CN109348370A - Microphone device - Google Patents
Microphone device Download PDFInfo
- Publication number
- CN109348370A CN109348370A CN201811161241.9A CN201811161241A CN109348370A CN 109348370 A CN109348370 A CN 109348370A CN 201811161241 A CN201811161241 A CN 201811161241A CN 109348370 A CN109348370 A CN 109348370A
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- CN
- China
- Prior art keywords
- fixed
- voice coil
- skeleton
- magnet steel
- microphone device
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R7/00—Diaphragms for electromechanical transducers; Cones
- H04R7/16—Mounting or tensioning of diaphragms or cones
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R9/00—Transducers of moving-coil, moving-strip, or moving-wire type
- H04R9/02—Details
- H04R9/025—Magnetic circuit
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R9/00—Transducers of moving-coil, moving-strip, or moving-wire type
- H04R9/02—Details
- H04R9/04—Construction, mounting, or centering of coil
Abstract
The present invention discloses a kind of microphone device comprising frame, vibrational system and magnetic circuit system;The vibrational system includes vibrating diaphragm, voice coil, resilient support assemblies and support frame;The support frame includes skeleton main body annular in shape and by the outwardly extending at least two skeletons interconnecting piece of the skeleton main body;The skeleton main body at least makes the skeleton interconnecting piece be connected two-by-two between the vibrating diaphragm and the voice coil;The skeleton interconnecting piece is equipped with the roof opposite with vibrating diaphragm, the bottom wall opposite with the resilient support assemblies and the side wall for connecting the roof Yu the bottom wall, the roof is connect with the bottom surface of the vibrating diaphragm, the side wall is connect with the side of the voice coil, the bottom wall is connect with the resilient support assemblies, to by the voice coil resilient suspension below the vibrating diaphragm.Compared with the relevant technologies, microphone device stability of the invention is good and acoustical behavior is good.
Description
[technical field]
The present invention relates to electroacoustic conversion art more particularly to a kind of microphone devices for applying to portable electronic product.
[background technique]
With the arrival of mobile internet era, the quantity of Intelligent mobile equipment constantly rises.And in numerous mobile devices
Among, mobile phone is undoubtedly most common, most portable mobile terminal device.Currently, the function of mobile phone is extremely various, one of them is just
It is the music function of high-quality, therefore, the microphone device for playing sound is widely applied Intelligent mobile equipment till now
Among.
The microphone device of the relevant technologies include frame and the vibrational system for being individually fixed in the frame and have magnetic
The magnetic circuit system in gap;The vibrational system includes the vibrating diaphragm for being fixed on the frame, is fixed on the vibrating diaphragm and is inserted in institute
It states magnetic gap and the frame is fixed on the voice coil for driving the diaphragm oscillations sounding and one end, the other end is fixed on the sound
Enclose the resilient support assemblies far from described vibrating diaphragm one end.
However, the vibrating diaphragm and the resilient support assemblies are individually fixed in institute in microphone device described in the relevant technologies
The opposite end of voice coil is stated, although the horizontal swing when resilient support assemblies can effectively prevent the voice coil vibrations, its
The structure directly connecting with voice coil causes the design of the voice coil to be restricted, and the volume of the magnetic circuit system is also limited, from
And it is limited that the acoustical behavior of the microphone device is improved.
Therefore, it is really necessary to provide a kind of new microphone device solution above-mentioned technical problem.
[summary of the invention]
The purpose of the present invention is overcoming above-mentioned technical problem, the acoustical generator that a kind of stability is good and acoustical behavior is good is provided
Part.
To achieve the goals above, the present invention provides a kind of microphone device comprising frame and is individually fixed in the basin
The vibrational system of frame and magnetic circuit system with magnetic gap;The vibrational system includes the vibrating diaphragm for being fixed on the frame, plugs
In the magnetic gap and drive the voice coil of the diaphragm oscillations sounding, be fixed on the frame and it is opposite with the vibrating diaphragm and be spaced
The resilient support assemblies and support frame of setting;The support frame includes skeleton main body annular in shape and by the skeleton
The outwardly extending at least two skeletons interconnecting piece of main body;The skeleton main body is described between the vibrating diaphragm and the voice coil
Skeleton interconnecting piece to by the voice coil resilient suspension below the vibrating diaphragm;The skeleton interconnecting piece is equipped with opposite with vibrating diaphragm
The side wall of roof, the bottom wall opposite with the resilient support assemblies and the connection roof and the bottom wall, the roof and
The vibrating diaphragm connection, the side wall are connect with the side of the voice coil, and the bottom wall is connect with the resilient support assemblies.
Preferably, the resilient support assemblies are enclosed jointly sets to form a hollow region, and the voice coil is far from the vibrating diaphragm
One end is located within the scope of the hollow region.
Preferably, the roof and the bottom wall are located at the different two sides of the side wall.
