CN220554094U - Microphone assembly, microphone integrated structure and electronic equipment - Google Patents

Abstract

The embodiment of the application discloses a microphone assembly, a microphone integrated structure and electronic equipment, which comprise a microphone bracket and a microphone plate, wherein a threaded connector is arranged at the first end of the microphone bracket, a buckle connector is arranged at the second end of the microphone bracket, and a pressing part is arranged at the middle of the microphone bracket; the microphone plate is fixedly connected with the microphone bracket, and the microphone plate is positioned on one side of the microphone bracket, which is away from the pressing part. The part compresses tightly the compressing part of microphone support through establishing in addition, when guaranteeing that the microphone support is firmly installed in electronic equipment frame, makes the middle part of microphone support be difficult to produce deformation, and then has improved the gas tightness and the pickup effect of microphone subassembly.

Description

Microphone assembly, microphone integrated structure and electronic equipment

Technical Field

The utility model relates to the technical field of microphones, in particular to a microphone assembly, a microphone integrated structure and electronic equipment.

Background

In the related art, the electronic equipment generally realizes the pick-up function through installing the microphone subassembly, and the microphone subassembly includes microphone support and the microphone board that has the silicon microphone device of integration, and the microphone board is fixed in the microphone support, and the both ends of microphone support are fixed through screw and electronic equipment's frame, but after the microphone support lock, lead to the microphone support to appear the middle position easily and warp the condition of camber, cause the poor problem of microphone subassembly gas tightness, and then influence electronic equipment's pick-up effect.

Disclosure of Invention

The embodiment of the application provides a microphone assembly, a microphone integrated structure and electronic equipment capable of improving air tightness and pickup effect.

A first aspect of the present embodiments provides a microphone assembly, including:

the microphone bracket is provided with a first end and a second end which are oppositely arranged in a first direction, the first end is provided with a threaded connecting piece, the second end is provided with a buckle connecting piece, the middle part of the microphone bracket, which is positioned between the first end and the second end, is provided with a pressing part, and in the first direction, the distance between the pressing part and the buckle connecting piece is smaller than the distance between the pressing part and the threaded connecting piece; the method comprises the steps of,

the microphone plate is fixedly connected with the microphone bracket, and the microphone plate is positioned on one side of the microphone bracket, which is away from the pressing part.

In some embodiments, the threaded connection is a via penetrating the first end in a second direction perpendicular to the first direction, and the snap connection is a hook protruding from the second end.

In some embodiments, the second end is further provided with a first positioning member.

In some embodiments, the first positioning element is a positioning column protruding from the second end, and the hook is protruding from an outer wall surface of the positioning column.

In some embodiments, the microphone plate is snap-fit with the microphone stand.

In some embodiments, the microphone bracket is provided with a plurality of clamping holes distributed along the first direction at intervals, the microphone bracket is correspondingly provided with a plurality of buckles, each buckle comprises a first buckle claw and a second buckle claw with elasticity, the end part of the first buckle claw is provided with a barb, the first buckle claw and the second buckle claw are both propped against the hole wall of the corresponding clamping hole, and the barb of the first buckle claw buckles the hole edge of the corresponding clamping hole.

In some embodiments, the microphone assembly further comprises a shock absorber fixedly disposed on a side of the microphone plate facing away from the microphone stand.

A second aspect of embodiments of the present application provides a microphone integrated structure, comprising,

a microphone assembly;

the frame, the frame has first mounting groove, microphone subassembly embedding install in first mounting groove, microphone subassembly first end pass through the screw with threaded connection spare cooperation with the frame is fixed, microphone subassembly second end pass through the buckle connecting piece with the groove lateral wall buckle in first mounting groove is connected

The frame is arranged on the periphery of the screen in a surrounding mode; the method comprises the steps of,

the camera module, the camera module install in the frame, the camera include protecgulum, back lid and camera module, the protecgulum with back lid fixed connection and prescribe a limit to the installation cavity, the camera module is located the installation cavity, the back lid is sealed the notch of mounting groove and with compress tightly the cooperation of pressing part.

In some embodiments, the microphone assembly further comprises a connection wire, the camera module further comprises a circuit board, the connection wire connects the circuit board with the microphone plate, and the connection wire is attached to the surface of the microphone bracket and is arranged in a wiring manner.

