CN215499080U - Lens support frame and terminal equipment - Google Patents

Abstract

The application discloses lens support frame and terminal equipment belongs to electron technical field. The lens support includes: support body and speaker subassembly. One side of the support body is provided with a first groove, the loudspeaker component can be fixedly arranged in the first groove, and the support body of the lens support frame is arranged on one side of the lens support frame far away from the first groove. The lens support frame can not only decorate the back of the terminal device, but also has a new sound production function. Like this, can effectually richen the function of lens support frame, can satisfy and pile up the demand with the subassembly of difference, and then guarantee that terminal equipment can integrate more subassembly so that its performance is better.

Description

Lens support frame and terminal equipment

Technical Field

The application relates to the technical field of electronics, in particular to a lens support frame and terminal equipment.

Background

At present, terminal equipment has become an indispensable electronic product in people's life. More and more terminal equipment can integrate the camera module, can let terminal equipment realize shooting function and sweep a yard function etc. through the camera module.

The terminal device may also typically include: a lens carrier (decho) that mates with the camera module, and is typically used to support the lens. Wherein, the lens support frame is connected with the lens and can play the decorative effect to terminal equipment's back.

However, the lens carriers in current terminal devices are typically only capable of supporting lenses, resulting in a single function lens carrier.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a lens support frame and terminal equipment. The problem of the function singleness of the lens support frame of the terminal equipment among the prior art can be solved, technical scheme is as follows:

in one aspect, a lens carrier is provided, comprising: a support body and a speaker assembly;

one side of the bracket body is used for being connected with a lens, and a first groove is formed in the side, opposite to the lens, of the bracket body;

the loudspeaker subassembly is located in the first recess, and with support body fixed connection.

Optionally, the holder body has a first speaker channel communicating with the first groove, and the speaker assembly has a sound outlet opening facing the first speaker channel.

Optionally, the sound outlet port of the first speaker channel is located on a side surface of the bracket body, and the sound outlet opening of the speaker assembly is located on the side surface of the speaker assembly.

Optionally, the lens carrier further comprises: the sealing assembly is located between the loudspeaker assembly and the support body, one side of the sealing assembly covers the sound outlet opening of the loudspeaker assembly, and the other side of the sealing assembly covers the sound inlet port of the first loudspeaker channel.

Optionally, one side of the sealing assembly is bonded to a side of the speaker assembly, a first limiting member is provided on a side of the first groove, the first limiting member has a second speaker channel communicated with the first speaker channel, and one side of the sealing assembly away from the speaker assembly abuts against one side of the first limiting member away from the first speaker channel.

Optionally, one side of the first limiting member, which is away from the first speaker channel, has a first inclined surface, the speaker assembly has a second inclined surface parallel to the first inclined surface, one side of the sealing assembly is bonded to the second inclined surface, and the other side of the sealing assembly abuts against the first inclined surface;

the width of the first limiting piece in the penetrating direction of the second speaker channel gradually decreases along a direction perpendicular to and away from the bottom surface of the first groove.

Optionally, a second limiting member is disposed on a bottom surface of the first groove, the speaker assembly is located between the first limiting member and the second limiting member, and the second limiting member abuts against a side of the speaker assembly away from the sound outlet.

Optionally, the seal assembly comprises: the support piece, the elastic layer connected with one side of the support piece, and the waterproof sound-transmitting layer connected with the other side of the support piece;

wherein, the elastic layer has a third loudspeaking channel connected with the second loudspeaking channel, the support piece has a fourth loudspeaking channel communicated with the third loudspeaking channel, and the waterproof sound-transmitting layer covers the fourth loudspeaking channel.

Optionally, the waterproof sound-transmitting layer is a film layer made of polyethylene terephthalate (PET) material.

Optionally, the speaker assembly includes: the loudspeaker comprises a mounting rack, a loudspeaker and a conductive adaptor;

the mounting frame is positioned in the first groove and is fixedly connected with the support body, and the mounting frame is provided with an accommodating cavity;

the loudspeaker is positioned in the accommodating cavity and fixedly connected with the mounting frame;

the conductive adaptor is located on one side of the mounting frame away from the bottom surface of the first groove and is electrically connected with the loudspeaker, and the conductive adaptor is configured to: and is electrically connected with a main board in the terminal equipment.

Optionally, a second groove is formed in the side of the bracket body opposite to the first groove, and the second groove is used for accommodating the lens.

Optionally, the first groove has at least one light-transmitting through hole communicated with the first groove, and one surface of each light-transmitting through hole communicated with the first groove is located on the bottom surface of the first groove.

In another aspect, a terminal device is provided, where the terminal device includes: the lens support frame comprises a battery cover, a lens support frame connected with the battery cover and a lens connected with the lens support frame, wherein the lens support frame is the lens support frame shown above.