Preferably, the two neighboring skeleton interconnecting piece is spaced apart from each other and surrounds an accommodating space jointly.Preferably, described
Skeleton main body include the first main body for being connected to the vibrating diaphragm, the second main body for being connected to the voice coil and from the vibrating diaphragm to
Voice coil direction extends and connects the third main body of first main body and second main body.
Preferably, orthographic projection of the skeleton main body along the diaphragm oscillations direction is fallen on the voice coil.
Preferably, the skeleton main body is an integral molding structure with the skeleton interconnecting piece.
Preferably, the skeleton main body and the skeleton interconnecting piece are that metal material is made, and the two is through the stamping process
It is integrally formed.
Preferably, the skeleton main body and the skeleton interconnecting piece are separate structure.
Preferably, the skeleton interconnecting piece includes four and is respectively separated setting, and skeleton interconnecting piece described in every two is one
Group is simultaneously connected by the skeleton main body.
Preferably, the voice coil is in rectangular configuration with rounded corners, and four skeleton interconnecting pieces are located at the voice coil
Four fillets position.
Preferably, the resilient support assemblies include two and are located at the opposite sides of the voice coil, each described
Resilient support assemblies include elastic component and the auxiliary vibrating diaphragm for being attached at the elastic component;The skeleton interconnecting piece is fixed on described
The side far from the auxiliary vibrating diaphragm of elastic component.
Preferably, the elastic component includes the first fixed arm for being fixed on the frame, support is fixed on adjacent two respectively
Two the second fixed arms of a skeleton interconnecting piece and from first fixed arm respectively to two second fixed arms
Two elastic arms for extending and forming a fixed connection;The auxiliary vibrating diaphragm includes the ring of the arc-shaped structure in cross section, by the folding
The first connecting portion and second connecting portion that the opposite sides of ring each extends over, it is fixed that the first connecting portion is fixed on described first
The side far from the support frame of arm, the second connecting portion are fixed on the separate support rib of second fixed arm
The side of frame, and it is oppositely arranged the ring with the elastic arm;The bottom wall supports are in second fixed arm.
Preferably, the elastic component includes the first fixed arm for being fixed on the frame, support is fixed on adjacent two respectively
Two the second fixed arms of a skeleton interconnecting piece and from first fixed arm respectively to two second fixed arms
Two elastic arms for extending and forming a fixed connection;The auxiliary vibrating diaphragm includes the ring of the arc-shaped structure in cross section, by the folding
The first connecting portion and second connecting portion that the opposite sides of ring each extends over, it is fixed that the first connecting portion is fixed on described first
The side far from the support frame of arm, the second connecting portion are fixed on the separate support rib of second fixed arm
The side of frame, and it is oppositely arranged the ring with the elastic arm;The bottom wall is connected to the second connecting portion.
Preferably, the elastic component includes the first fixed arm for being fixed on the frame, support is fixed on adjacent two respectively
Two the second fixed arms of a skeleton interconnecting piece and from first fixed arm respectively to two second fixed arms
Two elastic arms for extending and forming a fixed connection;The auxiliary vibrating diaphragm includes the ring of the arc-shaped structure in cross section, by the folding
The first connecting portion and second connecting portion that the opposite sides of ring each extends over, it is fixed that the first connecting portion is fixed on described first
The side far from the support frame of arm, the second connecting portion are fixed on the separate support rib of second fixed arm
The side of frame, and it is oppositely arranged the ring with the elastic arm;The bottom wall sandwiched is fixed on second fixed arm and institute
It states between second connecting portion.
Preferably, the elastic component is flexible circuit board, and the voice coil is electrically connected with the elastic component.
Preferably, the magnetic circuit system includes that magnetic yoke, the main magnet steel for being fixed on the magnetic yoke and being respectively separated is set to
The main magnet steel opposite sides and the two first secondary magnet steel that the magnetic gap is formed with the main magnet steel, each described first is secondary
Magnet steel is located between two resilient support assemblies.
Preferably, the voice coil is in rectangular configuration with rounded corners, and two the described first secondary magnet steel are located at the length of the voice coil
Axis two sides, two resilient support assemblies are located at the short axle two sides of the voice coil.
Preferably, the magnetic circuit system further includes being respectively separated two that are set to the other opposite sides of main magnet steel
Second mate's magnet steel.
Preferably, the voice coil is in rectangular configuration with rounded corners, and two the described first secondary magnet steel are located at the length of the voice coil
Axis two sides, two resilient support assemblies are located at the short axle two sides of the voice coil, and two the described second secondary magnet steel are located at described
The short axle two sides of voice coil, and each described second secondary magnet steel is located at two second fixations of the same resilient support assemblies
Between arm.
Preferably, the described second secondary magnet steel includes that magnet steel ontology and being each extended over by the both ends of the magnet steel ontology is formed
Magnet steel reinforcement part, each magnet steel reinforcement part extend respectively between a skeleton interconnecting piece and the voice coil.
Preferably, the auxiliary vibrating diaphragm is equipped with the recessing groove being recessed from it close to a side of voice coil to the frame direction,
The magnet steel ontology extends in the recessing groove.
