WO2023087447A1 - 一种喇叭与马达的组合结构及电子产品 - Google Patents

一种喇叭与马达的组合结构及电子产品 Download PDF

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Publication number
WO2023087447A1
WO2023087447A1 PCT/CN2021/137660 CN2021137660W WO2023087447A1 WO 2023087447 A1 WO2023087447 A1 WO 2023087447A1 CN 2021137660 W CN2021137660 W CN 2021137660W WO 2023087447 A1 WO2023087447 A1 WO 2023087447A1
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Prior art keywords
horn
motor
chamber
frame
coil
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PCT/CN2021/137660
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English (en)
French (fr)
Inventor
杨明凯
王连杰
徐敏龙
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歌尔股份有限公司
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Publication of WO2023087447A1 publication Critical patent/WO2023087447A1/zh

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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K1/00Details of the magnetic circuit
    • H02K1/06Details of the magnetic circuit characterised by the shape, form or construction
    • H02K1/22Rotating parts of the magnetic circuit
    • H02K1/27Rotor cores with permanent magnets
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R9/00Transducers of moving-coil, moving-strip, or moving-wire type
    • H04R9/06Loudspeakers

Definitions

  • the application belongs to the technical field of audio equipment, and in particular relates to a combined structure of a speaker and a motor.
  • vibration motor horns With the rapid development of integrated circuits, many electronic products have increased their functions while gradually reducing their volume, such as vibration motor horns.
  • the vibration motor and horn are integrated together, and the horn can also vibrate while sounding. This is our Daily use and the use of special groups of people bring convenience. At the same time, we also hope to improve its performance through continuous improvement of the vibration motor horn.
  • the present application discloses a combination structure of a horn and a motor, so as to overcome the above problems or at least partly solve the above problems.
  • a combination structure of a horn and a motor including a front cover and a rear case, the front cover and the rear case form a housing cavity, and the feature is that a basin frame is arranged in the housing cavity, and the basin frame connects the housing cavity Divided into a first chamber and a second chamber, and the frame is provided with a first through hole communicating with the first chamber and the second chamber; the horn is arranged in the first chamber In the room, the motor is arranged in the second chamber, and the horn and the motor are independently connected to electrical signals;
  • the motor includes a motor coil, a counterweight magnetic steel and a rigid support; the motor coil is wound on the frame in the second chamber, the counterweight magnetic steel is connected to the rigid support, and The rigid bracket is assembled on the basin frame;
  • the horn includes the pot frame, and also includes a magnet, a washer, a diaphragm and a horn coil; the pot frame and the washer conduct the magnetic field generated by the magnet; the horn coil is arranged between the pot frame and the speaker coil. In the magnetic field gap between the magnets, the diaphragm is connected to the horn coil.
  • the counterweight magnetic steel is connected to the rigid support by bonding.
  • the counterweight magnetic steel is provided with a second through hole, and the second through hole communicates with the first through hole of the frame.
  • rigid supports there are multiple rigid supports, and adjacent rigid supports are spaced apart from each other.
  • the horn is a dynamic horn.
  • a third through hole is further provided on the frame, and the second chamber communicates with the magnetic field gap through the third through hole.
  • the frame is provided with a non-metallic ring at the position of the outer ring of the motor coil, which is used to block the magnetic conduction of the frame.
  • a connecting ring is provided on the inner wall of the front cover adjacent to the washer, and the outer edge of the diaphragm is assembled on the connecting ring.
  • a front acoustic cavity of the horn is formed between the diaphragm of the horn and the front cover, and the front cover is provided with a sound hole;
  • the rear acoustic cavity of the horn is formed between the diaphragm of the horn and the rear case, and the rear case is provided with a vent hole.
  • An electronic product the electronic product includes the combined structure of the horn and the motor as described above.
  • the motor and the horn are separated by using the basin frame, so that the motor and the horn can work independently.
  • the horn and the motor can not only work independently, but also work together, which is convenient for users to choose the working mode of the motor and the horn according to the different usage scenarios of electronic products; and through the basin frame
  • the first through hole connects the space where the motor and the horn are located.
