TWI321960B - Speaker set and portable electronic device incorporating the same - Google Patents

Description

1321960 IX. Description of the Invention: [Technical Field] The present invention relates to a mobile electronic device, and more particularly to a speaker structure of a mobile electronic device. [Prior Art] With the rapid development of the information industry, the demand for mobile electronic devices such as mobile phones has increased greatly. 'Mobile phones are the communication tools of people'. The most basic function is to transmit sound signals. To transmit sound signals, electricity is required. The acoustic conversion component converts the sound signal into an electrical signal, or converts the electrical signal into a structural vibration to produce a sound. The field is: the universally applicable speaker is used to convert the electrical signal:: = vibration to generate sound. The sound quality of the mobile phone is not only related to the speaker, but also related to the structure of the speaker set outside the speaker. The larger the volume of the moving electro-acoustic cavity, the empty rolling in the cavity is issued to the buzzer. The damping effect of the sound is also the lowest oscillating frequency of the low speaker, so that it can reach the 坆, the effect should be to improve the sound quality of the mobile phone, and the low frequency 曰 = increase also increases the volume of the mobile phone accordingly, which obviously moves The trend of the development of the phone in the direction of short and light is contrary to the trend. It is very important to improve the quality and size of the sound quality of mobile phones. (10) The body is not added. [Invention] In view of the above, it is necessary to provide a speaker structure having improved sound quality and a mobile electronic device using the speaker structure. A speaker structure includes a cavity and a speaker disposed in the cavity, wherein the cavity is formed with a first sound cavity, a second sound cavity and a third sound cavity, the first sound cavity includes a front sound cavity and the housing A sound chamber is disposed behind the speaker, and the rear sound chamber communicates with the second sound chamber to form a rear sound chamber, and the front sound chamber communicates with the third sound chamber to form a front sound chamber. A mobile electronic device includes a casing having a speaker structure and a built-in antenna, the speaker structure including a cavity, a speaker disposed in the cavity, and a circuit board electrically connected to the speaker, the circuit The board and the built-in antenna are respectively disposed on two sides of the cavity, and the first sound chamber, the second sound chamber and the third sound chamber are formed in the cavity, the first sound chamber includes a front sound chamber and the speaker is received Thereafter, the sound chamber communicates with the second sound chamber to form a rear sound chamber that communicates with the third sound chamber to form a front sound chamber. Compared with the prior art, the speaker structure is formed independently of the front and rear acoustic chamber structures, and the sound signals emitted by the speakers respectively enter the front and rear sound chambers to generate resonance, which not only forms a unique resonance effect of the mobile phone, but also makes the speaker The volume in the structure is fully utilized, and the volume of the cavity is increased without increasing the volume and size of the mobile phone, thereby maximizing the volume of the cavity, thereby reducing the minimum resonant frequency of the speaker, improving the low frequency response of the speaker, and thereby enhancing the mobile phone. Sound quality. 1 is a schematic structural view of a mobile phone 1 according to an embodiment of a mobile electronic device of the present invention. The mobile phone 1 includes a casing 10, and the casing 1 is a substantially rectangular parallelepiped. The bottom portion of the casing 10 forms a button area 11, the central area forms a display area 12, and the top end forms a sound emitting area 13. The inside of the casing 10 is provided with a speaker structure 20 and a built-in antenna 29 (Please refer to FIG. 2), the speaker structure 20 is disposed corresponding to the sound emission area 13 of the mobile phone 1. In addition to the mobile phone 1, the mobile electronic device can be a personal electronic assistant (PDA) or other mobile electronic device that requires a built-in speaker structure 20. As shown in FIG. 2 to FIG. 5, the speaker structure 20 includes a cavity 21, a speaker 25 disposed in the cavity 21, and a circuit board 28 disposed on the side of the cavity 21 and sandwiched therebetween. A frame 27 is formed between the body 21 and the circuit board 28, and the built-in antenna 29 is disposed on the other side of the cavity 21. The built-in antenna 29 includes a plate-shaped body 290 and two latching arms 298 extending from the edge of the body 290 toward the cavity 21. Each of the latching arms 298 is provided with a bump 291 at the end for The antenna 29 is electrically connected to the circuit board 28, and the body 290 is provided with a plurality of positioning holes 299 for positioning the antenna 29 on the cavity 21. The speaker 25 is received in the cavity 21, and the speaker 25 is provided with a plurality of front sound-emitting holes 251 on one surface of the built-in antenna 29 (please refer to FIG. 3), and the other side opposite to the surface is provided with plural numbers. The sound hole 252 is electrically