In some embodiments, the microphone integrated structure includes two microphone components, the frame has two first mounting grooves and a second mounting groove between the two first mounting grooves, the two microphone components are respectively embedded in the first mounting grooves corresponding to the two first mounting grooves, the camera component is embedded in the second mounting grooves, the shell has two pressing plates, and the two pressing plates are respectively in press fit with the corresponding pressing parts.

A third aspect of the embodiments of the present application provides an electronic device, including an electronic device body and the microphone integrated structure.

The beneficial effects are that: because only the first end of microphone support passes through the fix with screw, and its second end can be connected with electronic equipment frame buckle and is established the part in addition and compress tightly, has reduced a screw that is used for the lock to attach fixedly, simultaneously, through establishing the part in addition and compressing tightly the microphone support, when guaranteeing that the microphone support is firm to be installed in the frame, makes the middle part of microphone support be difficult to produce deformation, and then has improved the gas tightness and the pickup effect of microphone subassembly.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a microphone assembly according to an embodiment of the present application;

fig. 2 is a schematic front view of a microphone assembly according to an embodiment of the present application;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged partial schematic view of the portion indicated by P in FIG. 3;

fig. 5 and fig. 6 are schematic perspective views of two different views of a microphone integrated structure according to an embodiment of the disclosure;

FIG. 7 is an enlarged partial schematic view of the portion indicated by Q in FIG. 6;

fig. 8 is an exploded perspective view of a microphone assembly (without a backlight assembly) according to an embodiment of the present application;

fig. 9 is a partially enlarged schematic view of the point indicated by R in fig. 8.

Reference numerals illustrate:

100. a microphone assembly; 200. a microphone integrated structure;

10. a microphone stand; 101. a threaded connection; 102. a snap-fit connection; 103. a pressing part; 104. a first positioning member; 105. a buckle; 1051. a first latch; 1052. a second latch; 1053. a barb; 106. a first end; 107. a second end; 11. a microphone plate; 111. a clamping hole; 12. a shock absorber; 121. avoidance holes; 13. a connecting wire; 20. a frame; 201. a first mounting groove; 202. a second positioning member; 203. a second mounting groove; 204. a threaded hole; 30. a camera assembly; 301. a housing; 3011. a front housing; 3012. a rear housing; 3013. a pressing plate; 302. a camera module; 40. a panel; 50. a backlight assembly; 60. a screw;

x, a first direction; y, second direction.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical solutions of the embodiments of the present utility model may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present utility model.

In the related art, the electronic equipment generally realizes the pick-up function through installing the microphone subassembly, and the microphone subassembly includes microphone support and the microphone board that has the silicon microphone device of integration, and the microphone board is fixed in the microphone support, and the both ends of microphone support are fixed through screw and electronic equipment's frame, but after the microphone support is fixed by the lock, lead to the microphone support to appear the middle position easily and warp the condition of camber, causes the poor problem of microphone subassembly gas tightness, and then influences electronic equipment's pick-up effect. In addition, the microphone plate is clamped and pre-fixed through the elastic force action of the elastic arm structure of the microphone bracket, the microphone plate is easy to loose in the disassembly and assembly process, the elastic force of the elastic arm is easy to lose efficacy after being disassembled and assembled for multiple times or for a long time, and the reliability of connection of the microphone plate and the elastic arm is not high.