Preferably, the magnetic circuit system further includes upper clamp plate, and the upper clamp plate includes being fixed on the annular in shape of frame to consolidate
Four pole pieces determining ring and being extended respectively to the described first secondary magnet steel and the second secondary magnet steel from the fixed ring, described in four
Pole piece is stacked at the described first secondary magnet steel and the second secondary magnet steel respectively, and the pole piece is secondary with corresponding described first respectively
The shape matching of magnet steel or the second secondary magnet steel.
Preferably, the quality specific gravity of the vibrating diaphragm and the voice coil is less than 1:5.
Compared with prior art, in microphone device of the invention, the voice coil and the vibrating diaphragm and the voice coil and institute
Resilient support assemblies are stated as interval setting, includes skeleton main body annular in shape and from the skeleton main body to extension by being arranged
The support frame for at least two skeleton interconnecting pieces stretched makes the skeleton main body between the vibrating diaphragm and the voice coil, institute
State skeleton interconnecting piece to by the voice coil resilient suspension below the vibrating diaphragm, roof described in the skeleton interconnecting piece with it is described
The bottom surface connection of vibrating diaphragm, its side wall are connect with the side of the voice coil, and bottom wall is connect with the resilient support assemblies.That is the knot
Structure makes the resilient support assemblies be indirectly coupled to the voice coil by the support frame, on the one hand realizes to the voice coil
The inhibition of horizontal swing when vibration improves its stability;On the other hand it is direct with voice coil the resilient support assemblies to be eliminated
To the limitation of voice coil when connection, voice coil height is no longer limited by resilient support assemblies, what microphone device whole height can design
It is more frivolous;The limitation of the design to magnetic circuit system is eliminated simultaneously, and resilient support assemblies are not direct glued with voice coil, magnetic circuit system
For system without resilient support assemblies of stepping down, magnetic circuit system can realize maximized more three magnetic circuits of magnet steel or five magnetic structures, effectively mention
The high acoustical behavior of the microphone device.
[Detailed description of the invention]
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing, in which:
Fig. 1 is the schematic perspective view of microphone device of the present invention;
Fig. 2 is the part isometric structural decomposition diagram of microphone device of the present invention;
Fig. 3 is the part-structure assembling schematic diagram of microphone device of the present invention;
Fig. 4 is the enlarged drawing of part shown in B in Fig. 3;
Fig. 5 is the cut-away view of the line A-A along Fig. 1;
Fig. 6 is the enlarged drawing of part shown in C in Fig. 5;
Fig. 7 is the support frame of microphone device of the present invention and the schematic perspective view of the second secondary alinco assembled;
Fig. 8 is the structural schematic diagram at another visual angle Fig. 7;
Fig. 9 is the support frame of microphone device of the present invention and the schematic perspective view of voice coil assembly;
Figure 10 is the resilient support assemblies of microphone device of the present invention and the schematic perspective view of support frame assembly;
Figure 11 is the schematic perspective view of the resilient support assemblies of microphone device of the present invention;
Figure 12 is the stereochemical structure decomposing schematic representation of the resilient support assemblies of microphone device of the present invention;
Figure 13 is the resilient support assemblies and the second secondary alinco assembled schematic diagram of microphone device of the present invention.
[specific embodiment]
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that the described embodiments are merely a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other
Embodiment shall fall within the protection scope of the present invention.
Please refer to shown in Fig. 1-4, wherein Fig. 1 is the schematic perspective view of microphone device of the present invention;Fig. 2 is this
The part isometric structural decomposition diagram of invention microphone device;Fig. 3 is the part-structure assembling schematic diagram of microphone device of the present invention;
Fig. 4 is the enlarged drawing of part shown in B in Fig. 3.A kind of microphone device 100 provided by the invention comprising frame 1, vibrational system 2
And magnetic circuit system 3.
The frame 1 is used to support the vibrational system 2 and the magnetic circuit system 3.
The vibrational system 2 includes the voice coil of the vibrating diaphragm 21 for being fixed on the frame 1, the driving diaphragm oscillations sounding
22, it is fixed on the frame 1 and opposite and spaced resilient support assemblies 23 and support frame 24 with the vibrating diaphragm 21.
The frame 1 is fixed in described 23 one end of resilient support assemblies, and the support frame is fixed in other end support
24。
Please in combination with shown in ginseng Fig. 5-8, wherein Fig. 5 is the cut-away view of the line A-A along Fig. 1;Fig. 6 is shown in C in Fig. 5
Partial enlarged drawing;Fig. 7 is the support frame of microphone device of the present invention and the schematic perspective view of the second secondary alinco assembled;Figure
8 be the structural schematic diagram at another visual angle Fig. 7.The support frame 24 is including skeleton main body 241 annular in shape and by the bone
The outwardly extending at least two skeletons interconnecting piece 242 of frame body 241.
