CN105979450A - Integrated sound production and transmission sensor - Google Patents

Abstract

The invention relates to an integrated sound production and transmission sensor. The sensor is characterized in comprising a hollow shell, a sound production device, a sound transmission device, and a mounting structure through which the sound production device and the sound transmission device are coaxially mounted on the hollow shell, thereby forming an integrated module. The hollow shell is equipped with a sound emission channel matching with the sound emission direction of the sound production device, and a sound emission hole for communicating the sound emission channel to the external. The integrated module is formed by coaxially mounting the sound production device and the sound transmission device on the hollow shell. When an acoustical device is assembled, only the whole integrated module is mounted at the corresponding position of the shell of the acoustical device. The sensor has the advantages of simple and easy mounting and stable finished product performance.

Description

The integration transaudient sensor of sounding

Technical field

The present invention relates to acoustical device, more particularly, it relates to a kind of integration transaudient sensor of sounding.

Background technology

At present, most acoustical device, including shell, shell is installed loudspeaker, mike, circuit board etc., thus is assembled into the devices such as headset, transmitter receiver, microphone.The loudspeaker of these acoustical devices existing, mike are all single devices, when assembling, need to be separately mounted in the shell of headset, transmitter receiver, microphone.Owing to needing loudspeaker, mike to be separately mounted in the sound chamber of correspondence, therefore, sound chamber must have certain installing space, and this just necessarily increases alignment error, causes end properties unstable, and concordance is poor.

Summary of the invention

The technical problem to be solved in the present invention is, it is provided that a kind of install the transaudient sensor of integrated sounding simple, that end properties is stable.

The technical solution adopted for the present invention to solve the technical problems is: structure a kind of integration transaudient sensor of sounding, including hollow shell, microphone device, transaudient device and the mounting structure that described microphone device and transaudient device are coaxially mounted on described hollow shell formation integration module；

Described hollow shell is provided with speak passage and the passage of speaking described in connect of the direction coupling of speaking with described microphone device and goes out acoustic aperture to the external world.

In the transaudient sensor of integrated sounding of the present invention, the voice directions of described microphone device is reverse with the radio reception direction of described transaudient device；

Described mounting structure arranges the installation position installed for described microphone device in being included in described hollow shell, and with described go out the relative opposite side of acoustic aperture arrange, for the described hard-wired mounting bracket of transaudient device.

In the transaudient sensor of integrated sounding of the present invention, described mounting bracket includes covering the rack body of the end of described hollow shell, on described rack body, the setting connecting portion that be connected fixed by snap with between described hollow shell and arrange opposing with described connecting portion supply the described hard-wired mounting groove of transaudient device；The radio reception direction of described transaudient device is away from the direction of described hollow shell；

The sidewall of described mounting groove is provided with some gaps, and described mounting bracket is provided with the pressure balance openings being in communication with the outside in described hollow shell.

In the transaudient sensor of integrated sounding of the present invention, the voice directions of described microphone device is in the same direction with the radio reception direction of described transaudient device；

The first installing space and the second installing space arranged it is communicated with in described hollow shell；Described microphone device and transaudient device are sequentially arranged in described first installing space and the second installing space；

Speak passage described in being formed in space between described transaudient device and described microphone device and the peripheral space of described transaudient device circumferencial direction；

Described second installing space corresponding with the radio reception direction of described transaudient device forms radio reception passage；

Described hollow shell is provided with the tone-entering hole relative with the radio reception direction of described transaudient device.

In the transaudient sensor of integrated sounding of the present invention, described mounting structure is included in described hollow shell inwall and is positioned at the first installation step that described first installing space is arranged with the joint of described second installing space and the annular suspension hook arranged at described second installing space；

Described microphone device is fixedly mounted on described first installation step, and its direction of speaking is towards described second installing space；

Described annular suspension hook extends to described second installing space from described first installation step, is included in its sidewall and arranges described first installing space of connection and the intercommunicating pore of the second installing space and the second installation step arranged in bottom；Described transaudient device is arranged on described second installation step, and described second installation step offers the perforate relative with described tone-entering hole.

In the transaudient sensor of integrated sounding of the present invention, described mounting structure arranges the mounting bracket installed for described microphone device and transaudient device in being included in described hollow shell.

