WO2020038230A1 - 柱形扬声器及音箱设备 - Google Patents
柱形扬声器及音箱设备 Download PDFInfo
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- WO2020038230A1 WO2020038230A1 PCT/CN2019/099450 CN2019099450W WO2020038230A1 WO 2020038230 A1 WO2020038230 A1 WO 2020038230A1 CN 2019099450 W CN2019099450 W CN 2019099450W WO 2020038230 A1 WO2020038230 A1 WO 2020038230A1
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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
- H04R9/06—Loudspeakers
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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
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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
- H04R2400/00—Loudspeakers
- H04R2400/11—Aspects regarding the frame of loudspeaker transducers
Definitions
- the invention belongs to the technical field of electroacoustic products, and particularly relates to a cylindrical speaker and a sound box device.
- the middle and tweeters are mainly divided into dome type, (aluminum) band type, Haier type (pneumatic tweeter), piezoelectric type or electrostatic type.
- dome type aluminum band type
- Haier type pneumatic tweeter
- piezoelectric type electrostatic type.
- Hemispherical dome tweeter It belongs to the most common type of electric loudspeaker, which uses the voice coil to induce magnetic force to push the dome diaphragm to radiate sound. Since the voice coil itself is an inductive element, it has inductive reactance to high frequencies, and its weight is greater than that of the metal circuit of the flexible circuit board, so it is difficult to emit high frequencies above 20KHz, but it can dive better in the middle and low frequencies. This is mainly because the mechanical motion of the voice coil in the magnetic gap is a linear piston motion. The response of the dome diaphragm material to the voice coil dynamics is completely different, and the selectivity is very large, but the relatively high quality diaphragm needs to pay an expensive price.
- the beryllium film and diamond film are particularly expensive speakers. Even with such a diaphragm, it is still difficult to achieve the best quality due to the limitations of the voice coil itself.
- the wave front of the hemisphere top is a spherical wave, and the sound source formed by it is a point sound source.
- Band tweeter There are two main types of diaphragms, one is a very thin and pure aluminum foil suspended between two magnets with opposite polarities; the other is a particularly thin and flexible flexible circuit board (FPC) That is, a metal circuit (usually aluminum) is printed on a kind of film (Polyimide film). These two types of diaphragms and voice coils (circuits) have the same structure, and generally need a special transformer.
- One of the advantages of this speaker is that the upper limit of the high frequency can be higher than the treble of the dome.
- the other is that the characteristic of the wave front is plane wave, which also makes the sound quality low in some cases; but the disadvantage is the diaphragm size and quality. The effect on frequency is large, the frequency band is not wide enough, and the resonance frequency is difficult to achieve below 2000Hz; because the band tweeter front is a plane wave, the horizontal directivity is very narrow, which is not as good as that of a hemisphere top.
- Pneumatic tweeter It is a special band-type tweeter such as a magnet. It is also made of a very thin film (PI) material with a metal circuit printed on it. The diaphragm and voice coil are also the same body. The difference between the tweeters is that the diaphragms are made into folds in the transverse direction, and the adjacent diaphragm folds are squeezed laterally and eject the airflow to radiate sound waves. Its high frequency upper limit is also similar to the band tweeter, and the bandwidth is worse than the band tweeter but not as good as the dome tweeter. Due to its special diaphragm fold structure, it does not directly radiate sound waves forward, but squeezes laterally and ejects airflow radiation sound waves.
- This method has two main disadvantages. One is that the jet airflow will generate air vortex and form additional The second is that the acoustic waves are in the state of lateral squeezing and collision, which causes phase distortion when colliding with the same wavelength of acoustic waves, and harmonic distortion will occur when the integer harmonics collide. Its horizontal directivity is slightly better than the band treble and hemispheric treble due to the diffusion of the folds.
- all the speakers listed above have a common disadvantage, that is, off-axis directivity. They almost radiate sound waves directly in front of the speaker, and diffuse radiation when the included angle is greater than 120 ° (plus or minus 60 °). The level will sharply deteriorate, and can not achieve uniform radiation of 180 ° ⁇ 360 °.
- some band tweeters and high-grade electrostatic tweeters are dipole 8-shaped, the back side can also radiate sound, but the use value is not high, mainly because the front and back sound waves are inverted and the phase is 180 °.
- the object of the present invention is to solve at least one of the problems mentioned above, and the object is achieved by the following technical solutions.