The skeleton main body 241 is annular in shape, between the vibrating diaphragm 21 and the voice coil 22, the skeleton main body
241 at least make the skeleton interconnecting piece 242 be connected two-by-two, so as to reinforce the overall stability of the skeleton interconnecting piece 242.
The skeleton interconnecting piece 242 to by 22 resilient suspension of voice coil in 21 lower section of the vibrating diaphragm.
In present embodiment, the skeleton interconnecting piece 242 includes four and is respectively separated setting, and skeleton described in every two connects
Socket part 242 is one group and is connected by the skeleton main body 241.More preferably, the voice coil 22 be in rectangular configuration with rounded corners, four
A skeleton interconnecting piece 242 is located at the position of four fillets of the voice coil 22.The structure of boniness frame interconnecting piece 242 can
Its interfering with magnetic circuit system 3 is largely avoided, i.e. magnetic circuit system 3 can be designed using more fully space, be improved
Vibration performance.
It should be noted that the skeleton main body 241 annularly includes in continuous ring-type, as in present embodiment
One overall structure;It also include discontinuous ring-type, i.e., skeleton main body 241 can be multistage interval and the ring-type surrounded jointly.Its mesh
Primarily to the skeleton interconnecting piece 242 is at least made to be connected two-by-two.
Specifically, the skeleton interconnecting piece 242 is equipped with the roof 2421 opposite with vibrating diaphragm 21 and the resilient support assemblies
The side wall 2423 of 23 opposite bottom walls 2422 and the connection roof 2421 and the bottom wall 2422.The roof 2421 and institute
The bottom surface connection of vibrating diaphragm 21 is stated, the side wall 2423 is connect with the side of the voice coil 22, the bottom wall 2422 and the elasticity
Support component 23 connects, to realize 22 resilient suspension of voice coil in 21 lower section of vibrating diaphragm.The i.e. described resilient support group
The frame 1 is fixed in 23 one end of part, and the bottom wall 2422 is fixed in other end support.That is, such as Figure 10 and Figure 11
Shown, the resilient support assemblies 23 are enclosed jointly to be set to form a hollow region 10.The voice coil 22 far from the vibrating diaphragm 21 one
End is located in 10 range of hollow region and forms suspension, so that the voice coil 22 can float up and down without by design limitation.Institute
Magnetic circuit system 3 is stated with magnetic gap 36, one end far from the vibrating diaphragm 21 of the voice coil 22 is inserted in the magnetic gap 36.
Above structure makes the resilient support assemblies 23 are indirect to connect with the voice coil 22, but passes through the support
The realization of skeleton 24 is indirectly connected with.On the one hand the indirect connection structure is realized by the resilient support assemblies 23 to the voice coil 22
Horizontal swing effective inhibition, improve the reliability and stability of the microphone device 100, on the other hand, resilient support group
Part 23 with the voice coil 22 is indirect is connected, release the structure design of the voice coil 22, make the position of voice coil 22 can be along described
The direction of vibration of vibrating diaphragm 21 floats up and down, and 22 height of voice coil is no longer limited by resilient support assemblies 23, to make the acoustical generator
100 whole height of part can design more frivolous;The structure design of the magnetic circuit system 3, the elasticity branch are released simultaneously
Support component 23 is not direct glued with voice coil 22, effectively avoids the interference of magnetic circuit system 3 Yu the resilient support assemblies 23, magnetic circuit
System 3 can realize maximization structure, effectively increase the sounding without the resilient support assemblies 23 of stepping down, magnetic circuit system 3
The acoustical behavior of device 100.
More preferably, the roof 2421 is located at the different two sides of the side wall 2423 with the bottom wall 2422.It is adjacent
Two skeleton interconnecting pieces 242 are spaced apart from each other and surround jointly an accommodating space, can be used for placing magnetic steel structure.
Continuing with shown in ginseng figure Fig. 5-6 and Fig. 9-10, wherein Fig. 9 is the support frame and voice coil of microphone device of the present invention
The schematic perspective view of assembly;Figure 10 is that the resilient support assemblies of microphone device of the present invention and the three-dimensional of support frame assembly are tied
Structure schematic diagram.The skeleton main body 241 can be connect with the vibrating diaphragm 21, can also be not connected to, the skeleton main body 241 can with it is described
Voice coil 22 connects, and can also be not connected to.
In present embodiment, the skeleton main body 241 is connect with the voice coil 22 and the vibrating diaphragm 21 respectively.Specifically,
The skeleton main body 241 includes being connected to the first main body 2411 of the vibrating diaphragm 21, being connected to the second main body of the voice coil 22
2412 and extends from the vibrating diaphragm 21 to 22 direction of voice coil and connect first main body 2411 and second main body 2412
Third main body 2413.The structure makes the skeleton main body 241 that can form a step structure.For example, first main body
2411 are connect by glued mode with the vibrating diaphragm 21 and the voice coil 22 respectively with second main body 2412.The structural strengthening
It is indirectly connected with intensity between the voice coil 22 and the vibrating diaphragm 21, so that the stability of the support frame 24 is more preferable.