In the transaudient sensor of integrated sounding of the present invention, it is additionally provided with in described hollow shell and described mounting bracket is pressed on the upper cover in described hollow shell.

In the transaudient sensor of integrated sounding of the present invention, between described first installing space and the second installing space, form the support level positioning described mounting bracket；

Described mounting bracket includes one or more hooks that the rack body of hollow, the annular mounting ring in the setting of described rack body side, the opposite side at described rack body are arranged；Described microphone device is fixedly mounted in described annular mounting ring, and described transaudient device is arranged between described hook and rack body.

In the transaudient sensor of integrated sounding of the present invention, described annular mounting ring is positioned at described first installing space, and described hook is positioned at described second installing space；

The inwall of described rack body is provided with fluting；The sound that described microphone device sends enters described second installing space by described fluting.

In the transaudient sensor of integrated sounding of the present invention, the described integration transaudient sensor of sounding also includes being arranged on the circuit board electrically connected outside described hollow shell with described microphone device and transaudient device；

Described go out acoustic aperture be opened in bottom surface and/or the side of described hollow shell；Further, go out to be provided with tuning net and/or tuning film in acoustic aperture described；

Described microphone device is loudspeaker；Described transaudient device is mike.

Implement to the method have the advantages that by microphone device, transaudient device being coaxially mounted in hollow shell, form integration module, thus when assembling acoustical device, have only to be arranged on whole integration module the corresponding position of acoustical device shell, have and advantage simple, that end properties is stable is installed.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the decomposing schematic representation of the first embodiment of the transaudient sensor of integration sounding of the present invention；

Fig. 2 is the assembling cross-sectional schematic of the first embodiment of the transaudient sensor of integration sounding of the present invention；

Fig. 3 is the decomposing schematic representation of the second embodiment of the transaudient sensor of integration sounding of the present invention；

Fig. 4 is the assembling cross-sectional schematic of the second embodiment of the transaudient sensor of integration sounding of the present invention；

Fig. 5 is the decomposing schematic representation of the 3rd embodiment of the transaudient sensor of integration sounding of the present invention；

Fig. 6 is the assembling cross-sectional schematic of the 3rd embodiment of the transaudient sensor of integration sounding of the present invention.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.Should be appreciated that specific embodiment described herein is only used for explaining the present invention, be not intended to limit the present invention.

The invention discloses a kind of transaudient sensor of body sounding, including hollow shell, microphone device, transaudient device and the mounting structure that microphone device and transaudient device are coaxially mounted on hollow shell formation integration module.It is provided with the passage and connect of speaking of the direction coupling of speaking with microphone device passage of speaking at hollow shell and goes out acoustic aperture to the external world, by microphone device, transaudient device are coaxially mounted in hollow shell, form integration module, thus when assembling acoustical device, have only to be arranged on whole integration module the corresponding position of acoustical device shell, have and advantage simple, that end properties is stable is installed.

As shown in Figure 1 and Figure 2, it is the first embodiment of the transaudient sensor of integrated sounding of the present invention, including hollow shell 11, microphone device 12, transaudient device 13 and the mounting structure that described microphone device 12 and transaudient device 13 are coaxially mounted on described hollow shell 11 formation integration module.In the present embodiment, microphone device 12 is loudspeaker；Transaudient device 13 is mike；It is of course also possible to as required, other device is selected.

As it can be seen, this hollow shell 11 is cylindrical hollow shell 11, it is provided with the passage 111 and connect of speaking of the direction coupling of speaking with microphone device 12 passage 111 of speaking and goes out acoustic aperture 112 to the external world.It should be understood that the shape of hollow shell 11 can be designed to other arbitrary shapes as required.In the present embodiment, this goes out acoustic aperture 112 and is arranged on the bottom surface of hollow shell 11, it is of course also possible to as required, will go out acoustic aperture 112 and be arranged on the sidewall of hollow shell 11.

Further, as required tuning net 14, tuning film 15 etc. can be set in the position going out acoustic aperture 112, the effect spoken with adjustment.Tuning net 14, tuning film 15 can be fixed on hollow shell 11 by various modes such as double faced adhesive tape 17, buckle, ultrasonic bonding.