As shown in fig. 1 to 4 and 9, a first aspect of the present embodiment provides a microphone assembly 100, which includes a microphone plate 11 and a microphone stand 10. The microphone plate 11 is provided with one or more silicon microphone devices. The microphone stand 10 can be mounted on the frame 20 of the electronic device, and the microphone stand 10 is fixedly connected with the microphone plate 11, so that the microphone plate 11 can be mounted on the frame 20 of the electronic device through the microphone stand 10. The microphone stand 10 has a first end 106 and a second end 107 disposed opposite to each other in a first direction X, and an inner side and an outer side disposed opposite to each other in a second direction Y, the second direction Y being perpendicular to the first direction X, the outer side may be a side of the electronic device facing the user, the inner side may be a side of the electronic device facing away from the user, i.e., the first direction X corresponds to a left-right direction of the user, and the second direction Y corresponds to a front-rear direction of the user. The microphone stand 10 includes a threaded connector 101 at a first end 106 and a snap connector 102 at a second end 107, the screw 60 engages with the threaded connector 101 and attaches the first end 106 of the microphone stand 10 to the bezel 20, and the snap connector 102 is snapped with the bezel 20 to attach the second end 107 of the microphone stand 10 to the bezel 20. The microphone stand 10 further comprises a pressing portion 103, the pressing portion 103 is disposed in the middle of the microphone stand 10 between the first end 106 and the second end 107, the pressing portion 103 is disposed on the inner side of the microphone stand 10, and the pressing portion 103 can be in pressing fit with another component. In the first direction X, the distance between the pressing portion 103 and the first end 106 of the microphone bracket 10 is greater than the distance between the pressing portion 103 and the second end 107, i.e. the pressing portion 103 is closer to the second end 107 and the snap connection 102, corresponding to the first end 106.

Because only the first end 106 of the microphone bracket 10 is fixed by the screw 60, the second end 107 thereof is in snap connection with the frame 20 of the electronic device and is compressed by the additional component, compared with the prior art, one screw 60 for locking and fixing is reduced, meanwhile, two opposite ends of the microphone bracket 10 are fixed on the frame 20, the two ends are compressed and balanced, and the microphone bracket 10 is compressed by the additional component, so that the microphone bracket 10 is stably arranged on the frame 20, and the middle part of the microphone bracket 10 is not easy to deform, thereby ensuring the air tightness of the microphone assembly 100.

For the microphone assembly 100, the threaded connection 101 may be a via hole penetrating through the first end 106 in the second direction Y, and the corresponding frame 20 is provided with a threaded hole 204, and the screw 60 is locked into the threaded hole 204 of the frame 20 after penetrating through the via hole, so that the first end 106 is detachably and fixedly connected with the frame 20. The snap connection 102 may be a hook, where the hook is convexly disposed at the second end 107, and the hook can be snapped with the frame 20 to fix the second end 107 to the frame 20. The second end 107 of the microphone arm 10 is pressed against the rim 20 by an additional component, such as the camera module 30 of the electronic device, by pressing the pressing portion 103 of the microphone arm 10.

For the microphone assembly 100, a silicon microphone device such as a MEMS (Micro-Electro-Mechanical System, micro-electromechanical system) acoustic sensor and an ASIC (Application Specific Integrated Circuit ) functional integrated circuit is provided on the microphone plate 11.

In some embodiments, the microphone bracket 10 further has a first positioning member 104, the frame 20 is correspondingly provided with a second positioning member 202, and the microphone bracket 10 is positioned and mounted on the frame 20 by matching the first positioning member 104 with the second positioning member 202. The first positioning member 104 may be a positioning post, and the second positioning member 202 may be a positioning hole, where the positioning post and the positioning hole are adapted and plug-in fit. The positioning column can be a non-revolving body, and the corresponding positioning hole can be a non-revolving hole, so that the microphone bracket 10 and the frame 20 can not rotate relatively after the positioning column and the positioning hole are in plug-in fit. By way of example, the positioning column may be a semi-cylinder, an elliptic cylinder, a polygonal cylinder, a special-shaped cylinder, or the like, and the corresponding positioning hole may be a semicircular hole, an elliptical hole, a polygonal hole, a special-shaped hole, or the like.

In a specific structure, the positioning post (the first positioning member 104) is a semi-cylinder, which is convexly disposed at the second end 107, and the hook (the buckle connection member 102) is convexly disposed on an outer wall surface of the semi-cylinder, that is, a projection of the hook on a preset plane is at least partially located outside a projection of the positioning post on the preset plane, and the preset plane may be perpendicular to the second direction Y. The clamping hooks and the positioning columns can be mutually independent and are fixed into a whole in a bonding, clamping and other modes. The clamping hooks and the positioning columns can be integrally injection molded or 3D printed, so that the processing and the manufacturing are convenient. In an alternative structure, the first end 106 of the microphone bracket 10 is provided with a positioning hole (the second positioning piece 202), and the frame 20 is correspondingly provided with a positioning column and a hook.

