CN110536207A - Bone-conduction device - Google Patents

Abstract

The invention discloses a kind of bone-conduction devices, the bone-conduction device is various types of devices using bone conduction technology, the bone-conduction device contains the osteoacusis module for transmitting sound, the osteoacusis module is equipped with metal material component, and the metal material component in the osteoacusis module is amorphous alloy in whole or in part.The sound timbre that bone-conduction device in the present invention passes out is more preferably, the deflection realized in amorphous alloy deformation process wherein can conduct different acoustical qualities, there is stronger realization space in terms of sound quality, so as to make wearer obtain better level of sound quality by changing, weight other conventional materials of bottom and high pitch etc. need to obtain by the obtainable audio of higher deformation force ability and sound quality using the amorphous alloy of specific system, without changing overall construction design.

Description

Bone-conduction device

Technical field

The present invention relates to a kind of bone-conduction devices.

Background technique

Auditory system is the important sense organ that the mankind receive outer signals.Under normal circumstances, it is generated by sound source vibration Sound wave is passed to inner ear through two approach: first, being transferred to by external auditory canal, eardrum and by the auditory ossicular chain that three pieces of phonophores form Inner ear, the i.e. air transmitted of sound wave, which are the main conduction approach of normal hearing；Second, being directly transferred to by skull Inner ear, i.e. osteoacusis, which act on little under normal physiological status.

The main path that osteoacusis mode transmits sound is that sound through skull vibrates cochlea wall, main conduction mode There is following two:

First, compression bone conduction (Compression Bone Conduction), refers to that vibration passes to cochlea through skull, makes Cochlea wall is expanded and is reduced with the variation of sound wave density phase, to make the inner ear lymph of bulk compressility very little to fenestra cochleae It is mobile with fenestra vestibuli.Because the ratio between the lymph in vestibular canal and tympanic canal is 5:3, and the activity of secondary tympanic membrane is greater than stapedial plate, institute It is intended to when sound wave lean phase bone wall is compressed, lymph flows to tympanic canal in vestibular canal, and basilar memebrane moves down；Sound wave lean phase bone wall expands When, lymph reflux, basilar memebrane moves up.Thus repeatedly lower that basilar memebrane is caused to vibrate, it effectively have stimulated Corti's organ；

Second, translatory mode of bone conduction (Expansion Bone Conduction), refer to sound wave effect when skull, entirely Head includes that cochlea is vibrating.Because lymph is there are inertia, when the displacement of cochlea wall, inner ear lymph it is unique total It is slightly to lag behind the former, and stimulate Corti's organ in counter motion so as to cause basilar memebrane vibration.

In the prior art, bone conduction technology be intensively applied in ossiphone, bone-conduction microphone, osteoacusis mobile phone, In the bone-conduction devices such as bone conduction earphone, especially bone conduction earphone has obtained certain popularization in civil field in recent years.In In investigation in recent years, many research institutions find that the use of traditional In-Ear Headphones causes duration to the crowd hearing of use Crowd's impaired hearing situation of damage, especially long-time service In-Ear Headphones is more serious, uses the earphone of bone conduction technology Since the mode of sound conduction is different, ear will not be caused to damage, be the good substitute of existing In-Ear Headphones.With bone Conduction technique application field is gradually expanded, and the research for bone conduction technology is also increasingly goed deep into and segmented, such as bone The research of conduction speaker structure, distribution application etc. already has certain basis in fields such as earphone, glasses.With osteoacusis The popularization and application of product, the relevant technologies can obtain further research exploitation.

Since bone conduction technology civil nature is not promoted on a large scale, therefore existing bone-conduction device often stops in the market It in the stage of " being able to use ", can guarantee use, also be carried out for a long time although there is some enterprise's needles to be used for quality Research and development, but the technology for capableing of commercial conversion focuses primarily upon in the structure design and the exploitation of new product of bone-conduction device, There is not the development of great-jump-forward.Common used material in bone-conduction device be rubber, plastics and routine metal material or other The versatilities material such as composite material, above-mentioned versatility material property is limited, excellent applied to being difficult to generate in bone-conduction device Acoustic efficiency, keep bone-conduction device very remote with other existing apparatus gaps on acoustic efficiency, especially bone-conduction device pass In the sound passed, more the frequency range of saturation degree is lacked, and causes monotony, using effect is not good enough, it is difficult to the more high-end hair of impact Sound device market, such defect are can not to be improved by the method for structure design.