In the present embodiment, the voice directions of microphone device 12 is reversely with the radio reception direction of transaudient device 13, thus will not produce interference between the two, enhances capacity of resisting disturbance.

Microphone device 12 and transaudient device 13 are fixedly mounted on hollow shell 11 by mounting structure.As it can be seen, this mounting structure is included in the interior installation position 113 arranged of hollow shell 11 and the mounting bracket 16 arranged at the opposite side relative with going out acoustic aperture 112.

This installation position 113 extends inwardly to form in the bottom surface of hollow shell 11, fixedly mounts thereon for microphone device 12.It should be understood that the installed surface of microphone device 12 can be fixedly mounted on installation position 113 by various modes such as double faced adhesive tape 17, ultrasonic bonding, the inner space of speak passage 111 and hollow shell 11 is separated.

This mounting bracket 16 fixedly mounts for transaudient device 13, and the hollow shell 11 that is arranged on fixed by snap is away from the side going out acoustic aperture 112.It should be understood that the connection between mounting bracket 16 and hollow shell 11 can also fix connection by other means, such as welding, threaded etc..

This mounting bracket 16 includes rack body 161, the connecting portion 162 being respectively provided with in rack body 161 both sides and mounting groove 163.This rack body 161 covers in the end of hollow shell 11 so that hollow shell 11 is internally formed an echo space, improves tonequality.Transaudient device 13 can be fixedly mounted in mounting groove 163 by double faced adhesive tape 17, it is of course also possible to connect by ultrasonic bonding or other modes are fixing.

This connecting portion 162 is arranged in the side of rack body 161, extends in hollow shell 11, and fixed by snap with hollow shell 11 is connected.As it can be seen, be provided with bulge loop 164 at the outer wall of connecting portion 162, corresponding is provided with groove 114 at hollow shell 11 inwall, utilizes being clasped of bulge loop 164 and groove 114, mounting bracket 16 is fixedly connected on hollow shell 11.Certainly, can also fix by other means between connecting portion 162 with hollow shell 11 and be connected, such as welding, threaded etc..

Mounting groove 163 is arranged in the side that rack body 161 is opposing with connecting portion 162, fixedly mounts thereon for transaudient device 13.In the present embodiment, the sidewall of mounting groove 163 is provided with some gaps 165, and mounting bracket 16 is provided with the pressure balance openings 166 being in communication with the outside in hollow shell 11.

Further, this transaudient sensor of integration sounding also includes being arranged on the circuit board 18 electrically connected outside hollow shell 11 with microphone device 12 and transaudient device 13.In the present embodiment, this circuit board 18 is ring circuit plate 18, and the sheathed periphery being fixedly installed on mounting groove 163 is electrically connected with transaudient device 13 by the gap 165 of mounting groove 163；Pressure balance openings 166 lead-in conductor can also be passed through, be conductively connected with the microphone device 12 being arranged in hollow shell 11.

As in figure 2 it is shown, the voice directions (shown in filled arrows) of the transaudient sensor of integrated sounding after Zu Zhuaning is contrary with radio reception direction (shown in hollow arrow), thus avoid both interfere；And after hollow shell 11, microphone device 12 and transaudient device 13 being assembled integrally module, its acoustical behavior is stable, can have assemble the advantage simple, concordance is good directly by the devices such as whole module group assembling to headset, transmitter receiver, microphone.

As shown in Figure 3, Figure 4, it is the second embodiment of the transaudient sensor of integrated sounding of the present invention, including hollow shell 21, microphone device 22, transaudient device 23 and the mounting structure that described microphone device 22 and transaudient device 23 are coaxially mounted on described hollow shell 21 formation integration module.In the present embodiment, microphone device 22 is loudspeaker；Transaudient device 23 is mike；It is of course also possible to as required, other device is selected.

As it can be seen, this hollow shell 21 is cylindrical hollow shell 21, it is provided with the passage 213 and connect of speaking of the direction coupling of speaking with microphone device 22 passage 213 of speaking and goes out acoustic aperture 215 to the external world.It should be understood that the shape of hollow shell 21 can be designed to other arbitrary shapes as required.In the present embodiment, this goes out acoustic aperture 215 and is arranged on the bottom surface of hollow shell 21, it is of course also possible to as required, will go out acoustic aperture 215 and be arranged on the sidewall of hollow shell 21.