connected to the circuit board 28 for converting the electrical signal input by the circuit board 28 into an audio signal, and is transmitted through the front sound hole 251 and the rear sound hole 252. The speaker 25 is outputted. A lug 250' is provided on the side to position the speaker 25 within the cavity 21. The cavity 21 is a half-closed casing formed by the bottom plate 211 (please refer to FIG. 3) and the side plate 212, and a receiving space is formed in the semi-closed casing. The receiving space is provided by the bottom plate 211. A ring wall 221 extending from one side of the semi-closed casing is open, and the ring wall 221 is cylindrical, and a first sound chamber 220 for receiving the speaker 25 is formed therein, and the ring wall 221 and the cavity are further disposed in the receiving space. The side plate 212 of the body 21 is connected to the two partitions 231 to form a second sound chamber 230 and a third sound chamber 240 between the periphery of the first sound chamber 220 and the side plate 212 of the cavity 21, of course, when the ring When one of the walls 221 is in contact with the side plate 212 of the cavity 21, the outer periphery of the first sound chamber 220 can be divided into two cavities by only one partition. The portion of the ring wall 221 of the first sound chamber 220 corresponding to the second sound chamber 230 and the third sound chamber 240 is a first intersecting wall 233 and a second intersecting wall 232 ′, the second intersecting wall 232 and the two partitions 212 The top surface is coplanar with the top surface of the side plate 212 of the cavity 21 'in a direction perpendicular to the bottom plate 211 of the cavity 21'. The top surface of the first intersecting wall 233 is lower than the top surface of the second intersecting wall 232, that is, There is a height difference between the top surface of the first intersecting wall 233 and the top surface of the second intersecting wall 232, whereby the first sound chamber 220 is in communication with the second sound chamber 230. An annular flange 222 is protruded from a side of the bottom wall 221 of the first sound chamber 220, that is, a side of the bottom plate 211. The flange 222 divides the first sound chamber 220 into a front sound chamber 223 and a rear portion. The sound chamber 224, the inner wall of the front sound chamber 223, that is, the inner edge of the flange 222, is provided with a sound hole 225 at the second intersecting wall 232, thereby connecting the front sound chamber 223 with the third sound chamber 240. The rear sound chamber 224 is configured to receive the speaker 25, and the rear sound chamber 224 is provided with a groove 226 on the first intersecting wall 233 of the second sound chamber 230. The groove 226 and the lug 250 on the side wall of the speaker 25 In cooperation, the speaker 25 is positioned in the rear chamber 224. The sound hole 251 corresponds to the front chamber 223 before the speaker 25, and the sound hole 252 corresponds to the rear chamber 224. After the speaker 25 is placed in the rear cavity 224, the front sound chamber 223 and the rear sound chamber 224 are spaced apart from each other, so that the rear sound chamber 224 and the second sound chamber 230 together form a rear sound chamber, and the front sound chamber 223 Then, together with the third sound chamber 240, a front sound chamber is formed, and the front and rear sound chambers are independent of each other. The side plate 212 of the cavity 21 is provided with a sound hole 227 corresponding to the position of the third sound chamber 240 to communicate the front sound chamber 223 and the front sound chamber formed by the third sound chamber 240 with the external environment. A fixing hole 228 is formed in the bottom plate 211 of the cavity 21 near the side plate 212. The fixing hole 228 is substantially square, and a peripheral edge thereof extends upward to form a square wall 235. The top surface is coplanar with the top surface of the side plate 212 of the cavity 21, and the two latching arms 298 of the built-in antenna 29 can be locked in the square wall 235. The bottom plate 211 of the cavity 21 faces the built-in antenna. 29 is convexly provided with a plurality of studs 229 (please refer to FIG. 3), and the studs 229 cooperate with the positioning holes 299 on the built-in antenna 29 to fix the built-in antenna 29 to the bottom plate 211 of the cavity 21. . The frame body 27 is made of a vibration-damping material such as rubber or fiberglass cloth. The frame body 27 is disposed on an open wall surface of the cavity 21 opposite to the bottom plate 211, and is sandwiched between the cavity body 21 and Between the boards 28. The frame body 27 includes an outer frame 271 and a first inner frame 272 and a second inner frame 273 disposed in the outer frame 271. The shape of the outer frame 271 is substantially the same as the outer shape of the cavity 21. An inner frame 272 is attached to the square wall 235 of the fixing hole 228 of the cavity 21, and is surrounded by the outer frame 271 to form a first space 274 corresponding to the fixing hole 228. The second inner frame 273 is attached to the first frame 273. The partition 231 of the cavity 21 and the second intersecting wall 232 are surrounded by the outer frame 271 to form a second space 276 corresponding to the third sound chamber 240, and the first inner frame 272 and the second inner frame The 273 and the outer frame 271 are disposed together to form a third space 275 corresponding to the sound chamber 224 and the second sound chamber 230 formed by the first sound chamber 