The part of metal material plays very crucial effect to the conduction of sound wave in bone-conduction device, in the prior art Metal material in bone-conduction device generally preferably uses iron and steel material quality.Selection iron and steel material quality on the one hand be because steel material just It is preferably easy to get, and processing technology is mature, processability is also very excellent, and another aspect iron and steel material quality is hard, long service life, phase More harsh use environment is resistant to compared with plastic material.But find in actual use, steel material is due to anti- Becoming rusty, etch resistant properties are really general, and especially bone-conduction device contacts human skin part (for a long time by sweat, oil in use The environment that rouge corrodes) it is very easy to get rusty, and since density is high and the characteristic of itself, make it difficult for people full in sound quality conduction Meaning, especially for better sound quality is pursued, thus more by the more lengthening of the components such as the vibration-transmitting plate for conducting sound design, volume Greatly.Vibration-transmitting plate conducts different amplitudes according to the frequency that oscillator discharges when oscillator shakes, and steel material is due to itself bullet The limitation of the property limit and elasticity modulus is higher, could often generate required change when needing vibration-transmitting plate to reach biggish power Shape amount, this makes the battery capacity of bone-conduction device and automatically controlled ability require to enhance, and can be only achieved expected acoustical quality, increases The consumption (more high tone quality needs bigger battery) for having added the energy, keeps the weight of bone-conduction device high, not only increases Processing cost, and bone-conduction device overall structure is made to become heavy, the trend with instantly popular lightening electronic product It runs in the opposite direction, can not base oneself upon on the consumer market naturally.

Although steel material has the shortcomings that clearly, substitution is possibly used for due to being studied in the prior art Material comprehensive performance is not as good as steel material, and particularly with regard in light-weighted design, those skilled in the art are in view of light The requirement of thin design is the higher material of density ratio steel material will not to be selected to be replaced, and density is lower than steel material Some materials (such as special plastics, magnesium alloy, aluminium alloy) are unable to reach requirement again from sound quality conduction is upper, so steel material is still It is the first choice of metal parts on bone-conduction device.

Summary of the invention

For overcome the deficiencies in the prior art, it the purpose of the present invention is to provide a kind of bone-conduction device, is able to ascend It conducts sound timbre, reduce overall structure thickness.

The purpose of the present invention adopts the following technical scheme that realization:

Bone-conduction device, the bone-conduction device are various types of devices using bone conduction technology, and the bone passes The metal material component for leading device is all or part of amorphous alloy, it may be assumed that the bone-conduction device contains for transmitting sound Osteoacusis module, the osteoacusis module are equipped with metal material component, and the metal material component in the osteoacusis module is whole Or part is amorphous alloy.

Further, the amorphous alloy is zirconium-base amorphous alloy, rare-earth-base amorphous alloy, cu-based amorphous alloys, titanium-based One or more of amorphous alloy, al based amorphous alloy, magnesium base amorphous alloy.

Further, the amorphous alloy is zirconium-base amorphous alloy, at being grouped into (Zr, Hf) aAlbCuc (Sn, Mg) D (Y, Ag) e, wherein a, b, c, d, e each independently indicate atomic percent, 55≤a≤72,6≤b≤17,16≤c≤24,0 ≤d≤5,0.2≤e≤1；Alternatively, the amorphous alloy is titanium-based amorphous alloy, at being grouped into (Ti, Zr) aCub Sn c (Si, Al, B) d, wherein a, b, c, d each independently indicate atomic percent, 50≤a≤65,20≤b≤35,7≤c≤20,1 ≤ d≤6, wherein Ti atomic percent is higher than 40%.