- the present invention provides a cylindrical speaker, which includes a cover body, and an upper cover and a lower cover provided at both ends of the cover body.
- An accommodation space is formed between the cover body, the upper cover, and the lower cover.
- the cylindrical speaker further includes a connecting portion and a sound emitting portion provided in the accommodating space, and the connecting portion is provided at a center of the accommodating space and is connected to the upper cover and the lower cover.
- a sound emitting portion is provided between the cover body and the connecting portion.
- the sound emitting portion includes a diaphragm assembly and a plurality of engine components.
- the plurality of engine components are distributed in a ring shape on the outer peripheral surface of the connecting portion.
- the diaphragm is disposed between the engine component and the cover, wherein an acoustic radiation angle formed by the diaphragm component and a plurality of the engine components is greater than or equal to 180 °.
- the connecting portion is an N-hedron cylindrical structure, where N is 4 or more, and the engine component and the diaphragm component can cover N-1 provided on the connecting portion. On the sides.
- the engine assembly includes a magnet and a magnetic conductive plate
- the magnetic conductive plate includes a bottom plate portion and two side plate portions
- the bottom plate portion is in contact with a surface of the connection portion.
- the two side plate portions are disposed in a direction parallel to the central axis direction of the connecting portion and are perpendicular to the bottom plate portion.
- At least one of the magnets is provided in the magnetically permeable plate, an end surface of one end of the magnet is spaced from the diaphragm, and an end surface of the other end of the magnet is connected to the The bottom plate portion is attached, a magnetic pole surface is formed between an end surface of the side plate portion and an end surface of the one end of the magnet, and a plurality of the magnetic pole surfaces form a multi-stage engine array system.
- any one of the magnetic pole faces is a plane
- the diaphragm components corresponding to the magnetic pole faces in different planes can form plane waves that diffuse in different directions when vibrating, so The plane waves can be coupled to each other to form a multi-pole coupled plane wave.
- the tuning layer can be provided on any one of the plurality of sub-circuit boards, the flexible circuit board includes a base layer and a metal layer, and the metal layer includes at least one group A conductive circuit, and the tuning layer can be attached to a conductive circuit of a metal layer of any one of the plurality of sub-circuit boards.
- the same type of the tuning layer is provided on the same group of the conductive circuits.
- the tuning layer is a rectangular plate.
- the tuning layer is spray-painted ink.
- the present invention also provides a speaker device, which includes the cylindrical speaker described above.
- the tuning layer is attached to the flexible circuit board, and when used in the treble part of a tweeter or a midrange tweeter, the stray of the flexible circuit board can be effectively suppressed Vibration reduces the generation of noise; when used in the midrange part of a midrange speaker or a midrange and treble speaker, it can effectively increase the rigidity of the flexible circuit board and bring it closer to the piston motion mode.
- the superposition of multiple engines can work together to improve the efficiency of the speaker, double the resolution of the speaker, increase the bandwidth and dynamics of the speaker, and reduce speaker distortion.
- FIG. 1 is an exploded perspective view of the overall structure of an embodiment of the present invention
- FIG. 2 is a schematic diagram of the overall structure of the embodiment in FIG. 1;
- FIG. 2 is a schematic diagram of the overall structure of the embodiment in FIG. 1;
- FIG. 3 is a schematic diagram of the internal structure of the embodiment in FIG. 1;
- FIG. 4 is a schematic diagram of a magnetic circuit distribution of an engine assembly provided with a single magnet
- FIG. 5 is a schematic diagram of a magnetic circuit distribution of an engine assembly provided with a plurality of magnets
- FIG. 6 is a schematic diagram of a sound wave diffusion angle of the cylindrical speaker in this embodiment.
- FIG. 7 is a schematic diagram of an internal structure of a cylindrical speaker provided with three pole surfaces
- FIG. 8 is a schematic diagram of a sound wave diffusion angle of the cylindrical speaker provided with three polar surfaces in FIG. 7;
- FIG. 9 is a schematic structural diagram of a diaphragm assembly according to the embodiment shown in FIG. 1;
- FIG. 10 is an exploded schematic view of the overall structure of the diaphragm assembly in FIG. 9;
- FIG. 11 is a schematic structural diagram of a flexible circuit board of the diaphragm assembly in FIG. 9;
- FIG. 13 is a schematic structural diagram of a diaphragm assembly in another embodiment
- FIG. 15 is a schematic diagram of the overall structure of a speaker device provided with the tripolar cylindrical speaker in FIG. 7;
- 16 is a schematic diagram of Fourier transform analysis of a multi-pole engine array system according to an embodiment of the present invention.