Further, as required tuning net 24, tuning film 25 etc. can be set in the position going out acoustic aperture 215, the effect spoken with adjustment.Tuning net 24, tuning film 25 can be fixed on hollow shell 21 by various modes such as double faced adhesive tape 27, buckle, ultrasonic bonding.

In the present embodiment, the radio reception direction of the voice directions of microphone device 22 and transaudient device 23, for arrange in the same direction, can simplify Application Design.The first installing space 211 and the second installing space 212 arranged it is communicated with in this hollow shell 21；Microphone device 22 and transaudient device 23 are sequentially arranged in the first installing space 211 and the second installing space 212.

Further, space and the space of transaudient device 23 circumferencial direction periphery between transaudient device 23 and microphone device 22 form passage 213 of speaking, and the sound produced for microphone device 22 is exported by this passage 213 of speaking.

Radio reception passage 214 is formed at described second installing space 212 corresponding with the radio reception direction of transaudient device 23, and, the position of hollow shell 21 correspondence is provided with the tone-entering hole 216 relative with the radio reception direction of transaudient device 23, thus the sound in the external world can enter radio reception passage 214 by tone-entering hole 216 and be detected by transaudient device 23 and obtain.

This microphone device 22 and transaudient device 23 are fixedly mounted on hollow shell 21 by mounting structure.As it can be seen, this mounting structure includes the first installation step 217, annular suspension hook 218 etc..This first installation step 217 is arranged at the inwall of hollow shell 21, and is positioned at the first installing space 211 and joint of the second installing space 212.Microphone device 22 can be fixedly mounted on the first installation step 217 by double faced adhesive tape 27, and the first installing space 211 and the second installing space 212 to be separated, and its direction of speaking is towards the second installing space 212.

This annular suspension hook 218 is arranged in the second installing space 212, extends to the second installing space 212 from the first installation step 217.This annular suspension hook 218 includes intercommunicating pore the 2181, second installation step 219 etc., is used for fixedly mounting transaudient device 23.This intercommunicating pore 2181 is offered on the sidewall of annular suspension hook 218, and for connection the first installing space 211 and the second installing space 212, thus the sound that microphone device 22 sends is sent out by first installing space the 211, second installing space 212.

This second installation step 219 is arranged in the bottom of annular suspension hook 218, is mounted thereon for transaudient device 23, and the second installation step 219 offers the perforate 2182 relative with tone-entering hole 216.

Further, this transaudient sensor of integration sounding also includes being arranged on the circuit board 28 electrically connected outside hollow shell 21 with microphone device 22 and transaudient device 23.In the present embodiment, this circuit board 28 covers the outside of the first installing space 211 at hollow shell 21, stretches into the first installing space 211 and the second installing space 212 by wire, electrically connects with microphone device 22 and transaudient device 23.

Further, circuit board 28 can also be offered pressure balance openings 281, with the pressure in equalisation hollow shell 21.

As shown in Figure 4, the voice directions (shown in filled arrows) of the transaudient sensor of integrated sounding after assembling is identical with radio reception direction (shown in hollow arrow), and after hollow shell 21, microphone device 22 and transaudient device 23 being assembled integrally module, its acoustical behavior is stable, can have assemble the advantage simple, concordance is good directly by the devices such as whole module group assembling to headset, transmitter receiver, microphone.

As shown in Figure 5, Figure 6, it is the 3rd embodiment of the transaudient sensor of integrated sounding of the present invention, including hollow shell 31, microphone device 32, transaudient device 33 and the mounting structure that described microphone device 32 and transaudient device 33 are coaxially mounted on described hollow shell 31 formation integration module.In the present embodiment, microphone device 32 is loudspeaker；Transaudient device 33 is mike；It is of course also possible to as required, other device is selected.