In some embodiments, the microphone stand 10 is snap-connected to the microphone plate 11, one of the microphone stand 10 and the microphone plate 11 is provided with a snap 105, and the other of the microphone stand 10 and the microphone plate 11 is provided with a snap hole 111, and the snap 105 is snap-connected to the snap hole 111.

Illustratively, the microphone stand 10 has a catch 105 and the microphone arm 11 has a catch hole 111. The microphone bracket 10 may have a plurality of catches 105 spaced apart in the first direction X, each of the catches 105 including a first catch 1051 and a second catch 1052 having elasticity, the first catch 1051 and the second catch 1052 each extending in the second direction Y, and the first catch 1051 and the second catch 1052 being spaced apart in the first direction X. The end of the first latch 1051 is provided with a barb 1053, the second latch 1052 can be substantially linear, and when an external force is applied, the first latch 1051 and the second latch 1052 can be closed in opposite directions; upon withdrawal of the external force, the first latch 1051 and the second latch 1052 are reset. The microphone plate 11 may have a plurality of card holes 111 spaced apart in the first direction X, the card holes 111 penetrating the microphone plate 11 in the second direction Y, each card hole 111 corresponding to one of the snaps 105.

When the microphone bracket is installed, the buckle 105 of the microphone bracket 10 is aligned with the clamping hole 111 of the microphone plate 11 corresponding to the buckle, the microphone bracket 10 is in plug-in fit with the microphone plate 11, the barb 1053 at the end part of the first buckling claw 1051 contacts with the hole wall of the clamping hole 111, and the first buckling claw 1051 and the second buckling claw 1052 are close to each other under the extrusion force of the hole wall; after the barb 1053 passes through the clamping hole 111, the first buckling claw 1051 and the second buckling claw 1052 recover to deform, so that the first buckling claw 1051 is tightly pressed against one side of the hole wall of the clamping hole 111, the second buckling claw 1052 is tightly pressed against the other side of the hole wall of the clamping hole 111, meanwhile, the barb 1053 of the first buckling claw 1051 buckles the hole edge of the clamping hole 11, the buckling connection between the buckle 105 and the clamping hole 111 is realized, and in the second direction Y, the microphone plate 11 is limited between the microphone bracket 10 and the barb 1053. In the first direction X, the barbs 1053 of all the first prongs 1051 are facing the same, e.g. may be protruding towards the first end 106 of the microphone boom 10 or protruding towards the second end 107 of the microphone boom 10; it is also possible that a portion of the barbs 1053 are protruding towards the first end 106 and the remaining portion of the barbs 1053 are protruding towards the second end 107. By providing a plurality of catches 105, movement of the microphone plate 11 in the first direction X can be restrained; meanwhile, by providing the barb 1053, the microphone plate 11 can be prevented from coming off the microphone holder 10 in the second direction Y.

For the microphone assembly 100, a shock absorber 12 may also be included. The microphone plate 11 has an inner surface and an outer surface which are provided opposite to each other in the second direction Y, the inner surface is abutted against the microphone holder 10, and the damper 12 is fixed to the outer surface of the microphone plate 11. Since the end portion of the buckle 105 of the microphone bracket 10 extends out of the clamping hole 111 of the microphone plate 11 corresponding to the end portion, in order to avoid interference, the shock absorber 12 is correspondingly provided with the through hole 121, the through holes 121 are in one-to-one correspondence and are communicated with the clamping holes 111, and the end portion of the buckle 105 can be placed in the through hole 121. The damper body 12 is supported by a soft material having elasticity, such as foam, or silica gel.

A second aspect of the present embodiment provides a microphone integrated structure 200, as shown in fig. 5 to 9, where the microphone integrated structure 200 includes a panel 40, a bezel 20, a camera assembly 30, a backlight assembly 50, and the microphone assembly 100. The frame 20 is disposed around the panel 40. The camera module 30 is fixed on the frame 20, and comprises a housing 301 and a camera module 302, wherein the camera module 302 is disposed in a cavity of the housing 301, and the camera module 300 comprises a circuit board, a lens capable of capturing images, and a lens capable of protecting the lens. The backlight assembly 50 is disposed inside the panel 40. The microphone assembly 100 is fixed to the frame 20, and in the first direction X, the microphone assembly 100 is located at one side of the camera assembly 30. The first end 106 of the microphone stand 10 is fixed to the frame 20 by the screw 60, the second end 107 thereof is in snap connection with the frame 20, and the housing 301 of the camera module 30 is pressed against the pressing portion 103 of the microphone stand 10, so that the second end 107 of the microphone stand 10 is fixed to the frame 20.