Further, the amorphous alloy is one or more of following alloy:

Zr62.4Hf2.7Al12Cu20Sn1Mg1.2YAg0.8；

Zr65.7Hf2.5Al11Cu18Sn1Mg1Ag0.8；

Zr70.1Hf1.4Al10Cu16.2Sn1Mg1Ag0.3；

Zr64.3Hf1.8Al13.2Cu17SnMg3Y0.3Ag0.4；

Ti58Zr2Cu25Sn10Si0.8Al4B0.2；

Ti54Zr4Cu30Sn7Si1Al4；

Ti59.3Zr2Cu25Sn11Al2B0.7；

Ti62.5Zr0.5Cu25Sn8Si1Al2.7B0.3。

Further, the osteoacusis module is piezoelectric bone conduction device or electromagnetic bone conduction device；

Metal material component in the piezoelectric bone conduction device is metal substrate in piezoelectric vibrator, connects with human body One or more of the conductive material at place, the shell structure for protecting piezoelectric vibrator；

Metal material component in the electromagnetic bone conduction device be bone conduction vibrator, bone conduction vibrator fixed structure, With one or more of the conductive material of human body joint, the shell structure for protecting bone conduction vibrator.

Further, the metal material component in the osteoacusis module is skeleton structure either internally or externally, outside One or more of shell structure or connection structure.

Further, in the metal material component in the osteoacusis module amorphous alloy according to volume accounting, greatly In or equal to integral metal material component 10%.

Further, in the metal material component in the osteoacusis module amorphous alloy according to volume accounting, greatly In or equal to integral metal material component 30%.

Further, the bone-conduction device be bone-conduction microphone or osteoacusis glasses or osteoacusis mobile phone or Ossiphone.

Compared with prior art, the beneficial effects of the present invention are:

1, the sound timbre that passes out of bone-conduction device in the present invention more preferably, due to amorphous alloy and conventional metal material Material compares, and has high-intensitive, lower elasticity modulus and higher elastic limit, and device sound quality can be made lesser in needs Corresponding deflection may be implemented in the case where conducting in power, so that wearer be made to obtain corresponding sound conduction, saves the energy, In The deflection realized in amorphous alloy deformation process therein can conduct different acoustical qualities, have in terms of sound quality stronger Space is realized, so as to make wearer obtain better level of sound quality, weight other routines of bottom and high pitch etc. by changing Material needs to obtain by the obtainable audio of higher deformation force ability and sound quality using the amorphous alloy of specific system, Without changing overall construction design.

2. the bone-conduction device in the present invention is replaced original gold using amorphous alloy according to different osteoacusis principles Belong to material, in piezoelectric bone conduction device and electromagnetic bone conduction device, by be arranged amorphous alloy material accounting and Characteristic reduces the overall weight of device, to reduce required battery capacity indirectly and control the weight of motor, makes osteoacusis Device is integrally lightening, while the tone color sound quality that is comprehensive, making device for increasing different sound qualities is more perfect, not The portability and wearable property of the device are reduced, also without reducing cruising ability.

3. the bone-conduction device in the present invention, non-since metal material component therein is all or part of amorphous alloy Peritectic alloy has effects that sterilizing, and in use, the bone-conduction device is by sweat, dust, greasy dirt and other objects When the pollution of matter, the part to be formed is made using amorphous alloy can effectively control the growth of bacterium, and the bone-conduction device is made to begin Eventually in the use environment in safety and sanitation.

Detailed description of the invention

Fig. 1 is the piezoelectric vibrator structural schematic diagram of piezoelectric bone conduction device in the present invention；

Fig. 2 is the easy structure schematic diagram of piezoelectric bone conduction device in the present invention；

Fig. 3 is the easy structure schematic diagram that electromagnetism is bone-conduction device in the present invention.

Specific embodiment

The present invention will be described in detail with reference to the accompanying drawings and examples.

1 piezoelectric bone conduction device of embodiment

Piezoelectric bone conduction device is the device that sounding conduction is carried out using the inverse piezoelectric effect of piezoelectric ceramics, with sound The electric signal of frequency directly drives piezoelectric vibrator, and vibration is generated by the mechanically deform of piezoelectric vibrator, and vibration passes to ear through skull Snail, to experience sound.Piezoelectric vibrator is the most important nuclear structure in piezoelectric bone conduction device, using piezoelectric vibrator Bone-conduction device generally there is 1KHz either higher resonance frequency, therefore the low frequency region of piezoelectric bone conduction device The easy reproduction of generation is insufficient, and low frequency region how to be made sufficiently to carry out the research emphasis that conduction is piezoelectric bone conduction device.