- FIG. 17 is a schematic diagram of Shannon formula analysis of a multi-pole engine array system according to an embodiment of the present invention.
- FIG. 18 is a schematic diagram of an equivalent circuit model of a multi-pole engine array system according to an embodiment of the present invention.
- connection section 40: connection section
- 70 diaphragm assembly
- 71 flexible circuit board
- 711 base layer
- 712 metal layer
- 72 tuning layer
- 721 rectangular plate
- 722 spray ink
- 73 PCB support back plate
- 731 support portion
- 732 Fixed part
- 200 cabinet, 210: woofer;
- FIG. 1 is an exploded perspective view of the overall structure of the embodiment of the present invention.
- FIG. 2 is a schematic diagram of the overall structure of the embodiment in FIG. 1.
- FIG. 3 is a schematic diagram of the internal structure of the embodiment in FIG. 1.
- the cylindrical speaker 100 in this embodiment includes a cover body 10, and an upper cover 20 and a lower cover 30 provided at both ends of the cover body 10.
- a housing space is formed between the cover 10, the upper cover 20 and the lower cover 30.
- the cylindrical speaker 100 further includes a connecting portion 40 and a sounding portion provided in the housing space.
- the connecting portion 40 is provided at the center of the housing space and communicates with the upper cover.
- the sound emitting portion includes a diaphragm assembly 70 and a plurality of engine components, and the plurality of engine components are arranged in a ring shape on the outer peripheral surface of the connecting portion 40.
- the diaphragm assembly 70 is disposed between the engine assembly and the cover 10, wherein the sound radiation angle formed by the diaphragm assembly 70 and the multiple engine assemblies is 180 ° or more.
- the connecting portion 40 is a hexahedral columnar structure, any surface is a rectangular surface, and an included angle between any two connected side surfaces is greater than or equal to 120 °.
- a back plate fixing portion is provided on one of the six side surfaces of the connection portion 40.
- a cover 10 having a waveguide function is provided with a back plate 90 corresponding to the side of the connection portion, and screws are provided on the back plate 90
- the back plate 90 is provided with a lead interface 91.
- the connection portion 40 is connected to the back plate 90 by a fixing bolt 92 so as to be relatively fixed to the cover body 10.
- the top and bottom of the connecting portion 40 are provided with bolt holes, and the top and bottom of the connecting portion 40 are connected to the upper cover 20 and the lower cover 30 by axial connection bolts 80 respectively, and the cover body 10 is fixed between the upper cover 20 and the lower cover 30. Therefore, the connecting portion 40 is fixedly disposed in the accommodating space composed of the upper cover 20, the lower cover 30 and the cover body 10.
- the sound emitting portion is provided between the remaining five sides of the connecting portion 40 and the cover 10, and includes an engine assembly and a diaphragm assembly 70.
- the engine assembly includes a magnet 60 and a magnetically permeable plate 50.
- the magnetically permeable plate 50 includes a bottom plate portion 51 and two side plate portions 52. The bottom plate portion 51 and the surface of the connection portion 40 are disposed in close contact with each other. A direction parallel to the central axis direction of the connection portion 40 is provided and is perpendicular to the bottom plate portion 51.
- At least one magnet 60 is provided in the magnetically permeable plate 50. The end surface of one end of the magnet 60 is spaced apart from the inner surface of the diaphragm assembly 70 at a certain distance and is correspondingly arranged.
- a magnetic pole surface is formed between an end surface of the plate portion 52 and one end surface of the magnet 60, and a plurality of magnetic pole surfaces form a multi-stage engine array system.
- the magnet 60 can form two sets of magnetic circuits 61 with the magnetically permeable plate 50.
- the N magnets 60 can communicate with the magnetically permeable The plate 50 forms an N + 1 group of magnetic circuits 61.
- the magnetically permeable plate 50 includes a rectangular bottom plate portion 51 provided in a direction parallel to the central axis of the connection portion 40 and in contact with the surface of the connection portion 40, and a rectangular bottom plate portion 51 parallel to the central axis of the connection portion 40 and perpendicular to the bottom plate portion. 51 ⁇ Two side plate portions 52 are provided. A recessed structure for storing the magnet 60 is formed between the bottom plate portion 51 and the two side plate portions 52, and the surface of the connection portion 40 is provided with the same number of groove structures as the number of the magnetically conductive plates 50 for accommodating the magnetically conductive plates 50. The included angle between any two adjacent magnetically permeable plates 50 is 120 °.