The inner side of the frame 20 facing away from the user is provided with a first mounting groove 201, and the shape and size of the first mounting groove 201 are matched with those of the microphone assembly 100. The first mounting groove 201 has a first groove sidewall 2011 and a second groove sidewall 2012 disposed opposite in the first direction X, the first groove sidewall 2011 being proximate to the camera assembly 30 and the second groove sidewall 2012 being distal from the camera assembly 30. The first groove side wall 201 is provided with a positioning hole (second positioning piece 202), the shape and size of the positioning hole are matched with those of the positioning column (first positioning piece 104) of the microphone bracket 10, and the positioning hole is communicated with the first mounting groove 201. The bezel 20 is also provided with a threaded aperture 204, the threaded aperture 204 being adjacent to the second slot side wall 2012 of the first mounting slot 201.

When installed, the camera assembly 30 is fixed to the frame 20; the microphone assembly 100 is embedded into the first mounting groove 201, the shock absorber 12 of the microphone assembly 100 abuts against the frame 20, the positioning post (the first positioning member 104) of the microphone assembly 100 is embedded into the positioning hole (the second positioning member 202), and the hook (the fastening connector 102) of the microphone assembly 100 is fastened to the hole edge of the positioning hole 202; the screw 60 is locked into the threaded hole 204 of the frame 20 after passing through the through hole (the threaded connector 101) of the microphone bracket 10; the housing 301 of the camera module 30 is pressed against the pressing portion 103 of the microphone stand 10. The two ends of the microphone stand 10 are fixed to the rim 20 by the screws 60 and the housing 301 of the camera module 30, so that the two ends of the microphone stand 10 are pressed to be balanced.

Further, the housing 301 of the camera module 30 includes a front housing 3011 and a rear housing 3012 that are fixedly connected, the front housing 3011 and the rear housing 3012 each have a certain volume, the rear housing 3012 closes a rear opening of the front housing 3011, and the front housing 3011 and the rear housing 3012 define a housing cavity in which the camera module 302 is disposed. The bezel 20 is provided with a second mounting groove 203 penetrating in the second direction Y, and the front case 3011 of the camera assembly 30 is fitted into the second mounting groove 203, and the front case 3011 is fixed to the bezel 20 by a fastener. The camera module 302 may be fixedly connected with the front housing 3011. The rear housing 3012 may be directly fixedly coupled to the front housing 3011 or the rear housing 3012 may be directly fixedly coupled to the bezel 20. The rear housing 3012 is provided with a protruding pressure plate 3013 at the interface with the front housing 3011, which pressure plate 3013 extends in the first direction X, which pressure plate 3013 is capable of being press-fitted with the press-fit portion 103 of the microphone stand 10.

Further, the microphone integrated structure 200 may include two microphone assemblies 100 and one camera assembly 30, and the two microphone assemblies 100 may be symmetrically disposed at both sides of the camera assembly 30 in the first direction X. Correspondingly, the frame 20 is provided with two first mounting grooves 201 and one second mounting groove 203, the two microphone assemblies 100 are respectively embedded into the corresponding first mounting grooves 201, the camera assembly 30 is embedded into the second mounting groove 203, and the two pressing plates 3013 of the camera assembly 30 respectively press the pressing parts 103 of the two microphone brackets 10. Because the end of the microphone bracket 10 is pressed and fixed by the camera assembly 30, a separate structure is not required to be arranged to press the microphone bracket 10, thereby effectively reducing the number of parts of the microphone integrated structure 200 and reducing the cost, and simultaneously, the whole microphone integrated structure 200 can be more compact.

Further, the microphone assembly 100 further comprises a connection wire 13, and the connection wire 13 is used for connecting the microphone plate 11 and the circuit board of the camera module 302. The connection wire 13, such as a flexible circuit board, is attached to the surface of the microphone stand 10.