Piezoelectric ceramics is generally used in piezoelectric vibrator, but since piezoelectric ceramic piece itself is hard and crisp, and can generate Displacement or power it is very small (amplitude of vibration is very small), so piezoelectric ceramic piece generally not as driving original part directly make With, but be bonded together with flexible metal substrate and composite construction use, the composite construction, that is, piezoelectric vibrator is made.It is existing Have and often use stainless steel either pure copper sheet and piezoelectric ceramics compound in technology, but manufactured piezoelectric vibrator conducts low frequency range Domain effect is poor, audio reproduction is insufficient (basis that low frequency is sound).

In the piezoelectric bone conduction device of the present embodiment, as shown in Fig. 1, piezoelectric ceramics 101 and amorphous alloy substrate 102 composition piezoelectric vibrators.Amorphous alloy substrate 102 can be all made of amorphous alloy material or part is using amorphous alloy Material is made, and partially using amorphous alloy material, wherein amorphous alloy is more than or equal to whole according to the accounting of volume The 10% of metal material component, to guarantee that the metal material component has preferable intensity, lower elasticity modulus and higher Elastic limit, to make the bone-conduction device that there is preferable level of sound quality, preferably greater than or equal to integral metal material group The 30% of part.

The metal material component thickness made of amorphous alloy is the 15- of the common crystal alloy material thickness of identical structure 60% can meet requirement, not only be able to satisfy intensity, hardness, corrosion proof requirement, but also can achieve the effect that thinned.At this In piezoelectric vibrator in embodiment, it is thinned using substrate 102 made of zirconium-base amorphous alloy material than pure copper sheet substrate thickness 20%, and intensity is higher, elasticity modulus is lower, can transmit sound without excessive vibration, can be realized having for bass frequency range Effect transmitting.

It as shown in Fig. 2, is the easy structure schematic diagram of piezoelectric bone conduction device.Piezoelectric vibrator 202 is equipped with protective shell Body structure 201, while being connected with conductive post 203, sound is passed to by human body 204 by conductive post 203.In this configuration, it passes Guide post 203, protection shell structure 201 equally can be all made of amorphous alloy material or part is using amorphous alloy material It is made, partially using amorphous alloy material, wherein amorphous alloy is more than or equal to bulk metal according to the accounting of volume The 10% of material member, preferably greater than or equal to the 30% of integral metal material component.For the shell as protection structure For 201, the thickness of amorphous alloy material can suitably increase, the 50- of the preferably identical common crystal alloy material thickness of structure 60% can meet requirement, and the conductive post as conducting structure, and thickness is then subject to different designs, it is generally preferable to be phase 30-60% with the common crystal alloy material thickness of structure can meet requirement.

2 electromagnetic bone conduction device of embodiment

Electromagnetic bone conduction principle of device is similar with piezoelectric type, the difference is that its bone conduction vibrator is magnet composite junction Structure.

It is the easy structure schematic diagram of bone-conduction device for electromagnetism as shown in Fig. 3.Bone-conduction device mainly includes that bone passes Oscillator 304, the fixed structure 302 set on bone conduction vibrator two sides, protection procapsid 301, protection back casing 303 are led, wherein protecting Any conductive material that can be used as with human body joint of front and rear housings is protected, effect is the same as the conductive post 203 in embodiment 1.

Above structure can be all made of amorphous alloy material or part is made of amorphous alloy material, part Using amorphous alloy material, wherein amorphous alloy is more than or equal to integral metal material component according to the accounting of volume 10%, preferably greater than or equal to the 30% of integral metal material component.For the shell 301,303 as protection structure It says, the thickness of amorphous alloy material can suitably increase, and the 50-60% of the preferably identical common crystal alloy material thickness of structure is Requirement can be met, if set certain side as contact side, thickness be subject to contact side requirement design, it is generally preferable to be identical The 30-60% of the common crystal alloy material thickness of structure can meet requirement (thinner).