The beneficial effects brought by the technical scheme provided by the embodiment of the application at least comprise:

a lens carrier, comprising: support body and speaker subassembly. One side of the support body is provided with a first groove, the loudspeaker component can be fixedly arranged in the first groove, and the support body of the lens support frame is arranged on one side of the lens support frame far away from the first groove. So, this lens support frame not only can support the lens, can also integrate the subassembly of raising one's voice in the terminal equipment for the lens support frame not only can play the embellishment effect to the back of terminal equipment, can also have the new function of sound production. Like this, can effectually richen the function of lens support frame, can satisfy and pile up the demand with the subassembly of difference, and then guarantee that terminal equipment can integrate more subassembly so that its performance is better.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is an assembly view of a lens carrier according to an embodiment of the present application;

FIG. 2 is a schematic structural view of another lens carrier provided in an embodiment of the present application;

FIG. 3 is a schematic structural view of another lens carrier provided in an embodiment of the present application;

FIG. 4 is an illustration of the sealing assembly in connection with a speaker assembly according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a stent body according to an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a seal assembly provided in an embodiment of the present application;

fig. 7 is a schematic structural diagram of a speaker assembly according to an embodiment of the present application;

FIG. 8 is a schematic structural view of another stent body provided in the embodiments of the present application;

fig. 9 is an exploded view of a terminal device provided in an embodiment of the present application;

fig. 10 is an effect diagram of a lens holder installed in a terminal device according to an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is an assembly view of a lens supporting frame according to an embodiment of the present disclosure. The lens carrier 000 may include: a holder body 100 and a speaker assembly 200. The lens carrier 000 may be connected to a battery cover in the terminal device.

One side of the carrier body 100 in the lens carrier 000 may be used for coupling with a lens, and the side of the carrier body 100 opposite the lens may have a first groove 101. It should be noted that the connection between the lens holder 000 and the lens is not shown in fig. 1, and the following embodiment corresponding to fig. 9 can be referred to for the related description of the connection between the two.

The speaker assembly 200 in the lens holder 000 can be located in the first groove 101 and is fixedly connected to the frame body 100. For example, the speaker assembly 200 may be fixedly connected to the bracket body 100 by a screw connection or an adhesive connection, which is not limited in this embodiment of the application.

For example, when the speaker assembly 200 can be fixedly connected to the holder body 100 by means of a screw connection, the bottom surface of the first groove 101 may have a plurality of supporting pillars a1, and each supporting pillar a1 may have a threaded hole. The speaker assembly 200 may have a plurality of mounting through-holes b1 in one-to-one correspondence with the plurality of support columns a 1. The lens carrier 000 may further include: a plurality of screws c1 corresponding to the plurality of mounting through holes b1 one to one. After the speaker assembly 200 is located in the first groove 101 in the holder body 100, the side of each supporting pillar a1 away from the bottom surface of the first groove 101 can abut against the speaker assembly 200, and the threaded hole in each supporting pillar a1 communicates with the corresponding mounting through hole b1 in the speaker assembly 200. In this way, each screw c1 of the plurality of screws c1 can be screwed with the corresponding screw hole after passing through the corresponding mounting through hole b1 to fix the speaker assembly 200 in the first recess 101 in the holder body 100.

In the present embodiment, the speaker assembly 200 may be fixedly disposed within the lens carrier 000. As such, the lens holder 000 can not only hold the lens, but also integrate the speaker assembly 200 in the terminal device. The lens support frame 000 not only can decorate the back of the terminal device, but also can have a new sound producing function. Like this, can effectually richen lens support frame 000's function, can satisfy and pile up the demand with the subassembly of difference, and then guarantee that terminal equipment can integrate more subassemblies so that its performance is better.

In summary, the present application provides an eyeglass support frame, including: support body and speaker subassembly. One side of the support body is provided with a first groove, the loudspeaker component can be fixedly arranged in the first groove, and the support body of the lens support frame is arranged on one side of the lens support frame far away from the first groove. Therefore, the lens support frame can support the lens and can also integrate the loudspeaker assembly in the terminal equipment. The lens support frame can not only decorate the back of the terminal device, but also has a new sound production function. Like this, can effectually richen the function of lens support frame, can satisfy and pile up the demand with the subassembly of difference, and then guarantee that terminal equipment can integrate more subassembly so that its performance is better.

Optionally, please refer to fig. 2, fig. 2 is a schematic structural diagram of another lens supporting frame provided in the embodiment of the present application. The carrier body 100 in the lens holder 000 may have a first speaker channel 102 communicating with the first groove 101, and the speaker assembly 200 may have a sound outlet opening 201, the sound outlet opening 201 facing the first speaker channel 102. In this way, after the sound emitted from the speaker assembly 200 is emitted through the sound outlet opening 201, the sound can be emitted through the first speaker channel 102 in the holder body 100, so that the sound emitted from the speaker assembly 200 in the lens holder 000 can be emitted through the holder body 100.

