounds, the high-frequency sounds enter into the resonance cavity 101 through access 31 and resonate, thereby enhancing the high-frequency sensitivity.
The upper shell 12, the speaker unit 2 and the lower shell 11 together form a back cavity 103. Since the resonance cavity 101 communicates with the outside through the access 31, the front cavity 102 and the acoustic channel 111, further the back cavity 103 is air-coupled with the resonance cavity 101 through the membrane 25, on one hand, the air pressure of the back cavity 103 is consistent with the outside air pressure, thereby eliminating air pressure imbalance which makes the diaphragm 221 bulging or dented and affects the acoustic performances, on the other hand, there is no need for the speaker module 100 to set a leakage hole in the shell 1 for the back cavity 103, thus, the speaker module 100 can also save the space and simplify the production process.
In the speaker module 100 according to the present disclosure, the resonance cavity 101 can enhance the high-frequency sensitivity, thereby improving the acoustic performances. In addition, there is no need for the speaker module 100 to set a leakage hole in the shell 1 for the back cavity 103, thus, the speaker module 100 can also save the space and simplify the production process.
The above are only embodiments of the present disclosure. It should be pointed out that those of ordinary skill in the art may also make improvements without departing from the ideas of the present disclosure, all of which fall within the protection scope of the present disclosure.
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/CN2023/139577 | Dec 2023 | WO |
| Child | 18629977 | US |