  • the synchronous vibration direction of the two is controlled to achieve the effect of mutually enhancing the vibration, increasing the volume of the horn and enhancing the vibration feeling of the motor, and the motor
  • the second chamber where the speaker is located expands the volume of the rear acoustic cavity when the speaker is working, which can further improve the sound quality of the speaker in the low frequency range.
  • FIG. 1 is a schematic structural diagram of an embodiment of the present application.
  • the combined structure of a horn and a motor in this embodiment includes a front cover 1 and a rear case 2 , and the front cover 1 and the rear case 2 form an accommodating cavity.
  • the basin frame 3 is arranged in the accommodation cavity, and divides the accommodation cavity into a first chamber 4 and a second chamber 5, wherein the space enclosed by the basin framework 3 and the front cover 1 is the first chamber 4, and the basin framework 3 and the second chamber 5
  • the space enclosed by the rear shell 2 is the second chamber 5 .
  • the horn is arranged in the first chamber 4
  • the motor is arranged in the second chamber 5 .
  • the motor includes a motor coil 7 , a counterweight magnetic steel 8 and a rigid support 9 ; the motor coil 7 is wound on the frame 3 located in the second chamber 5 .
  • the counterweight magnetic steel 8 is connected with the rigid support 9, and the rigid support 9 is assembled on the back of the basin frame 3, and the counterweight magnetic steel 8 is arranged between the motor coil 7 and the rear shell 2, wherein the rigid support 9 is fixed on the basin support 3 It can support the counterweight magnetic steel 8;
  • the moving coil speaker includes a pot frame 3, and also includes a magnet 10, a washer 11, a diaphragm 12 and a speaker coil 13; the pot frame 3 and the washer 11 are respectively arranged on both sides of the magnet 10, and the speaker coil 13 is arranged on the pot frame 3 and the magnetic field gap between the magnet 10, and the diaphragm 12 is connected with the horn coil 13.
  • the magnet 10 is used to generate a magnetic field, and through the conduction of the frame 3 and the Washer 11, the magnetic field is made into a uniform magnetic field.
  • an audio electric signal is input to the horn coil 13. After the input audio electric signal, the horn coil 13 is stressed and vibrates in a uniform magnetic field. The vibration of the horn coil 13 drives the diaphragm 12 to vibrate, and then the diaphragm 12 pushes The air speaks.
  • the motor and the speaker share the frame 3, wherein, by winding the motor coil 7 on the frame 3, and using the frame 3 to fix the rigid support 9, and the frame 3 can also conduct the magnetic field of the magnet 10; thereby reducing parts The use, and to achieve the effect of saving space.
  • the horn and the motor are designed to be independently connected to electrical signals, so that the horn and the motor can not only work independently, but also work together, which is convenient for users to choose the working mode of the motor and the horn according to different usage scenarios.
  • a first through hole 6 communicating with the first chamber 4 and the second chamber 5 is provided at the center of the frame 3 .
  • the space where the motor and the horn are located is connected.
  • the horn when the horn works, it pushes the air in the first chamber 4 to vibrate, and the air vibration in the first chamber 4 further pushes the air in the second chamber 5 to vibrate through the first through hole 6, thereby strengthening the vibration of the motor. Increase the vibration amplitude to enhance the vibration feeling of the motor.
  • the motor When the motor works, it pushes the air in the second chamber 5 to vibrate, and the air vibration in the second chamber 5 further pushes the air in the first chamber 4 to vibrate through the first through hole 6, thereby strengthening the horn diaphragm 12.
  • the amplitude of the vibration increases the volume of the speaker.
  • the counterweight magnet steel 8 is connected to the rigid support 9 through bonding, so that the counterweight magnet steel 8 vibrates normally in the second cavity.
  • the front acoustic chamber of the speaker is formed between the diaphragm 12 of the speaker and the front cover 1 , and the front cover 1 is provided with a sound hole 101 .
  • the diaphragm 12 pushes the air in the front acoustic cavity to produce sound, and further transmits the sound to the outside through the sound hole 101 .
  • the diaphragm 12 of the horn and the back shell 2 are formed, and the back shell 2 is provided with a vent hole 21 .
  • the air in the rear acoustic cavity is discharged by using the vent hole 21, thereby reducing the vibration damping in the air of the rear acoustic cavity and increasing the sound volume of the horn.