- the five magnetically permeable plates 50 are respectively provided on the five sides of the sounding part, and the diaphragm assembly 70 is provided on the five magnetically permeable plates 50 and the magnet.
- the end face formed by 60 further constitutes five pole faces of the speaker, and three magnets 60 are provided between any one of the magnetically permeable plate 50 and the diaphragm assembly 70.
- each pole surface is a quadrilateral plane, and its wave-oscillating surface is a plane wave, a plurality of pole surfaces are surrounded in a closed form to form a multi-pole coupled plane wave.
- Multi-pole planes can achieve 360 ° or a settable angle space to control the power to radiate sound waves in a multi-pole manner with different angles, thereby achieving complete spatial distribution and diffusion capabilities.
- the height and diameter of the cylindrical speaker 100 and the specific width of each pole surface are designed according to the specific dimensions of the speaker equipment, and a cylindrical wave of a specific size is formed, thereby forming a linear sound source.
- the magnetically permeable plate 50 has two functions. One of them is to form a magnetic circuit together with the magnet 60. As shown in Fig. 4, the dotted line in the figure indicates the magnetic circuit, and the direction of the arrow is the direction of the magnetic field. If a single magnet 60 is provided in the magnetically permeable plate 50, the magnetically permeable plate 50 guides the magnetic poles on the back side of the magnet 60 to the edges to the edges and the magnetic poles on the front side of the magnet 60 to form two sets of magnetic circuits 61. As shown in FIG.
- the magnetically permeable plate 50 guides the magnetic poles on the back of the two outermost magnets 60 to the edges and the magnetic poles on the front side of the magnet 60 to form the total magnet 60.
- the second is to enhance the magnetic force and magnetic shielding. Because the semi-enclosed structure of the magnetically permeable plate 50 can prevent the interference of magnetic leakage and stray magnetic fields, the structure of the magnetically permeable plate 50 is stronger than the magnetic force of the magnet 60 itself.
- the pole surface of such a multi-pole cylindrical speaker 100 is usually greater than or equal to 3, and the width of each pole surface can be completely equal or unequal, depending on the horizontal diffusion angle, the layout of the magnet, and the specifics of the speaker equipment. Assembly size and shape requirements.
- the shape of the final speaker can be any form of a cylindrical structure (that is, it can be a rectangular or polygonal cylinder, or a cylindrical or elliptical cylinder).
- the horizontal diffusion angle can also be designed and manufactured according to the overall requirements of the speaker equipment.
- the structural design in this embodiment can meet the sound diffusion of the speaker in a 360 ° angle range. As shown in FIG. 6, the schematic diagram of the sound wave diffusion angle when the five polar planes are combined into a multi-stage cylindrical speaker.
- FIG. 7 is a schematic diagram of the internal structure of a cylindrical speaker provided with three pole faces.
- the structural design in this embodiment can satisfy the sound diffusion of the speaker in an angle range of 180 °.
- the cover body 10 is provided with a connecting portion 40 having four sides, one side of the connecting portion 40 is connected to the back plate 90 on the cover body 10 by a fixing bolt 92, and the remaining three sides are provided with magnetic conductive plates, respectively. 50.
- a magnet 60 provided in the magnetically permeable plate 50 and a diaphragm assembly 70 on the end faces of the two. At least one magnet 60 is provided between the diaphragm assembly 70 and any of the magnetically permeable plates 50.
- FIG. 8 a schematic diagram of the sound wave diffusion angle when three polar plane waves are combined into a multi-stage cylindrical speaker.
- each pole face, the number of pole faces, and the size of the cylindrical cross-sectional diameter of the entire speaker directly determine the three-dimensional size and number of the magnets 60, and also determine the efficiency of the speaker.
- the larger the horizontal size or area of the pole face the larger the space in which the magnet 60 is placed, and the larger the number.
- a single magnet structure or a composite magnet structure of more than two can be used; the number of magnets on each pole face can be equal or different. According to experience, it is generally best to use an odd number of magnets, that is, 1, 3, 5 ..., so that it can be better combined with the magnetically permeable plate 50 to form a magnetic circuit.
- FIG. 9 is a schematic structural diagram of a diaphragm assembly of the embodiment in FIG. 1.