As it can be seen, this hollow shell 31 is cylindrical hollow shell 31, it is provided with the passage 313 and connect of speaking of the direction coupling of speaking with microphone device 32 passage 313 of speaking and goes out acoustic aperture 315 to the external world.It should be understood that the shape of hollow shell 31 can be designed to other arbitrary shapes as required.In the present embodiment, this goes out acoustic aperture 315 and is arranged on the bottom surface of hollow shell 31, it is of course also possible to as required, will go out acoustic aperture 315 and be arranged on the sidewall of hollow shell 31.

Further, as required tuning net, tuning film 35 etc. can be set in the position going out acoustic aperture 315, the effect spoken with adjustment.Tuning net, tuning film 35 can be fixed on hollow shell 31 by various modes such as double faced adhesive tape 37, buckle, ultrasonic bonding.

In the present embodiment, the radio reception direction of the voice directions of microphone device 32 and transaudient device 33, for arrange in the same direction, can simplify Application Design.The first installing space 311 and the second installing space 312 arranged it is communicated with in this hollow shell 31；Microphone device 32 and transaudient device 33 are sequentially arranged in the first installing space 311 and the second installing space 312.

Further, space and the space of transaudient device 33 circumferencial direction periphery between transaudient device 33 and microphone device 32 form passage 313 of speaking, and the sound produced for microphone device 32 is exported by this passage 313 of speaking.

Radio reception passage is formed at described second installing space 312 corresponding with the radio reception direction of transaudient device 33, and, the position of hollow shell 31 correspondence is provided with the tone-entering hole 316 relative with the radio reception direction of transaudient device 33, thus the sound in the external world can enter radio reception passage by tone-entering hole 316 and be detected by transaudient device 33 and obtain.

This microphone device 32 and transaudient device 33 are fixedly mounted on hollow shell 31 by mounting structure.As it can be seen, this mounting structure includes mounting bracket 36；This mounting bracket 36 is arranged in hollow shell 31, installs for microphone device 32 and transaudient device 33.

As it can be seen, form the support level 317 of location and installation support 36 between the first installing space 311 and the second installing space 312, thus by mounting bracket 36 location and installation in hollow shell 31.Selectable, the upper cover 39 mounting bracket 36 being pressed in hollow shell 31 can also be set in hollow shell 31.Further, the sidewall at upper cover 39 can also arrange breach 391, in order to passing through of wire.

This mounting bracket 36 includes one or more hooks 363 that the rack body 361 of hollow, the annular mounting ring 362 in the setting of rack body 361 side, the opposite side at rack body 361 are arranged.

This annular mounting ring 362 is positioned at the first installing space 311, and microphone device 32 can be fixedly mounted in annular mounting ring 362 by double faced adhesive tape 37；And hook 363 is positioned at the second installing space 312, transaudient device 33 is arranged between hook 363 and rack body 361 by buckle.Certainly, microphone device 32 and transaudient device 33 can fix connection by other means, such as welding, threaded etc..

Further, fluting 364 can be provided with at the inwall of rack body 361；The sound that microphone device 32 sends is by fluting 364 entrance the second installing space 312, thus is sent out sound by passage 313 of speaking.It is of course also possible to designed by other structures, the sound sent by microphone device 32 is sent by the second installing space 312.

Further, this transaudient sensor of integration sounding also includes being arranged on the circuit board 38 electrically connected outside hollow shell 31 with microphone device 32 and transaudient device 33.In the present embodiment, this circuit board 38 covers the outside of the first installing space 311 at hollow shell 31, stretches into the first installing space 311 and the second installing space 312 by wire, electrically connects with microphone device 32 and transaudient device 33.

Further, circuit board 38 can also be offered pressure balance openings 381, with the pressure in equalisation hollow shell 31.

As shown in Figure 6, the voice directions (shown in filled arrows) of the transaudient sensor of integrated sounding after assembling is identical with radio reception direction (shown in hollow arrow), and after hollow shell 31, microphone device 32 and transaudient device 33 being assembled integrally module, its acoustical behavior is stable, can have assemble the advantage simple, concordance is good directly by the devices such as whole module group assembling to headset, transmitter receiver, microphone.

It should be understood that above example only have expressed the preferred embodiment of the present invention, it describes more concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention；It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, above-mentioned technical characterstic can be carried out independent assortment, it is also possible to make some deformation and improvement, these broadly fall into protection scope of the present invention；Therefore, all equivalents done with scope of the invention as claimed and modification, the covering scope of the claims in the present invention all should be belonged to.