  • the center of the counterweight magnetic steel 8 is provided with a second through hole 81 , and the second through hole 81 communicates with the first through hole 6 of the frame 3 . Utilize the second through hole 81 to connect the rear acoustic cavity of the horn with the second chamber 5 where the motor is located, expand the rear acoustic cavity when the horn is working, and further improve the sound quality of the horn in the low frequency range, and at the same time, balance the magnetic steel
  • the linear vibration of 8 plays the role of equalizing pressure.
  • multiple rigid supports 9 are provided, and adjacent rigid supports 9 are arranged at intervals from each other.
  • the space between the rigid brackets 9 the way for the rear acoustic chamber of the horn to communicate with the second chamber 5 is increased, preventing the second through hole 81 from being blocked and causing the airtightness of the rear acoustic cavity of the horn, which affects the sound quality of the horn, and can also avoid
  • the permanent deformation or damage of the rigid bracket 9 may be caused by thermal expansion and contraction of the metal.
  • the motor is a linear motor.
  • the structure of the linear motor is simple, and its power is transmitted through the air, which can reduce mechanical contact and friction between parts in the linear motor, thereby increasing the life of the motor.
  • an alternating electric signal is input to the motor coil 7 to cause the motor coil 7 to generate a periodically changing electromagnetic field.
  • the counterweight magnetic steel 8 linearly vibrates in the second chamber 5 , thereby causing the combined structure of the horn and the motor to generate vibration.
  • the speaker adopts a dynamic structure design, and the dynamic speaker has the advantages of high sensitivity and low distortion.
  • FIG. 1 when the horn is working, an audio electrical signal is input to the horn coil 13, and the horn coil 13 after the input audio electrical signal is stressed and vibrates in a uniform magnetic field, and the vibration of the horn coil 13 drives the diaphragm 12 to vibrate. Then the air is pushed through the diaphragm 12 to produce sound.
  • a third through hole 31 is also provided on the frame 3, and the second chamber 5 communicates with the magnetic field gap where the horn coil 13 vibrates through the third through hole 31. .
  • the third through hole 31 is used to connect the magnetic field gap where the horn coil 13 vibrates with the second chamber 5 where the motor is located, which expands the rear acoustic cavity when the horn is working, and can further improve the performance of the horn in the bass range.
  • the heat dissipation of the speaker coil 13 can be accelerated through the third through hole 31 .
  • a connecting ring 14 is provided on the inner wall of the front cover 1 adjacent to the washer 11 , and the outer edge of the diaphragm 12 is assembled on the connecting ring 14 .
  • the connecting ring 14 can be a circular ring made of metal or non-metal, such as a steel ring, a plastic ring, a rubber ring, and the like.
  • the way of assembling can be, for example, firstly connect the connecting ring 14 to the washer 11 by gluing, and then connect the outer edge of the vibrating membrane 12 to the connecting ring 14 by gluing, and then connect the connecting ring 14 to the vibrating membrane. 12 for fixation.
  • the vibration of the front cover 1 can also be buffered by using the connecting ring 14, and the outer edge of the diaphragm 12 is fixed to the washer 11 by means of the connecting ring 14.
  • the interference of the magnetic field of the washer 11 to the sound of the diaphragm 12 can be reduced, and the sound quality of the speaker can be guaranteed.
  • a non-metallic ring 32 is provided inside the frame 3 at the outer ring position surrounding the motor coil 7 to block the magnetic conduction of the frame 3 .
  • the frame 3 is divided into two parts by the non-metallic ring 32 : one part is used for the magnetic conduction of the magnet 10 , and the other part is used for supporting the motor coil 7 .
  • the magnetic field generated by the magnet 10 and the electromagnetic field generated after the motor coil 7 is energized simultaneously magnetize the frame 3, resulting in the superposition of the magnetic fields, thereby reducing the sensitivity of the speaker and even causing distortion of the speaker.
  • the synchronization of the vibration direction of the motor and the speaker can be controlled through the winding method of the coil, the connected positive and negative poles, and the design of the circuit.
  • the input end of the horn coil current at this time is defined as the positive pole.
  • the input end of the motor coil current at this time is the positive pole. Then input an AC signal with the same phase to the positive poles of the motor coil and the speaker coil, so that the vibration directions of the motor and the speaker are synchronized.