220, and the third space 275 can be formed. The volume of the rear acoustic chamber is enlarged, and the second space 276 can enlarge the volume of the sound chamber before the sound chamber 223 and the third sound chamber 240 are formed by the cavity of the first sound chamber 220. The outer frame 271, the first inner frame 272 and the second inner frame 273 of the frame 27 are sized to be designed to increase the second space 276 and the third space 275 as much as possible, and to make the frame 27 The vibration damping effect is not affected by the outer frame 271, the first inner frame 272 and the second inner frame 273 being too small in size. When assembled, the speaker 21 is placed in the cavity 224 behind the cavity 21, the front sound hole 251 corresponds to the cavity 223 before the cavity 21, and the sound hole 252 thereafter corresponds to the rear cavity 224; The circuit board 28 is disposed on one side of the cavity 21; the frame 27 is interposed between the circuit board 28 and the cavity 21. The contact between the frame 27 and the circuit board 28 and the cavity 21 can be utilized. The dry agent (not shown) is sufficiently filled and bonded, and the frame 27 can also fill the gap between the circuit board 28 and the cavity 21, so that the front and rear acoustic chambers are respectively formed to be relatively independent of each other. The built-in antenna 29 is attached to the bottom plate 211 of the cavity 21, and the positioning hole 299 is matched with the protrusion 229 on the bottom plate 211 of the cavity 21. The two latching arms 298 pass through the cavity 21. The fixing hole 228 is engaged with the square wall 235 by the outward tension of the locking arm 298, and the ends of the two locking arms 298 pass through the first space 274 of the frame 27, so that the bump 291 on the locking arm 298 is The circuit board 28 is connected. The speaker structure 20 is formed separately from the sound chamber (the front sound chamber 223 and the third sound chamber 240) and the rear sound chamber (the rear sound chamber 224 and the second sound chamber 230), and the speaker 25 is provided by the front sound hole 251 and The rear sound hole 252 emits an acoustic signal, and enters the front sound chamber and the rear sound chamber respectively to generate resonance, and is transmitted to the outside through the sound hole 227 on the side plate 212 of the cavity 21, so that the speaker structure 20 can be made on the one hand. The volume is fully utilized, and the volume of the cavity 21 is maximized without increasing the volume and size of the mobile phone 1, thereby reducing the minimum resonant frequency of the speaker 25, improving the low frequency response of the speaker 25, and thereby improving The sound quality of the mobile phone 1 can form a unique resonance effect of the mobile phone 1. On the other hand, according to the analogy of the sound-vibration analysis software SYSNOISE, the response frequencies of the sound chamber before and after the speaker structure 20 are respectively at 2941 Hz and 3851 Hz. The sound of the mobile phone 1 adopting the speaker structure 20 is appropriate and stable to 12 1321960, and can avoid the occurrence of sharpening or breaking of the ringtone. Rich sense of texture and tone, so as to obtain a good quality of sound. In addition, in the speaker structure 20, since the frame body 27 is interposed, the front and rear acoustic chambers are respectively formed into relatively closed spaces, so that the sound wave can be prevented from leaking from the speaker structure 20, and the sound wave and the speaker structure 20 are prevented from being cavityd. The direct wave generated by the sound hole 227 of the side plate 212 of 21 generates interference, which can stabilize the frequency characteristic of the sound and improve the sound quality of the mobile phone 1. At the same time, the frame 27 is made of a vibration-damping material, which can reduce the The transmission of the resonance between the speaker 25 and the circuit board 28 caused by the sound of the speaker 25 prevents the sound from being disturbed. Furthermore, in the speaker structure 20, since the built-in antenna 29 and the circuit board 28 are disposed on both sides of the cavity 21, not only the space can be fully utilized, but also a good low-frequency response effect can be achieved, and the built-in antenna 29 can be prevented from being Circuit board 28 is subject to electromagnetic interference, resulting in good call quality. In summary, the present invention conforms to the requirements of the invention patent, and proposes a patent application according to law. The above description is only the preferred embodiment of the present invention, and equivalent modifications or variations made by those skilled in the art of the present invention should be included in the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of an embodiment of a mobile electronic device (taking a mobile phone as an example) of the present invention. 2 is an exploded perspective view of the first perspective of the speaker structure and the built-in antenna of the mobile phone of FIG. 1. 13 1321960 Figure 3 is an exploded perspective view of the second perspective of the speaker structure and built-in antenna of Figure 2. 4 is a schematic structural view of a cavity in the speaker structure shown in FIG. 2. Fig. 5 is a partial assembly diagram of the speaker structure and the built-in antenna shown in Fig. 2. [Main component symbol description]