And the skeleton interconnecting piece 242 is by the skeleton main body 241 when being extended, the specially described roof 2421 and described the
The connection of one main body 2411, i.e., the described roof 2421 are extended by first main body 2411, are certainly not limited to this, can also be by described
Second main body 2412 or the third main body 2413 extend and feasible.
In present embodiment, the quality specific gravity of the vibrating diaphragm 21 and the voice coil 22 is less than 1:5.Herein substantially, because of institute
Voice coil 22 is stated than heavier, it therefore, may be because described if voice coil 22 is only connected to vibrating diaphragm 21 by the skeleton main body 241
Voice coil 22 is too heavy and influences connective stability, therefore, the side wall 2423 and 22 side phase of voice coil of the skeleton interconnecting piece 242 is arranged
Even, to support voice coil 22, stability is improved.
In present embodiment, more preferably, the skeleton main body 241 falls into institute along the orthographic projection of 21 direction of vibration of vibrating diaphragm
It states on voice coil 22.The structure of skeleton main body 241 described in the structure designs the effective solution voice coil 22 and the vibrating diaphragm 21
Excessive glue influences the problem of oscillation space of the vibrating diaphragm 21 when glued, so that 22 winding displacement of voice coil is more concentrated, acoustical behavior is more excellent.
It should be noted that the skeleton main body 241 falls into the voice coil along the orthographic projection of 21 direction of vibration of vibrating diaphragm
On 22, skeleton main body 241 and voice coil 22 are least partially overlapped.241 range of skeleton main body be can be understood as greater than the sound
The range of circle 22, that is, extend beyond the range of the voice coil 22, it is understood that is less than for 241 range of skeleton main body described
The range of voice coil 22;It can certainly be that the range that the two surrounds is equal.It is preferred that 241 range of skeleton main body is less than the sound
The range of circle 22.
In addition, the skeleton main body 241 is an integral molding structure with the skeleton interconnecting piece 242 in present embodiment.More
Excellent, the skeleton main body 241 is that metal material is made with the skeleton interconnecting piece 242, and the two is integrated through the stamping process
Molding.Certainly, the skeleton main body 241 and the skeleton interconnecting piece 242 can also be separate structure.
The structure makes the support frame 24 be integral structure, and the microphone device 100 on the one hand can be effectively suppressed
The lateral oscillation of the voice coil 22 under working condition improves stability;On the other hand, the resilient support assemblies 23 pass through skeleton
Interconnecting piece 242 is not direct glued with voice coil 22, effectively avoids the interference of magnetic circuit system 3 Yu the resilient support assemblies 23, can
Maximize magnetic circuit system 3, high degree improves the acoustical behavior of the microphone device 100.
Incorporated by reference to shown in Figure 11-13, wherein Figure 11 is that the stereochemical structure of the resilient support assemblies of microphone device of the present invention is shown
It is intended to;Figure 12 is the stereochemical structure decomposing schematic representation of the resilient support assemblies of microphone device of the present invention;Figure 13 is sounding of the present invention
The resilient support assemblies of device and the second secondary alinco assembled schematic diagram.The quantity of the resilient support assemblies 23 can be with the skeleton
242 quantity of interconnecting piece is correspondingly arranged, and can also support multiple skeleton interconnecting pieces 242 for the resilient support assemblies 23.
In present embodiment, the resilient support assemblies 23 include two and are located at the opposite sides of the voice coil 22.More preferably,
Two resilient support assemblies 23 are located at the short axle opposite sides of the voice coil 22.
Please in combination with shown in Fig. 6, each resilient support assemblies 23 are including elastic component 231 and are attached at the bullet
The auxiliary vibrating diaphragm 232 of property part 231.The skeleton interconnecting piece 242 is fixed on the separate auxiliary vibrating diaphragm of the elastic component 231
232 side.
Specifically, the elastic component 231 includes being fixed on the first of the frame 1 to fix please in combination with shown in Figure 10
Arm 2311, support is fixed on two the second fixed arms 2312 of the two neighboring skeleton interconnecting piece 242 and by described respectively
Two elastic arms 2313 that first fixed arm 2311 extends and forms a fixed connection to two second fixed arms 2312 respectively.
In present embodiment, the elastic component 231 is flexible circuit board, and the voice coil 22 is electrically connected with the elastic component 231
It connects.On the one hand for providing the support to the voice coil 22, external electric signal on the other hand is introduced for the voice coil 22, is avoided
It is the problem of being easy broken string when the voice coil 22 introduces external electric signal, to improve its reliability by lead.
The auxiliary vibrating diaphragm 232 includes the ring 2321 of the arc-shaped structure in cross section, by opposite the two of the ring 2321
The first connecting portion 2322 and second connecting portion 2323 that side each extends over, it is solid that the first connecting portion 2322 is fixed on described first
The side far from the support frame 24 of fixed arm 2311, the second connecting portion 2323 are fixed on second fixed arm 2312
The side far from the support frame 24, and be oppositely arranged the ring 2321 with the elastic arm 2313.