  • the electronic product of the embodiment of the present application can save the internal space of the electronic product due to the above-mentioned combination structure of the horn and the motor; and when the horn and the motor work together in the electronic product, the vibration direction of the two is controlled to be synchronized to achieve mutual reinforcement. Vibration effect. While increasing the volume of the speaker, it can also enhance the vibration of the motor. Moreover, the second chamber 5 where the motor is located expands the volume of the rear acoustic cavity when the horn is working, and can further improve the sound quality of the horn in the low frequency range.
  • the electronic products may be watches, wristbands, earphones and the like.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Power Engineering (AREA)
  • Apparatuses For Generation Of Mechanical Vibrations (AREA)
  • Audible-Bandwidth Dynamoelectric Transducers Other Than Pickups (AREA)

Abstract

本申请一些实施例公开了一种喇叭与马达的组合结构,包括前盖和后壳,前盖和后壳形成容纳腔,容纳腔内设有盆架,盆架将容纳腔分割为第一腔室和第二腔室,且盆架上设有连通第一腔室和第二腔室的第一通孔;喇叭设置于第一腔室内,马达设置于第二腔室内,且喇叭与马达各自独立接入电信号;在本申请中,通过将马达和喇叭一起设在容纳腔内,使马达和喇叭合为一体,从而达到节约电子产品内部空间的效果。通过将马达和喇叭各自独立接入电信号,方便用户根据电子产品使用场景不同选择马达和喇叭的工作模式;通过盆架上第一通孔连通马达和喇叭所在的空间,当喇叭和马达均工作时,通过控制二者振动方向同步,达到互相增强振动的效果,提高喇叭音量并增强马达振感。

Description

一种喇叭与马达的组合结构及电子产品
本申请要求于2021年11月16日提交中国专利局、申请号为202111352736.1、发明名称为“一种喇叭与马达的组合结构”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请属于音频设备技术领域,具体涉及一种喇叭与马达的组合结构。
背景技术
随着集成电路的快速发展,很多电子产品在逐渐减小体积的同时增加了其功能,例如振动马达喇叭,把振动马达和喇叭集成在一起,在喇叭发声的同时也可以振动,这为我们的日常使用以及特殊人群的使用带来了方便,同时,我们也希望通过对振动马达喇叭的不断改进提升其性能。
现有的马达和喇叭的集成方式多是作为单独的元器件进行设计堆叠,非常浪费空间,并且喇叭与马达二合一的机构,大多有部分性能相互牺牲的弊端。
发明内容
针对上述问题,本申请公开了一种喇叭与马达的组合结构,以克服上述问题或者至少部分地解决上述问题。
为了实现上述目的,本申请采用以下技术方案:
一种喇叭与马达的组合结构,包括前盖和后壳,所述前盖和后壳形成容纳腔,其特征在于:所述容纳腔内设有盆架,所述盆架将所述容纳腔分割为第一腔室和第二腔室,且所述盆架上设有连通所述第一腔室和所述第二腔室的第一通孔;所述喇叭设置于所述第一腔室内,所述马达设置于所述第二腔室内,且所述喇叭与所述马达各自独立接入电信号;
所述马达包括马达线圈、配重磁钢和刚性支架;所述马达线圈绕制在所述第二腔室中的所述盆架上,所述配重磁钢与所述刚性支架连接,且所述刚 性支架装配在所述盆架上;
所述喇叭包括所述盆架,还包括磁铁、华司、振膜和喇叭线圈;所述盆架和所述华司传导所述磁铁产生的磁场;所述喇叭线圈设置在所述盆架与所述磁铁之间的磁场间隙中,所述振膜连接所述喇叭线圈。
可选的,所述配重磁钢与所述刚性支架通过粘结进行连接。
可选的,所述配重磁钢上设有第二通孔,所述第二通孔连通所述盆架的所述第一通孔。
可选的,所述刚性支架设有多个,相邻的所述刚性支架彼此间隔设置。
可选的,所述喇叭为动圈式喇叭。
可选的,所述盆架上还设有第三通孔,所述第二腔室与所述磁场间隙之间通过所述第三通孔连通。
可选的,所述盆架在所述马达线圈的外圈位置处设有非金属环,用于阻隔所述盆架的导磁。
可选的,在所述前盖的内壁紧邻所述华司位置处设有连接环,所述振膜的外缘装配在所述连接环上。
可选的,所述喇叭的振膜与所述前盖之间构成所述喇叭工作时的前声腔,所述前盖设有出音孔;
所述喇叭的振膜与所述后壳之间构成所述喇叭工作时的后声腔,所述后壳设有泄气孔。
一种电子产品,所述电子产品包括如上文所述的喇叭与马达的组合结构。
本申请的优点及有益效果是:
在本申请中,通过将马达和喇叭一起设置在容纳腔内,并进一步利用马达和喇叭对盆架的共同使用,从而减少零部件,进而达到节约电子产品内部空间的效果。并利用盆架将马达和喇叭分开,使马达和喇叭分别独立的进行工作。通过将马达和喇叭各自独立接入电信号,使喇叭和马达不仅各自能够单独工作,还能够实现共同工作,方便用户根据电子产品使用场景的不同选择马达和喇叭的工作模式;并且通过盆架上的第一通孔连通马达和喇叭所在的空间,当喇叭和马达均工作的时候,通过控制二者振动方向同步,达到互相增强振动的效果,提高喇叭的音量并增强马达的振感,而且马达所在的第二腔室扩充了喇叭工作时的后声腔体积,可以进一步提高喇叭在低音频段的 音质。
附图说明
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一部分附图,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据提供的附图获得其他的附图。
图1为本申请一实施例中的结构示意图。
1、前盖;2、后壳;3、盆架;4、第一腔室;5、第二腔室;6、第一通孔;7、马达线圈;8、配重磁钢;9、刚性支架;10、磁铁;11、华司;12、振膜;13、喇叭线圈;14、连接环;21、泄气孔;31、第三通孔;32、非金属环;81、第二通孔;101、出音孔。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。
以下结合附图,详细说明本申请各实施例提供的技术方案。
本实施例公开了一种喇叭与马达的组合结构,结合图1所示,本实施例的喇叭与马达的组合结构包括前盖1和后壳2,前盖1和后壳2构成容纳腔。盆架3设在容纳腔内,并将容纳腔分割为第一腔室4和第二腔室5,其中盆架3与前盖1围成的空间为第一腔室4,盆架3与后壳2围成的空间为第二腔室5。喇叭设置于第一腔室4内,马达设置于第二腔室5内。
其中,结合图1所示,马达包括马达线圈7、配重磁钢8和刚性支架9;马达线圈7绕制在位于第二腔室5中的盆架3上。配重磁钢8与刚性支架9连接,且刚性支架9装配在盆架3的背面,配重磁钢8设置在马达线圈7和后壳2之间,其中通过刚性支架9固定在盆架3上能够对配重磁钢8起到支撑的作用;
动圈式喇叭包括盆架3,还包括磁铁10、华司11、振膜12和喇叭线圈 13;盆架3和华司11分别设置在磁铁10的两侧,而喇叭线圈13设置在盆架3与磁铁10之间的磁场间隙中,且振膜12与喇叭线圈13连接。其中,磁铁10用于产生磁场,并通过盆架3和华司11的传导使该磁场为均匀磁场。喇叭工作时,对喇叭线圈13输入音频电信号,输入音频电信号后的喇叭线圈13在均匀磁场中受力并产生振动,喇叭线圈13的振动带动振膜12产生振动,进而通过振膜12推动空气发声。