In Examples 1 and 2, the alloy components that sounding is made in amorphous alloy are applied, therefore the metal in bone-conduction device The elastic limit of material member amorphous alloy or the structure comprising amorphous alloy is chosen for 1.8-3.5%, and Vickers hardness is chosen For 350-900HV, tensile strength is chosen for 1200-3000MPa, and yield strength is chosen for 800-1500MPa, surface roughness Ra It is advisable less than 0.01 μm.Wherein, elastic limit preferably 2.2% or more, Vickers hardness choose 450-600HV, and tensile strength is chosen 1800-2300MPa, yield strength choose 900-1200MPa be advisable, can take into account manufacture difficulty, the preparation cost of amorphous alloy with And mechanical performance, performance should be prevented undesirable, also need to prevent the promotion in performance surplus bring cost.

Embodiment 3

It is skeleton structure either internally or externally, outer in piezoelectric bone conduction device or electromagnetic bone conduction device One or more of portion's shell structure or connection structure are made of amorphous alloy or part of amorphous alloy, wear as after Outer housing and inner housing of interconnecting piece, the protection transaudient component in two sides in the middle part of formula bone conduction earphone (overall structure) etc., these are only As amorphous alloy in the component of structural fabrication according to the accounting of volume, more than or equal to integral metal material component 10% can meet demand, according to requirements promote amorphous state accounting, reach as high as 90% (excessively high amorphous content Amorphous alloy manufacturing process is put forward higher requirements, preparation cost rises violently).The metal material component made of amorphous alloy is thick Degree is the 20-80% of the common crystal alloy material thickness of identical structure, the preferably identical common crystal alloy material thickness of structure 40-60%, amorphous alloy maximum Forming ability be greater than 2mm can have practicability, using conventional casts such as die casting, casting Technique fabricates it.

The elastic limit of structure for above structure product, amorphous alloy or comprising amorphous alloy is chosen for 1.8- 3.2%, Vickers hardness is chosen for 350-900HV, and tensile strength is chosen for 1800-3000MPa, and yield strength is chosen for 800- 1500MPa.Wherein, elastic limit preferably 2.5% or more, Vickers hardness choose 450-600HV, and tensile strength chooses 1800- 2300MPa, yield strength, which chooses 1000-1200MPa, to be advisable, and can take into account manufacture difficulty, preparation cost and the machine of amorphous alloy Tool performance, should prevent performance undesirable, also need to prevent the promotion in performance surplus bring cost.

In the present invention, the amorphous alloy system for being suitble to selection includes zirconium-base amorphous alloy, rare-earth-base amorphous alloy, copper-based One or more of amorphous alloy, titanium-based amorphous alloy, al based amorphous alloy, magnesium base amorphous alloy, from biocompatibility, In preparation process difficulty and cost, zirconium-base amorphous alloy or titanium-based amorphous alloy are further preferably used.

Conscientiously the characteristic of bone-conduction device is studied through the present invention, amorphous alloy is zirconium-base amorphous alloy, ingredient Group becomes (Zr, Hf) a Al b Cu c (Sn, Mg) d (Y, Ag) e, and wherein a, b, c, d, e each independently indicate atomic percent Than 55≤a≤72,6≤b≤17,16≤c≤24,0≤d≤5,0.2≤e≤1；

Amorphous alloy is titanium-based amorphous alloy, at being grouped into (Ti, Zr) a Cu b Sn c (Si, Al, B) d, wherein A, b, c, d each independently indicate atomic percent, and 50≤a≤65,20≤b≤35,7≤c≤20,1≤d≤6, wherein Ti is former Sub- high percentage is in 40%；

Above two amorphous alloy system is excellent selection.

Applicable amorphous alloy forms such as:

Zr62.4Hf2.7Al12Cu20Sn1Mg1.2YAg0.8

Zr65.7Hf2.5Al11Cu18Sn1Mg1Ag0.8

Zr70.1Hf1.4Al10Cu16.2Sn1Mg1Ag0.3

Zr64.3Hf1.8Al13.2Cu17SnMg3Y0.3Ag0.4

Ti58Zr2Cu25Sn10Si0.8Al4B0.2

Ti54Zr4Cu30Sn7Si1Al4

Ti59.3Zr2Cu25Sn11Al2B0.7

Ti62.5Zr0.5Cu25Sn8Si1Al2.7B0.3。

Above-mentioned amorphous alloy is applied to bone-conduction device, such as bone conduction earphone, bone-conduction microphone or osteoacusis glasses In not only mechanical property is brilliant, sound conduction performance is high, but also there is bactericidal property, the growth of bacterium can be effectively suppressed, simultaneously Good biocompatibility is suitble to the crowd sensitive to metal to use.