- FIG. 10 is an exploded view of the overall structure of the diaphragm assembly in FIG. 9.
- FIG. 11 is a schematic structural diagram of a flexible circuit board of the diaphragm assembly in FIG. 9.
- the diaphragm assembly 70 in this embodiment includes a flexible circuit board 71, a tuning layer 72, and a PCB support back plate 73.
- the PCB support back plate 73 is provided on the back of the flexible circuit board 71 for attaching and oscillating the diaphragm assembly 70 to the surface of the connection portion 40 including the magnetic circuit and the magnetically permeable plate 50, and the tuning layer 72 is provided on the flexible circuit.
- the front side of the plate 71 is provided on the back of the flexible circuit board 71.
- the PCB support backboard 73 includes support portions 731 provided at the edges of both sides of the flexible circuit board 71 and a fixing portion 732 for dividing the flexible circuit board 71 into a plurality of sub-circuit boards that can be folded.
- the tuning layer 72 can be provided on any one of a plurality of sub-circuit boards.
- the flexible circuit board 71 is divided into a plurality of sub-circuit boards that can be folded, and the angle of each sub-circuit board on the flexible circuit board 71 can be adjusted according to actual needs, so as to meet the assembly of the diaphragm assembly 70.
- the fixing portion 732 can further strengthen the overall strength of the flexible circuit board 71.
- the flexible circuit board 71 is a flexible circuit board (FPC) with an existing structure. It includes a base layer 711 and a metal layer 712.
- the metal layer 712 includes a set of conductive circuits, and the tuning layer 72 can be disposed on the conductive circuits of the metal layer 712 of any one of a plurality of sub-circuit boards.
- the structure of the diaphragm assembly in this embodiment is suitable for a midrange speaker.
- the flexible circuit board 71 is provided with a set of conductive circuits.
- the fixing portion 732 divides the flexible circuit board 71 into five sub-circuit boards arranged side by side, and a tuning layer 72 is provided on the metal layer 712 of each sub-circuit board.
- Each sub-circuit board is provided with eight wires in the length direction, which is equivalent to eight "strings", forty strings in total.
- the PCB support backplane 73 is a PCB frame
- the tuning layer 72 is a rectangular plate 721
- the material of the PCB layer can also be a PCB material.
- the material of the base layer 711 is a polyimide film
- the metal layer 712 is an aluminum foil or a copper foil.
- the rectangular plate 721 is disposed at a middle position of the metal layer 712 of any one of the sub-circuit boards. Among them, the rectangular plate 721, the metal layer 712, and the base layer 711 are sequentially and sequentially attached to each other.
- the specific size and material of the rectangular plate 721 are not fixed, and can be set in advance according to the rigidity requirements of the flexible circuit board 71.
- the target bandwidth, target impedance, and efficiency can be set, and it can even be designed and processed according to subjective sound quality requirements.
- the bandwidth can be set according to the target frequency.
- the structure of the tuning layer 72 in this embodiment using a rectangular plate 721 is applicable to a midrange speaker.
- the metal layer 712 includes a set of conductive circuits.
- a rectangular plate 721 may be provided on each of the multiple sets of conductive circuits, thereby improving the rigidity modulus of the area of the flexible circuit board where the multiple sets of conductive circuits are located, so that the diaphragm is in a piston manner Do linear motion to achieve the ability to expand to lower frequencies.
- FIG. 12 is a schematic structural diagram of a diaphragm assembly in another embodiment.
- the structure of the diaphragm assembly in this embodiment is suitable for a tweeter.
- the flexible circuit board 71 includes a group of conductive circuits, and the tuning layer 72 adopts a structural form of spray ink 722.
- the structural shape of the spray ink 722 can take various forms, such as square or oval, solid or hollow, and its coverage area on the flexible circuit board 71 can suffice to tune the tone color of the tweeter and suppress stray vibration.
- the structure in which the tuning layer 72 in this embodiment adopts the spray ink 722 is applicable to a tweeter.
- the metal layer 712 includes a group of conductive circuits.
- spray ink 722 may be provided on the multiple groups of conductive circuits, thereby effectively suppressing the stray vibration of the flexible circuit board 71 and tuning the subjective tone of the tweeter.
- FIG. 13 is a schematic structural diagram of a diaphragm assembly in another embodiment.
- the structure of the diaphragm assembly in this embodiment is suitable for a high-frequency and middle-range integrated speaker.