马达和喇叭共用盆架3,其中,通过将马达线圈7缠绕在盆架3上,并利用盆架3固定刚性支架9,且盆架3还能对磁铁10的磁场进行传导;进而减少零部件的使用,并达到节约空间的效果。
喇叭和马达被设计成各自独立接入电信号,这样喇叭和马达不仅各自能够单独工作,还能够实现共同工作,方便用户根据使用场景的不同选择马达和喇叭的工作模式。
并且,盆架3的中心设有连通第一腔室4和第二腔室5的第一通孔6。通过盆架3上的第一通孔6连通马达和喇叭所在的空间,当喇叭和马达均工作的时候,通过控制二者振动方向同步,达到互相增强振动的效果,提高喇叭的音量并增强马达的振感。
具体地,当喇叭工作时,推动第一腔室4内的空气振动,第一腔室4内的空气振动进一步通过第一通孔6推动第二腔室5内的空气振动,从而加强马达的振动幅度,增强马达振感。当马达工作时,推动第二腔室5内的空气振动,第二腔室5内的空气振动进一步通过第一通孔6推动第一腔室4内的空气振动,从而加强喇叭振膜12的振动幅度,提高喇叭的音量。
进一步的,配重磁钢8与刚性支架9通过粘结进行连接,从而使配重磁钢8在第二腔体中正常振动。
结合图1所示,喇叭的振膜12与前盖1之间构成喇叭工作时的前声腔,前盖1设有出音孔101。振膜12在振动过程中推动前声腔中的空气发声,并进一步通过出音孔101将声音对外传播。喇叭的振膜12与后壳2之间构成喇叭工作时的,后壳2设有泄气孔21。利用泄气孔21将后声腔中的空气排出,从而降低后声腔空气中的振动阻尼,增强喇叭的发声音量。
本申请的一个实施例中,仍结合图1所示,配重磁钢8的中心设有第二通孔81,且第二通孔81和盆架3的第一通孔6相连通。利用第二通孔81将 喇叭的后声腔与马达所在的第二腔室5相连通,扩充了喇叭工作时的后声腔,可以进一步提高喇叭在低音频段的音质,同时还可以对配重磁钢8的线性振动起到均衡压力的作用。
本申请的一个实施例中,刚性支架9设有多个,相邻刚性支架9彼此间隔设置。通过刚性支架9之间的间隔使喇叭的后声腔与第二腔室5相连通的途径增多,防止第二通孔81堵塞后造成喇叭后声腔的密闭,影响到喇叭的音质,并且还能够避免由于金属热胀冷缩会导致刚性支架9的永久变形或损坏。
本申请的一个实施例中,马达为线性马达。线性马达的结构简单,其动力是通过空气传递的,可以减少机械接触,降低线性马达内零件间的摩擦,从而增加马达的寿命。该线性马达工作时,对马达线圈7输入交变的电信号,使马达线圈7产生周期性变化的电磁场。在电磁场的作用下,配重磁钢8在第二腔室5中线性振动,进而使该喇叭与马达的组合结构产生振感。
本申请的一个实施例中,喇叭采用动圈式结构设计,动圈式喇叭具有高灵敏度和低失真的优点。结合图1所示,喇叭工作时,对喇叭线圈13输入音频电信号,输入音频电信号后的喇叭线圈13在均匀磁场中受力并产生振动,喇叭线圈13的振动带动振膜12产生振动,进而通过振膜12推动空气发声。
本申请的一个实施例中,结合图1所示,盆架3上还设有第三通孔31,第二腔室5与喇叭线圈13振动所在的磁场间隙之间通过第三通孔31连通。在喇叭工作的过程中,利用第三通孔31将喇叭线圈13振动所在的磁场间隙与马达所在的第二腔室5相连通,扩充了喇叭工作时的后声腔,可以进一步提高喇叭在低音频段的音质,同时通过第三通孔31还可以加快喇叭线圈13的散热。
本申请的一个实施例中,结合图1所示,在前盖1的内壁紧邻华司11位置处设有连接环14,振膜12的外缘装配在连接环14上。该连接环14可以是金属材质也可以是非金属材质的圆环,例如钢环、塑料环、橡胶环等。其中,装配的方式例如可以是,先将连接环14通过打胶与华司11进行固定连接,然后再将振膜12的外缘通过打胶与连接环14连接,通过连接环14对振膜12进行固定。由于振膜12是一个对于磁场变化很敏感的元件,利用连接环14还能够对前盖1的振动起到缓冲作用,将振膜12的外缘借助连接环14固定到华司11上,相比于将振膜12的外缘直接固定到华司11上,可以减少 华司11的磁场对振膜12发声的干扰,保证喇叭的音质。