And the bottom wall 2422 of the skeleton interconnecting piece 242 is supported in second fixed arm 2312, to form institute
State the connection of support frame 24 Yu the resilient support assemblies 23.The i.e. described bottom wall 2422 is connected to the elastic component 231.
In addition to this, the bottom wall 2422 of described-skeleton interconnecting piece 242 also can connect in the second connecting portion
2323, i.e., the described bottom wall 2422 is connected to the auxiliary vibrating diaphragm 232.Or the bottom wall of described-skeleton interconnecting piece 242
2422 sandwicheds are fixed between second fixed arm 2312 and the second connecting portion 2323, i.e., the described bottom wall 2422 is fixed on
Between the elastic component 231 and the auxiliary vibrating diaphragm 232.It is all feasible through these upper fixed forms.
Because the skeleton interconnecting piece 242 is located at the position of four fillets of the voice coil 22, and the resilient support assemblies
23 include two and are located at the opposite sides of the voice coil 22, at this point, the long axis two sides of the voice coil 22 then can sufficiently be used
In design magnetic steel structure, to increase the volume of the magnetic circuit system 3 to improve its magnetic field performance.
Specifically, the magnetic circuit system 3 includes magnetic yoke 31, is fixed on the magnetic yoke 31 continuing with combining shown in Fig. 2-4
It main magnet steel 32 and is respectively separated and is set to 32 opposite sides of main magnet steel and forms the magnetic gap with the main magnet steel 32
The secondary magnet steel 33 of two first of 36.Each described first secondary magnet steel 33 is between the two neighboring resilient support assemblies 23.
For example, the voice coil 22 is in rectangular configuration with rounded corners, two the described first secondary magnet steel 33 are located at the voice coil 2
Long axis two sides, two resilient support assemblies 23 are located at the short axle two sides of the voice coil 22.At this point, the magnetic circuit system 3 is
Form the magnetic structure of three magnet steel.The more single magnetic steel magnetic circuit structure of its driveability is stronger.
It should be noted that two first secondary magnet steel 33 can also respectively with two 23 positions of resilient support assemblies
It is identical, the short axle two sides of the voice coil 22 are respectively positioned on, this is also feasible.In order to further efficiently use space, described in reinforcement
The volume of magnetic circuit system 3, in present embodiment, the magnetic circuit system 3 further includes being respectively separated that be set to the main magnet steel 32 another
The secondary magnet steel 34 of two second of outer opposite sides.That is, two the described first secondary magnet steel 33 and two the described second secondary magnetic
Steel 34 is located at the long axis two sides and short axle two sides of the voice coil 22, or be located at the voice coil 22 short axle two sides and
Long axis two sides, to form five magnetic steel magnetic circuit structures.
In present embodiment, when for five magnetic steel magnetic circuit structures, the voice coil 22 is rectangular configuration with rounded corners, two institutes
The long axis two sides that the first secondary magnet steel 33 is located at the voice coil 22 are stated, two the described second secondary magnet steel 34 are located at the voice coil 22
Short axle two sides, two resilient support assemblies 23 are located at the short axle two sides of the voice coil 22, and each described second
Secondary magnet steel 34 is particularly located at the same elasticity between the resilient support assemblies 23 and the voice coil 22 ipsilateral with it
Between second fixed arm 2312 of two of support component 23, i.e., what the two neighboring skeleton interconnecting piece 242 surrounded jointly
In accommodating space.At this point, the magnetic circuit system 3 is the magnetic structure for forming five magnet steel, driveability is stronger, so that the hair
The vibrating effect of acoustic device 100 is more excellent.
It should be noted that the second secondary magnet steel 34 in order to need to avoid while making full use of space as far as possible again and
The interference of resilient support assemblies 23 and support frame 24, in present embodiment, the described second secondary magnet steel 34 includes magnet steel ontology 341
The magnet steel reinforcement part 342 formed is each extended over the both ends by the magnet steel ontology 341, each magnet steel reinforcement part 342 divides
It does not extend between the skeleton interconnecting piece 242 and the voice coil 22.
In addition, as shown in FIG. 12 and 13, the auxiliary vibrating diaphragm 232 equipped with from its close to a side of voice coil 22 to the basin
The recessing groove 2324 of 1 direction of frame recess, the magnet steel ontology 341 extend in the recessing groove 2324.It is also to the greatest extent
The volume design of the described second secondary magnet steel 34 may be made bigger, to improve vibration performance.
Certainly, when the magnetic circuit system 3 is three magnetic steel magnetic circuit structure comprising two secondary magnet steel can also be upper
State the structure of two second secondary magnet steel 34 in five magnetic steel magnetic circuit structures.