- the flexible circuit board 71 is provided with two sets of conductive circuits, one of which corresponds to a high-frequency vibrating membrane, and the other group of conductive circuits corresponds to a mid-frequency vibrating membrane.
- the tuning layer 72 on the conductive circuit of the tweeter membrane adopts the structural form of sprayed ink 722, and the tuning layer 72 on the conductive circuit of the middle tone diaphragm adopts the structural form of a rectangular plate 721.
- the structure of the tuning layer 72 in this embodiment using a combination of sprayed ink 722 and a rectangular plate 721 is applicable to high and midrange speakers, and two sets of conductive circuits are provided on the flexible circuit board 71.
- spraying ink 722 should be provided on all the conductive circuits corresponding to the tweeter.
- a rectangular plate 721 is provided on all conductive circuits to meet the needs of the diaphragm assembly when it is vibrating.
- the treble and middle parts of the diaphragm assembly can also be separated in half and completely disconnected from the middle. It is formed into two independent diaphragms, which are arranged up and down in the axial direction and surround the end face formed by the common connection portion 40 and the magnetically permeable plate 50 and the magnet 60 provided on the connection portion 40.
- the present invention also provides a sound box device including the above-mentioned cylindrical speaker.
- FIG. 14 is a schematic diagram of the overall structure of a speaker device provided with the cylindrical speaker 100 in FIG. 1.
- the structure of the cylindrical speaker 100 in FIG. 1 when adopted, that is, when a speaker with a diffusion angle of 360 ° is used, it cannot be mounted on the baffle at this time, but must be placed in the surrounding without obstruction.
- the baffle position that is, the baffle is installed to meet the needs of sound diffusion angle.
- the top and bottom ends of the speaker device are respectively provided with a woofer 220 provided in the cabinet 210.
- the top and bottom ends of the cabinet 210 are connected through a bracket 300, and the top and bottom ends of the cabinet 210 are connected.
- a cylindrical speaker 100 in FIG. 1 is also provided therebetween, so as to obtain a complete speaker structure, and the sound wave can be diffused within a 360 ° angle range in front of the speaker device.
- FIG. 15 is a schematic diagram of the overall structure of a speaker device provided with the three-pole cylindrical speaker 100 ′ in FIG. 7.
- the three-pole cylindrical speaker 100 ′ structure shown in FIG. 7 when it is adopted, that is, when a speaker with a diffusion angle of 180 ° is used, it can be mounted on the baffle 400, that is, baffle-type installation, or The coaxial mode is formed by mounting a waveguide backplane to the front of the woofer.
- the top and bottom ends of the speaker device are respectively provided with a woofer 220 provided in the cabinet 210.
- the top and bottom ends of the cabinet 210 are connected through the baffle 400 and the bracket 300.
- a tripolar cylindrical speaker 100 ′ shown in FIG. 7 installed on the baffle 400 is also arranged between the top and bottom ends, and the middle and treble can be diffused toward the front of the speaker device within an angle of 180 °.
- the multi-pole cylindrical speaker speaker system uses a multi-pole engine array system and a matching inductive diaphragm to analyze the audio signal at a high magnification, deeply restore dynamic details, and achieve complete diffusion of spatial distribution. , Finally achieve the super-resolution ability of the sound; due to the multi-pole engine array's magnetic circuit structure generated by the multi-pole and other magnetic plane magnetic field can uniformly push the induction diaphragm, no traditional dynamic coil speaker diaphragm from the center of the voice coil connection The distortion and delay caused by the transition to the edge reduces the group delay of the speaker and the response speed is faster.
- the invention is composed of multiple independent engine components through a polar distributed array, which is equivalent to the cooperation of multiple traditional single-engine speakers, that is, the signal of the same channel uses the Fourier transform principle in the frequency domain and time domain fluctuation modes. Multiple superpositions finally complete the electro-mechanical-acoustic conversion process.
- E represents the superposition or multiplication of all engine components of the speaker
- E Represents a single engine component
- n is the number of engine components (polar faces)
- the five independent engine components are in a regular hexagonal array, which drives the different polar surfaces of the diaphragm assembly 70 which is close to it.
- the resolution of 5 engine components from E1 to E5 can be obtained respectively, and the resolution of all engine components can be obtained by superimposing or multiplying 5 different resolutions. It can analyze the audio signals deeply and carefully.