Claims (10)

1. the transaudient sensor of integrated sounding, it is characterised in that include hollow shell, microphone device, transaudient device and described microphone device and transaudient device are coaxially mounted on described hollow shell be formed the mounting structure of integration module；

Described hollow shell is provided with speak passage and the passage of speaking described in connect of the direction coupling of speaking with described microphone device and goes out acoustic aperture to the external world.

The integration transaudient sensor of sounding the most according to claim 1, it is characterised in that the voice directions of described microphone device is reverse with the radio reception direction of described transaudient device；

Described mounting structure arranges the installation position installed for described microphone device in being included in described hollow shell, and with described go out the relative opposite side of acoustic aperture arrange, for the described hard-wired mounting bracket of transaudient device.

The integration transaudient sensor of sounding the most according to claim 2, it is characterized in that, described mounting bracket includes covering the rack body of the end of described hollow shell, on described rack body, the setting connecting portion that be connected fixed by snap with between described hollow shell and arrange opposing with described connecting portion supply the described hard-wired mounting groove of transaudient device；The radio reception direction of described transaudient device is away from the direction of described hollow shell；

The sidewall of described mounting groove is provided with some gaps, and described mounting bracket is provided with the pressure balance openings being in communication with the outside in described hollow shell.

The integration transaudient sensor of sounding the most according to claim 1, it is characterised in that the voice directions of described microphone device is in the same direction with the radio reception direction of described transaudient device；

The first installing space and the second installing space arranged it is communicated with in described hollow shell；Described microphone device and transaudient device are sequentially arranged in described first installing space and the second installing space；

Speak passage described in being formed in space between described transaudient device and described microphone device and the peripheral space of described transaudient device circumferencial direction；

Described second installing space corresponding with the radio reception direction of described transaudient device forms radio reception passage；

Described hollow shell is provided with the tone-entering hole relative with the radio reception direction of described transaudient device.

The integration transaudient sensor of sounding the most according to claim 4, it is characterized in that, described mounting structure is included in described hollow shell inwall and is positioned at the first installation step that described first installing space is arranged with the joint of described second installing space and the annular suspension hook arranged at described second installing space；

Described microphone device is fixedly mounted on described first installation step, and its direction of speaking is towards described second installing space；

Described annular suspension hook extends to described second installing space from described first installation step, is included in its sidewall and arranges described first installing space of connection and the intercommunicating pore of the second installing space and the second installation step arranged in bottom；Described transaudient device is arranged on described second installation step, and described second installation step offers the perforate relative with described tone-entering hole.

The integration transaudient sensor of sounding the most according to claim 4, it is characterised in that described mounting structure arranges the mounting bracket installed for described microphone device and transaudient device in being included in described hollow shell.

The integration transaudient sensor of sounding the most according to claim 6, it is characterised in that be additionally provided with in described hollow shell and described mounting bracket is pressed on the upper cover in described hollow shell.

The integration transaudient sensor of sounding the most according to claim 6, it is characterised in that form the support level positioning described mounting bracket between described first installing space and the second installing space；

Described mounting bracket includes one or more hooks that the rack body of hollow, the annular mounting ring in the setting of described rack body side, the opposite side at described rack body are arranged；Described microphone device is fixedly mounted in described annular mounting ring, and described transaudient device is arranged between described hook and rack body.

The integration transaudient sensor of sounding the most according to claim 8, it is characterised in that described annular mounting ring is positioned at described first installing space, and described hook is positioned at described second installing space；

The inwall of described rack body is provided with fluting；The sound that described microphone device sends enters described second installing space by described fluting.

10. according to the transaudient sensor of integrated sounding described in any one of claim 1-9, it is characterised in that the described integration transaudient sensor of sounding also includes being arranged on the circuit board electrically connected outside described hollow shell with described microphone device and transaudient device；

Described go out acoustic aperture be opened in bottom surface and/or the side of described hollow shell；Further, go out to be provided with tuning net and/or tuning film in acoustic aperture described；

Described microphone device is loudspeaker；Described transaudient device is mike.