In order to make the magnetic line of force of the magnetic circuit system 3 is as much as possible to be cut by the voice coil 22, to form bigger drive
Power, the magnetic circuit system 3 further include upper clamp plate 35, and the upper clamp plate 35 includes the fixed ring annular in shape for being fixed on frame 1
351 and extended respectively to two first secondary magnet steel 33 and two the described second secondary magnet steel 34 from the fixed ring 351 four
A pole piece 352, four pole pieces 352 are stacked at two the described first secondary magnet steel 33 and two the described second secondary magnet steel respectively
34.And the pole piece 352 is matched with the shape of corresponding described first secondary magnet steel 33 or the second secondary magnet steel 34 respectively.It is described
When magnetic circuit system 3 is three magnetic steel magnetic circuit structure, the pole piece 352 is then two.
Compared with prior art, in microphone device of the invention, the voice coil and the vibrating diaphragm and the voice coil and institute
Resilient support assemblies are stated as interval setting, includes skeleton main body annular in shape and from the skeleton main body to extension by being arranged
The support frame for at least two skeleton interconnecting pieces stretched makes the skeleton main body between the vibrating diaphragm and the voice coil, institute
State skeleton interconnecting piece to by the voice coil resilient suspension below the vibrating diaphragm, the roof of the skeleton interconnecting piece and institute
State vibrating diaphragm bottom surface connection, its side wall connect with the side of the voice coil, bottom wall is connect with the resilient support assemblies.I.e. should
Structure makes the resilient support assemblies be indirectly coupled to the voice coil by the support frame, on the one hand realizes to the sound
The inhibition of horizontal swing when circle vibration, improves its stability;On the other hand it is straight with voice coil the resilient support assemblies to be eliminated
To the limitation of voice coil when connecing in succession, voice coil height is no longer limited by resilient support assemblies, and microphone device whole height can design
It is more frivolous;The limitation of the design to magnetic circuit system is eliminated simultaneously, and resilient support assemblies are not direct glued with voice coil, magnetic circuit
System is without resilient support assemblies of stepping down, and magnetic circuit system can realize maximized more three magnetic circuits of magnet steel or five magnetic structures, effectively
Improve the acoustical behavior of the microphone device.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills
Art field, is included within the scope of the present invention.
Claims (24)
1. a kind of microphone device comprising frame and be individually fixed in the vibrational system of the frame and the magnetic circuit with magnetic gap
System;The vibrational system includes the vibrating diaphragm for being fixed on the frame, is inserted in the magnetic gap and drives the diaphragm oscillations
The voice coil of sounding and it is fixed on the frame and resilient support assemblies opposite and spaced with the vibrating diaphragm, feature exist
In the vibrational system further includes support frame, and the support frame includes skeleton main body annular in shape and by the skeleton
The outwardly extending at least two skeletons interconnecting piece of main body;The skeleton main body is described between the vibrating diaphragm and the voice coil
Skeleton interconnecting piece to by the voice coil resilient suspension below the vibrating diaphragm;The skeleton interconnecting piece is equipped with opposite with vibrating diaphragm
The side wall of roof, the bottom wall opposite with the resilient support assemblies and the connection roof and the bottom wall, the roof and
The vibrating diaphragm connection, the side wall are connect with the side of the voice coil, and the bottom wall is connect with the resilient support assemblies.
2. microphone device according to claim 1, which is characterized in that the resilient support assemblies are enclosed jointly to be set to be formed in one
Empty region, the voice coil are located within the scope of the hollow region far from one end of the vibrating diaphragm.
3. microphone device according to claim 1, which is characterized in that the roof and the bottom wall are located at the side
The different two sides of wall.
4. microphone device according to claim 1, which is characterized in that the two neighboring skeleton interconnecting piece is spaced apart from each other simultaneously
An accommodating space is surrounded jointly.
5. microphone device according to claim 1, which is characterized in that the skeleton main body includes being connected to the vibrating diaphragm
First main body, the second main body for being connected to the voice coil and extend from the vibrating diaphragm to voice coil direction and to connect described first main
The third main body of body and second main body.
6. microphone device according to claim 5, which is characterized in that the skeleton main body is along the diaphragm oscillations direction
Orthographic projection is fallen on the voice coil.
7. microphone device according to claim 1, which is characterized in that the skeleton main body is one with the skeleton interconnecting piece
Forming structure.
8. microphone device according to claim 7, which is characterized in that the skeleton main body is with the skeleton interconnecting piece
Metal material is made, and the two is integrally formed through the stamping process.
9. microphone device according to claim 1, which is characterized in that the skeleton main body is point with the skeleton interconnecting piece
Body structure.
10. microphone device according to claim 1, which is characterized in that the skeleton interconnecting piece includes between four and difference
Every setting, skeleton interconnecting piece described in every two is one group and by skeleton main body connection.
11. microphone device according to claim 10, which is characterized in that the voice coil be in rectangular configuration with rounded corners, four
A skeleton interconnecting piece is located at the position of four fillets of the voice coil.