- the direction of sound wave radiation generated by each polar surface drive is different, and multiple sound waves are superimposed or coupled with each other, so that the sound waves can achieve 360 ° omnidirectional radiation diffusion.
- the Shannon formula can be used to analyze the audio analysis of the speaker.
- the terms related to Shannon's information theory and the terms related to acoustics are first analogized.
- An audio channel that can be analogized to a signal, that is, an audio signal (Audio Channel) connected in the speaker's circuit.
- an audio signal Audio Channel
- a traditional speaker only connects to one audio signal and only one channel.
- the multiple engine components of the present invention split the same channel into multiple channels with the same number as the engine component 10.
- Bandwidth It can be analogized to the frequency bandwidth, that is, the difference between the highest frequency and the lowest frequency of the frequency components contained in the signal.
- the bandwidth is proportional to the capacity.
- the unit is Hz, and the formula is H.
- Speed is not equal to speed, but it is proportional to speed.
- the frequency of sound waves is determined by the sound source that produces the sound, and does not change with the medium that transmits the sound. Therefore, the sound waves of different frequencies have different propagation rates in the same medium. The lower the frequency, the larger the wavelength and the greater the rate. The smaller the wavelength, the smaller the rate. In acoustics, the rate is more affected by the low end of the bandwidth.
- Error Probability (Error Rate): Can be equivalent to Distortion Rate.
- the Shannon formula C Hlog2 (1 + S / N) shows that the information capacity C is directly proportional to the channel, bandwidth H, and rate v, but the error probability is inversely proportional to the information capacity C, channel, and bandwidth H, and is directly proportional to the rate v .
- S / N is the signal-to-noise ratio
- S is the signal power (W)
- N is the noise power (W).
- the information capacity C is the maximum transmission capacity of the channel. If the channel's information source rate R is less than or equal to the channel capacity C, then theoretically, the output of the information source can be transmitted through the channel with an arbitrarily small error probability.
- the rate v is equivalent to the ratio of the wavelength to the unit time
- the channel capacity C is equivalent to the bandwidth H
- the error probability is equivalent to the distortion DR.
- the bandwidth H or the rate v may be increased. If the bandwidth H and the rate v increase at the same time or only one, the amount of information passing through the channel must also increase; if the bandwidth H decreases at the same time or only one, the amount of information passing through the channel must also decrease. Since the channel of the multi-pole engine array system of the present invention is a multi-point distributed array mode, when the number of channels is greater than or equal to 2, the overall information amount and the channels are superimposed by the array.
- the channels are shunted into Cn1 to Cn5 Subchannels.
- the analysis of the speaker's audio frequency using Shannon's formula shows that the multi-pole engine array system can drive the diaphragm assembly 70 to form more total information C at the same time, and the total information C and bandwidth H of the speaker can be controlled, which can improve the Speaker's audio resolution and speaker control.
- the total amount of audio information C is allowed to be shunted to the horizontal three-dimensional space pointed by the multiple polar faces of the diaphragm assembly 70.
- the energy release space is centered on the physical location of the speaker itself, and is larger or wider than the conventional single-engine speaker. Under the condition that the bandwidth of the direction perpendicular to each pole surface is not affected, the horizontal pointing angle and efficiency of each pole surface can be controlled.
- the audio frequency analysis of the speaker is analyzed by means of equivalent circuit modeling, and the lumped parameters of electric-force-acoustic are integrated by means of a circuit model to form an equivalent circuit model.
- the mechanical (force) and acoustic (acoustic) parameters can be transformed into electrical (electrical) parameters that are displayed and calculated in the circuit in a reactive manner.
- FIG. 18 a multi-polar engine array system composed of five independent engine components is taken as an example for description.
- R C is the resistance of the induction diaphragm
- L C is the inductance of the induction diaphragm
- GEN is the power source.
- 5 independent engine components are connected to the column speaker 100 through a circuit similar to 5 independent equivalent circuit connections.
- multiple independent equivalent circuit connections can analyze the audio frequency differently and improve the audio frequency. High-resolution analysis of the original audio signal improves speaker performance.
- the present invention also provides a speaker system including the above-mentioned multi-stage cylindrical speaker.
- the wave front of the sound wave radiated in the air by the speaker system is a cylindrical wave, so a pure linear array can be generated. Therefore, the speaker provided by the present invention And speaker system is suitable for linear sound source system.
- the terms “installation”, “connected”, and “connected” should be understood in a broad sense.