Mobile phone 1 housing 10 button area 11 display area 12 sound area 13 speaker structure 20 cavity 21 bottom plate 211 side plate 212 first sound cavity 220 soil wall 221 flange 222 front sound chamber 223 rear sound chamber 224 sound hole 225 Groove 226 sound hole 227 fixing hole 228 boss 229 second sound chamber 230 partition 231 second intersecting wall 232 first intersecting wall 233 square wall 235 third sound chamber 240 speaker 25 lug 250 front sound hole 251 Sound hole 252 frame 27 outer frame 271 first inner frame 272 second inner frame 273 first space 274 third space 275 second space 276 14 1321960 circuit board 28 built-in antenna 29 body 290 bump 291 snap arm 298 positioning hole 299 15

Claims (1)

1321960 X. Patent application scope 1. A speaker structure, comprising a cavity and a speaker disposed in the cavity, wherein the cavity is formed with a first sound cavity, a second sound cavity and a third sound cavity. The first sound chamber includes a front sound chamber and a sound chamber after receiving the speaker, the rear sound chamber communicates with the second sound chamber to form a rear sound chamber, and the front sound chamber communicates with the third sound chamber to form a front sound chamber . 2. The speaker structure of claim 1, further comprising a circuit board electrically connected to the speaker, the cavity being a half-closed housing. The circuit board is disposed on one side of the cavity. 3. The speaker structure of claim 2, further comprising a frame sandwiched between the cavity and the circuit board, the frame being made of a vibration-damping material. 4. The speaker structure of claim 3, wherein the damping material is rubber or fiberglass cloth. 5. The speaker structure of claim 3, wherein the cavity is formed by the bottom plate and the side plate, and a receiving space is formed in the cavity, and the receiving space is provided with a ring wall extending upward from the bottom plate. Forming the first sound chamber in the ring wall, and at least one partition plate connecting the ring wall and the side plate of the cavity body to the side of the first sound cavity and the side of the cavity The second sound chamber and the third sound chamber are formed between the plates. 6. The speaker structure of claim 5, wherein the ring wall of the first sound chamber corresponds to a portion of the second sound cavity and the third sound cavity, and the first intersecting wall intersects the second. a wall, in a direction perpendicular to the bottom plate of the cavity, a top surface of the first intersecting wall is lower than a top surface of the second intersecting wall, whereby the rear sound chamber communicates with the second sound chamber, and the second intersecting wall The bottom end is provided with a sound hole for connecting the front sound chamber to the third sound chamber. 7. The speaker structure of claim 6, wherein the frame comprises an outer frame and an inner frame, the shape of the outer frame being the same as a shape of a periphery of the cavity, the inner frame corresponding to the cavity The partition and the second intersecting wall are configured to form two spaces respectively corresponding to the front and rear acoustic chambers, wherein the two spaces respectively communicate with the front and rear acoustic chambers to expand the volume of the front and rear acoustic chambers, respectively. 8. A mobile electronic device comprising a housing having a speaker structure and a built-in antenna, the speaker structure comprising a cavity, a speaker disposed in the cavity, and a circuit board electrically connected to the speaker The improvement is that the circuit board and the built-in antenna are respectively disposed on two sides of the cavity, and the first sound cavity, the second sound cavity and the third sound cavity are formed in the cavity, and the first sound cavity comprises The front sound chamber and the sound chamber after receiving the speaker, the rear sound chamber communicates with the second sound chamber to form a rear sound chamber, and the front sound chamber communicates with the third sound chamber to form a front sound chamber. 9. The mobile electronic device of claim 8, further comprising a frame disposed between the cavity and the circuit board. The frame is made of a vibration-damping material. 10. The mobile electronic device of claim 8, wherein the cavity is formed by the bottom plate and the side plate, and a 17 1321960 receiving space is formed in the cavity, and the receiving space is extended upward from the bottom plate. a ring wall, the first sound cavity is formed in the ring wall, and at least one partition plate connecting the ring wall and the side plate of the cavity is further disposed in the receiving space to surround the first sound cavity The second sound chamber and the third sound chamber are formed between the side plates of the cavity. 11. The mobile electronic device of claim 10, wherein the ring wall of the first sound chamber corresponds to a portion of the second sound chamber and the third sound chamber as a first intersecting wall and a second intersecting wall respectively. The top surface of the first intersecting wall is lower than the top surface of the second intersecting wall in a direction perpendicular to the bottom plate of the cavity body, whereby the rear sound chamber communicates with the second sound chamber, and the second intersecting wall The bottom end is provided with a sound hole for connecting the front sound chamber to the third sound chamber. 12. The mobile electronic device of any of claims 8 to 11, wherein the mobile electronic device is a mobile phone or a number of person assistants. 18