12. microphone device according to claim 1, which is characterized in that the resilient support assemblies include two and difference
Positioned at the opposite sides of the voice coil, each resilient support assemblies include elastic component and are attached at the auxiliary of the elastic component
Help vibrating diaphragm;The skeleton interconnecting piece is fixed on the side far from the auxiliary vibrating diaphragm of the elastic component.
13. microphone device according to claim 12, which is characterized in that the elastic component includes being fixed on the frame
First fixed arm, support is fixed on two the second fixed arms of the two neighboring skeleton interconnecting piece and by described first respectively
Two elastic arms that fixed arm extends and forms a fixed connection to two second fixed arms respectively;The auxiliary vibrating diaphragm includes cross
The ring of the arc-shaped structure in section, the first connecting portion and second connecting portion each extended over by the opposite sides of the ring, institute
The side far from the support frame that first connecting portion is fixed on first fixed arm is stated, the second connecting portion is fixed on
The side far from the support frame of second fixed arm, and it is oppositely arranged the ring with the elastic arm;The bottom
Wall is supported in second fixed arm.
14. microphone device according to claim 12, which is characterized in that the elastic component includes being fixed on the frame
First fixed arm, support is fixed on two the second fixed arms of the two neighboring skeleton interconnecting piece and by described first respectively
Two elastic arms that fixed arm extends and forms a fixed connection to two second fixed arms respectively;The auxiliary vibrating diaphragm includes cross
The ring of the arc-shaped structure in section, the first connecting portion and second connecting portion each extended over by the opposite sides of the ring, institute
The side far from the support frame that first connecting portion is fixed on first fixed arm is stated, the second connecting portion is fixed on
The side far from the support frame of second fixed arm, and it is oppositely arranged the ring with the elastic arm;The bottom
Wall is connected to the second connecting portion.
15. microphone device according to claim 12, which is characterized in that the elastic component includes being fixed on the frame
First fixed arm, support is fixed on two the second fixed arms of the two neighboring skeleton interconnecting piece and by described first respectively
Two elastic arms that fixed arm extends and forms a fixed connection to two second fixed arms respectively;The auxiliary vibrating diaphragm includes cross
The ring of the arc-shaped structure in section, the first connecting portion and second connecting portion each extended over by the opposite sides of the ring, institute
The side far from the support frame that first connecting portion is fixed on first fixed arm is stated, the second connecting portion is fixed on
The side far from the support frame of second fixed arm, and it is oppositely arranged the ring with the elastic arm;The bottom
Wall sandwiched is fixed between second fixed arm and the second connecting portion.
16. microphone device according to claim 12, which is characterized in that the elastic component is flexible circuit board, the sound
Circle is electrically connected with the elastic component.
17. microphone device described in 3~15 any one according to claim 1, which is characterized in that the magnetic circuit system includes magnetic
Yoke, the main magnet steel for being fixed on the magnetic yoke and being respectively separated be set to the main magnet steel opposite sides and with the main magnet steel shape
At two first secondary magnet steel of the magnetic gap, each described first secondary magnet steel is located between two resilient support assemblies.
18. microphone device according to claim 17, which is characterized in that the voice coil be in rectangular configuration with rounded corners, two
A described first secondary magnet steel is located at the long axis two sides of the voice coil, and two resilient support assemblies are located at the short axle of the voice coil
Two sides.
19. microphone device according to claim 17, which is characterized in that the magnetic circuit system further includes being respectively separated setting
In two second secondary magnet steel of the main other opposite sides of magnet steel.
20. microphone device according to claim 19, which is characterized in that the voice coil be in rectangular configuration with rounded corners, two
A described first secondary magnet steel is located at the long axis two sides of the voice coil, and two resilient support assemblies are located at the short axle of the voice coil
Two sides, two the described second secondary magnet steel are located at the short axle two sides of the voice coil, and each described second secondary magnet steel is located at same institute
It states between two second fixed arms of resilient support assemblies.
21. microphone device according to claim 20, which is characterized in that the second secondary magnet steel include magnet steel ontology and by
The both ends of the magnet steel ontology each extend over the magnet steel reinforcement part to be formed, and each magnet steel reinforcement part extends respectively to an institute
It states between skeleton interconnecting piece and the voice coil.
22. microphone device according to claim 21, which is characterized in that the auxiliary vibrating diaphragm is equipped with by it close to voice coil
The recessing groove that one side is recessed to the frame direction, the magnet steel ontology extend in the recessing groove.
23. microphone device according to claim 22, which is characterized in that the magnetic circuit system further includes upper clamp plate, described
Upper clamp plate includes being fixed on the fixed ring annular in shape of frame and from the fixed ring respectively to the described first secondary magnet steel and described
Four pole pieces that second secondary magnet steel extends, four pole pieces are stacked at the described first secondary magnet steel and the second secondary magnetic respectively
Steel, and the pole piece is matched with the shape of corresponding described first secondary magnet steel or the second secondary magnet steel respectively.
24. microphone device according to claim 1, which is characterized in that the quality specific gravity of the vibrating diaphragm and the voice coil is small
In 1:5.
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