- it can be the internal connection of two elements, it can be directly connected, or it can be through an intermediate medium.
- the indirect connection may also be an electrical connection or a signal connection.
- the specific meanings of the above terms may be understood according to specific situations.
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Abstract
Description
Claims (12)
- 一种柱形扬声器,其特征在于,包括罩体以及设于所述罩体的两端的上盖和下盖,所述罩体、所述上盖和所述下盖之间形成容纳空间,所述柱形扬声器还包括设于所述容纳空间内的连接部和发声部,所述连接部设于所述容纳空间的中心处并与所述上盖和所述下盖相连接,所述发声部设于所述罩体和所述连接部之间,所述发声部包括振膜组件和多个引擎组件,多个所述引擎组件成环形分布设于所述连接部的外周面,所述振膜组件设于所述引擎组件和所述罩体之间,其中,所述振膜组件和多个所述引擎组件所形成的声辐射角度大于等于180°。
- 根据权利要求1所述的柱形扬声器,其特征在于,所述连接部为N面体柱形结构,其中N大于等于4,所述引擎组件和所述振膜组件能够覆盖设于所述连接部的N-1个侧面上。
- 根据权利要求2所述的柱形扬声器,其特征在于,由所述引擎组件和所述振膜组件覆盖的所述连接部的N-1个侧面中的任意相邻的两个侧面间的夹角大于等于120°。
- 根据权利要求1-3中任一项所述的柱形扬声器,其特征在于,所述引擎组件包括磁体和导磁板,所述导磁板包括底板部和两个侧板部,所述底板部与所述连接部的表面相贴合设置,所述两个侧板部沿与所述连接部的中轴线方向平行的方向设置并垂直于所述底板部。
- 根据权利要求4所述的柱形扬声器,其特征在于,所述导磁板内设有至少一个所述磁体,所述磁体的一端的端面与所述振膜间隔设置,所述磁体的另一端的端面与所述底板部相贴合,所述侧板部的端面与所述磁体的所述一端的端面间形成磁极面,多个所述磁极面形成多级引擎阵列系统。
- 根据权利要求5所述的柱形扬声器,其特征在于,任意一个所述磁极面均为平面,处于不同平面的所述磁极面对应的所述振膜组件在振动时能够形成沿不同方向扩散的平面波,所述平面波能够相互耦合形成多极耦合平面波。
- 根据权利要求1-3中任一项所述的柱形扬声器,其特征在于,所述振膜包括柔性电路板、调谐层和PCB支撑背板,所述PCB支撑背板设于所述柔性电路板的背面,所述调谐层贴合设于所述柔性电路板的正面,所述PCB支撑背板包括设于所述柔性电路板的两侧边缘位置的支撑部和用于将所述柔性电路板分割成多个能够翻折的子电路板的固定部,所述调谐层能够设于多个所述子电路板中的任意一个所述子电路板上,所述柔性电路板包括基层和金属层,所述金属层包括至少一组导电回路,所述调谐层能够贴合设于多个所述子电路板中的任意一个所述子电路板的金属层的导电回路上。
- 根据权利要求7所述的用于扬声器的振膜组件,其特征在于,同一组所述导电回路上设有同一种所述调谐层。
- 根据权利要求8所述的用于扬声器的振膜组件,其特征在于,所述调谐层为矩形板。
- 根据权利要求8所述的用于扬声器的振膜组件,其特征在于,所述调谐层为喷涂油墨。
- 根据权利要求1-3中任一项所述的柱形扬声器,其特征在于,所述柱形扬声器还包括用于固定所述柱形扬声器的背板,所述背板设于所述罩体上,所述背板上设有引线接口,所述引线接口能够与所述振膜组件上的所述导电回路的输入端和输出端相连接。
- 一种音箱设备,其特征在于,所述音箱设备包括根据权利要求1-11中任一项所述的柱形扬声器。
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EP2257079B1 (en) * | 2006-03-30 | 2012-01-04 | Phonak Ag | Wireless audio signal receiver device for a hearing instrument |
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WO2013100862A2 (en) * | 2011-12-31 | 2013-07-04 | Shihuang Li | Mirror vibration speaker |
CN104853292A (zh) * | 2014-02-14 | 2015-08-19 | 郭宇锋 | 同轴扬声器点矩阵音箱 |
CN204633967U (zh) * | 2015-06-09 | 2015-09-09 | 郭宇锋 | 同轴混合式环绕音箱 |
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