本申请的一个实施例中,结合图1所示,在环绕马达线圈7的外圈位置,盆架3内设有非金属环32,用于阻隔盆架3的导磁。通过非金属环32将盆架3分为两部分:一部分用于磁铁10的导磁,另一部分用于支撑马达线圈7。防止在马达和喇叭共同工作时,磁铁10产生的磁场和马达线圈7通电后产生的电磁场同时将盆架3磁化,造成磁场的叠加,从而造成喇叭的灵敏度降低,甚至造成喇叭的失真。
最后需要说明的是,可以通过线圈的绕线方式、接入的正负极以及电路的设计等方式,控制马达和喇叭的振动方向同步。在调节马达和喇叭的振动方向的同步时,通过向喇叭线圈输入直流电,当喇叭线圈和马达线圈同步向出音孔方向移动时,定义此时的喇叭线圈电流的输入端为正极。且当配重磁钢向出音孔方向移动时,定义此时的马达线圈电流的输入端为正极。然后对马达线圈和喇叭线圈的正极输入同相位的交流电信号,使得马达和喇叭的振动方向同步。
本申请实施例的电子产品,由于采用了上述的喇叭与马达的组合结构,能够节约电子产品的内部空间;且当电子产品中喇叭与马达共同工作时,控制二者振动方向同步,达到互相增强振动的效果。提高喇叭的音量的同时,还能增强马达的振感。且马达所在的第二腔室5扩充了喇叭工作时的后声腔体积,还能够进一步提高喇叭在低音频段的音质。
其中,电子产品可以是手表、手环、耳机等。
本说明书中各个实施例采用并列或者递进的方式描述,每个实施例重点说明的都是与其它实施例的不同之处,各个实施例之间相同或相似部分互相参见即可。
还需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。在没有更多限制的情况下,由语句“包括一个……”限定的 要素,并不排除在包括所述要素的过程、方法、物品或者设备中还存在另外的相同要素。

Claims (10)

  1. 一种喇叭与马达的组合结构,包括前盖和后壳,所述前盖和后壳形成容纳腔;其特征在于:所述容纳腔内设有盆架,所述盆架将所述容纳腔分割为第一腔室和第二腔室,且所述盆架上设有连通所述第一腔室和所述第二腔室的第一通孔;所述喇叭设置于所述第一腔室内,所述马达设置于所述第二腔室内,且所述喇叭与所述马达各自独立接入电信号;
    所述马达包括马达线圈、配重磁钢和刚性支架;所述马达线圈绕制在所述第二腔室中的所述盆架上,所述配重磁钢与所述刚性支架连接,且所述刚性支架装配在所述盆架上;
    所述喇叭包括所述盆架,还包括磁铁、华司、振膜和喇叭线圈;所述盆架和所述华司传导所述磁铁产生的磁场;所述喇叭线圈设置在所述盆架与所述磁铁之间的磁场间隙中,所述振膜连接所述喇叭线圈。
  2. 根据权利要求1所述的喇叭与马达的组合结构,其特征在于:所述配重磁钢与所述刚性支架通过粘结进行连接。
  3. 根据权利要求2所述的喇叭与马达的组合结构,其特征在于:所述配重磁钢上设有第二通孔,所述第二通孔连通所述盆架的所述第一通孔。
  4. 根据权利要求2所述的喇叭与马达的组合结构,其特征在于:所述刚性支架设有多个,相邻的所述刚性支架彼此间隔设置。
  5. 根据权利要求1所述的喇叭与马达的组合结构,其特征在于:所述喇叭为动圈式喇叭。
  6. 根据权利要求1所述的喇叭与马达的组合结构,其特征在于:所述盆架上还设有第三通孔,所述第二腔室与所述磁场间隙之间通过所述第三通孔连通。
  7. 根据权利要求6所述的喇叭与马达的组合结构,其特征在于:所述盆架在所述马达线圈的外圈位置处设有非金属环,用于阻隔所述盆架的导磁。
  8. 根据权利要求1所述的喇叭与马达的组合结构,其特征在于:在所述前盖的内壁紧邻所述华司位置处设有连接环,所述振膜的外缘装配在所述连接环上。
  9. 根据权利要求1所述的喇叭与马达的组合结构,其特征在于:所述喇 叭的振膜与所述前盖之间构成所述喇叭工作时的前声腔,所述前盖设有出音孔;
    所述喇叭的振膜与所述后壳之间构成所述喇叭工作时的后声腔,所述后壳设有泄气孔。
  10. 一种电子产品,其特征在于:所述电子产品包括权利要求1-9中任一项所述的喇叭与马达的组合结构。
PCT/CN2021/137660 2021-11-16 2021-12-14 一种喇叭与马达的组合结构及电子产品 WO2023087447A1 (zh)

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