Further, bezel 20 includes a plurality of bezel plates 205 that are peripherally disposed about panel 40. In general, the microphone assembly 100 and the camera assembly 30 may be provided on a top frame plate 205. The frame plate 205 at the top may have a first sound pickup hole 206, and the vibration absorber 12 is provided with a second sound pickup hole, and the microphone plate 11 is provided with a third sound pickup hole, where the first sound pickup hole 206, the second sound pickup hole, and the third sound pickup hole are in one-to-one alignment communication. Sound can enter the silicon microphone device on the microphone plate 11 through the first sound pickup hole 206, the second sound pickup hole, and the third sound pickup hole in sequence. The damper 12 can deform under the action of external force, so that the damper 12 can be better attached to the outer surface of the microphone plate 11 and the frame plate 205 provided with the first sound pickup hole 206, thereby achieving an airtight effect.

A third aspect of the present embodiment provides an electronic device, which includes an electronic device body and the microphone integrated structure 200 described above, where the electronic device is a display, an electronic blackboard, or a monitor.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the specification and drawings of the present utility model or direct/indirect application in other related technical fields are included in the scope of the present utility model.

Claims (10)

1. A microphone assembly, comprising:

the microphone bracket is provided with a first end and a second end which are oppositely arranged in a first direction, the first end is provided with a threaded connecting piece, the second end is provided with a buckle connecting piece, the middle part of the microphone bracket, which is positioned between the first end and the second end, is provided with a pressing part, and in the first direction, the distance between the pressing part and the buckle connecting piece is smaller than the distance between the pressing part and the threaded connecting piece; the method comprises the steps of,

the microphone plate is fixedly connected with the microphone bracket, and the microphone plate is positioned on one side of the microphone bracket, which is away from the pressing part.

2. The microphone assembly of claim 1 wherein the threaded connection is a via extending through the first end in a second direction perpendicular to the first direction, and the snap connection is a hook protruding from the second end.

3. The microphone assembly of claim 2 wherein the second end is further provided with a first positioning member.

4. The microphone assembly of claim 3 wherein the first positioning member is a positioning post protruding from the second end, and the hook is protruding from an outer wall surface of the positioning post.

5. The microphone assembly of claim 1 wherein the microphone plate is provided with a plurality of clamping holes distributed at intervals along the first direction, the microphone bracket is correspondingly provided with a plurality of buckles, each buckle comprises a first buckling claw and a second buckling claw with elasticity, the end parts of the first buckling claws are provided with barbs, the first buckling claws and the second buckling claws are propped against the hole walls of the corresponding clamping holes, and the barbs of the first buckling claws buckle the hole edges of the corresponding clamping holes.

6. The microphone assembly of claim 1 further comprising a shock absorber fixedly disposed on a side of the microphone plate facing away from the microphone bracket.

7. A microphone integrated structure is characterized by comprising,

the microphone assembly of any of claims 1-6;

the microphone assembly is embedded and installed in the first mounting groove, the first end of the microphone assembly is fixed with the frame through the cooperation of the screw and the threaded connecting piece, and the second end of the microphone assembly is in buckling connection with the groove side wall of the first mounting groove through the buckling connecting piece;

the frame is arranged on the periphery of the panel in a surrounding mode; the method comprises the steps of,

the camera assembly is installed in the frame, the camera assembly comprises a shell and a camera module, the camera module is arranged in a shell cavity of the shell, the shell is provided with a pressing plate, and the pressing plate is in press fit with the pressing part of the microphone bracket.

8. The microphone integrated structure of claim 7 wherein,

the microphone assembly further comprises a connecting wire, the camera module comprises a circuit board, the connecting wire is connected with the circuit board and the microphone plate, and the connecting wire is attached to the surface of the microphone bracket and is arranged in a wiring mode.

9. The microphone assembly of claim 7 wherein the microphone assembly comprises two microphone assemblies, the rim has two first mounting grooves and a second mounting groove between the two first mounting grooves, the two microphone assemblies are respectively embedded in the first mounting grooves corresponding to the two first mounting grooves, the camera assembly is embedded in the second mounting groove, the housing has two pressing plates, and the two pressing plates are respectively press-fit with the corresponding pressing parts.

10. An electronic device comprising an electronic device body, further comprising the microphone assembly of any of claims 7-9.