Finally, it should be noted that above embodiments be only to illustrate the technical solution of the embodiment of the present invention rather than to its into Row limitation, although the embodiment of the present invention is described in detail referring to preferred embodiment, those skilled in the art It should be understood that the technical solution of the embodiment of the present invention can be still modified or replaced equivalently, and these are modified or wait The range of modified technical solution disengaging technical solution of the embodiment of the present invention cannot also be made with replacement.

Claims (9)

1. bone-conduction device, the bone-conduction device is various types of devices using bone conduction technology, the osteoacusis Device contains the osteoacusis module for transmitting sound, and the osteoacusis module is equipped with metal material component, it is characterised in that: institute The metal material component stated in osteoacusis module is amorphous alloy in whole or in part.

2. bone-conduction device as described in claim 1, it is characterised in that: the amorphous alloy is zirconium-base amorphous alloy, rare-earth base One or more of amorphous alloy, cu-based amorphous alloys, titanium-based amorphous alloy, al based amorphous alloy, magnesium base amorphous alloy.

3. bone-conduction device as described in claim 1, it is characterised in that: the amorphous alloy is zirconium-base amorphous alloy, ingredient Group becomes (Zr, Hf) aAlbCuc (Sn, Mg) d (Y, Ag) e, and wherein a, b, c, d, e each independently indicate atomic percent, and 55 ≤a≤72,6≤b≤17,16≤c≤24,0≤d≤5,0.2≤e≤1；Alternatively, the amorphous alloy is titanium-based amorphous alloy, It is at (Ti, Zr) aCub Sn c (Si, Al, B) d is grouped into, and wherein a, b, c, d each independently indicate atomic percent, and 50 ≤ a≤65,20≤b≤35,7≤c≤20,1≤d≤6, wherein Ti atomic percent is higher than 40%.

4. bone-conduction device as claimed in claim 3, it is characterised in that: the amorphous alloy be one of following alloy or It is a variety of:

Zr62.4Hf2.7Al12Cu20Sn1Mg1.2YAg0.8；

Zr65.7Hf2.5Al11Cu18Sn1Mg1Ag0.8；

Zr70.1Hf1.4Al10Cu16.2Sn1Mg1Ag0.3；

Zr64.3Hf1.8Al13.2Cu17SnMg3Y0.3Ag0.4；

Ti58Zr2Cu25Sn10Si0.8Al4B0.2；

Ti54Zr4Cu30Sn7Si1Al4；

Ti59.3Zr2Cu25Sn11Al2B0.7；

Ti62.5Zr0.5Cu25Sn8Si1Al2.7B0.3。

5. bone-conduction device as described in claim 1, it is characterised in that: the osteoacusis module be piezoelectric bone conduction device or Person's electromagnetic bone conduction device；

Metal material component in the piezoelectric bone conduction device is metal substrate and human body joint in piezoelectric vibrator One or more of conductive material, the shell structure for protecting piezoelectric vibrator；

Metal material component in the electromagnetic bone conduction device is bone conduction vibrator, bone conduction vibrator fixed structure and people One or more of the conductive material of body joint, the shell structure for protecting bone conduction vibrator.

6. bone-conduction device as described in claim 1, it is characterised in that: the metal material component in the osteoacusis module is interior One or more of portion or skeleton structure, external shell structure or the connection structure of outside.

7. bone-conduction device as described in claim 1, it is characterised in that: non-in the metal material component in the osteoacusis module Crystal alloy according to volume accounting, more than or equal to the 10% of integral metal material component.

8. bone-conduction device as described in claim 1, it is characterised in that: non-in the metal material component in the osteoacusis module Crystal alloy according to volume accounting, more than or equal to the 30% of integral metal material component.

9. the bone-conduction device as described in claim 1-8 is any, it is characterised in that: the bone-conduction device is bone-conduction microphone Either osteoacusis glasses or osteoacusis mobile phone or ossiphone.