In the present embodiment, the sound outlet port of the first speaker passage 102 in the holder body 100 may be located on the side surface of the holder body 100. It should be noted that the sound outlet port of the first speaker passage 102 is a port at an end of the first speaker passage 102 facing away from the first groove 101, and the first speaker passage 102 also generally has a sound inlet port, and the sound inlet port is a port in the first speaker passage 102 communicating with the first groove 101. The sound outlet opening 201 in the speaker assembly 200 may be located on the side of the speaker assembly 200. Thus, the sound emitted from the speaker assembly 200 can be emitted from the side of the holder body 100. For example, when the shape of the holder body 100 is a square, the sound outlet port of the first speaker channel 102 may be located on at least one side surface in the holder body. For example, the sound outlet port of the first speaker passage 102 may be located on opposite sides in the holder body 100. Thus, the speaker assembly 200 is connected to the stand body 100 to form a stereo sound channel. In other realizable manners, the sound outlet port of the first speaker channel 102 in the holder body 100 may also be located at the side of the holder body 100 where the lens is disposed, and the sound outlet opening 201 of the speaker assembly 200 may be located at the side of the speaker assembly 200 away from the bottom surface of the first groove 101.

It should be noted that, when the sound outlet port of the first speaker channel 102 is located on the side surface of the holder body 100, and the sound outlet opening 201 of the speaker assembly 200 is located on the side surface of the speaker assembly 200, the first speaker channel 102 does not limit the area of the lens on the lens holder 000. Moreover, when the terminal device where the lens holder 000 is located is placed on a supporting surface (e.g., a desktop) and the lens on the lens holder 000 is at least partially in contact with the supporting surface, the supporting surface does not block the sound emitted by the speaker assembly 200, and the sound emitted by the speaker assembly 200 can be normally emitted from the side of the rack body 100. In this way, the sound effect of the speaker assembly 200 is not affected by the placement position of the terminal device.

By way of example, the first speaker channel 102 in the stent body 100 may include: a plurality of speaker holes. The plurality of sound-emitting holes can be arranged in an array mode to form a row, and the penetrating directions of the sound-emitting holes in the plurality of sound-emitting holes are parallel.

Optionally, please refer to fig. 3, fig. 3 is a schematic structural diagram of another lens supporting frame provided in the embodiment of the present application. The lens carrier 000 may further include: a seal assembly 300. The sealing assembly 300 may be located between the speaker assembly 200 and the support body 100, and one side of the sealing assembly 300 covers the sound outlet opening 201 of the speaker assembly 200, and the other side of the sealing assembly 300 covers the sound inlet port of the first speaker passage 102. Thus, the sealing assembly 300 can effectively prevent foreign matters such as external moisture and dust from entering the speaker assembly 200, so as to ensure that the sound-producing effect of the speaker assembly 200 is good.

In the embodiment of the present application, please refer to fig. 4 and fig. 5, fig. 4 is an effect diagram of a connection between a sealing assembly and a speaker assembly provided in the embodiment of the present application, and fig. 5 is a schematic structural diagram of a bracket body provided in the embodiment of the present application. One side of the sealing assembly 300 in the lens carrier 000 may be bonded to the side of the speaker assembly 200. The first recess 101 may have a first stopper 103 on a side surface thereof, and the first stopper 103 may have a second speaker passage 1031 communicating with the first speaker passage 102. The side of the sealing assembly 300 away from the speaker assembly 200 abuts against the side of the first limiting member 103 away from the first speaker channel 102. Thus, the sound emitted from the sound outlet opening 201 of the speaker assembly 200 is transmitted from the first recess 101 of the holder body 100 through the second speaker passage 1031 and the first speaker passage 102 in this order.

It should be noted that the sealing assembly 300 may be a plate or sheet structure having elasticity. The sealing member 300 can be bonded to the side of the speaker member 200 by a double-sided adhesive tape, so as to fix the sealing member 300 to the side of the speaker member 200. In addition, the sealing assembly 300 may have elasticity. Therefore, after the other side of the sealing member 300 abuts against the side of the first stopper 103 away from the first speaker channel 102, the sealing member 300 is compressed and deformed in the thickness direction thereof by the pressing action of the speaker member 200 and the holder body 100. Thus, the sealing effect of the sealing assembly 300 on the speaker assembly 200 can be improved, and foreign matters such as external moisture and dust can be further prevented from entering the speaker assembly 200.

Illustratively, the penetrating direction of the second speaker passage 1031 is parallel to the penetrating direction of the first speaker passage 102. The shape of the opening surface of the second speaker passage 1031 close to the first recess 101 is the same as the shape of the sound outlet opening 201 of the speaker component 200, and after the speaker component 200 is connected to the holder body 100, the boundary of the opening surface of the second speaker passage 1031 close to the first recess 101 coincides with the boundary of the sound outlet opening 201 of the speaker component 200.

Alternatively, as shown in fig. 5, a side of the first limiting member 103 on the side surface of the first groove 101 in the holder body 100, which is away from the first speaker channel 102, may have a first inclined surface 1032, and for example, the first limiting member 103 may also be fixedly connected to the bottom surface of the first groove 101. As shown in fig. 3 and 4, the speaker assembly 200 may have a second ramp 202 parallel to the first ramp 1032. In the present application, one side of the seal assembly 300 may be bonded to the second inclined surface 202 of the speaker assembly 200, and the other side may abut against the first inclined surface 1032 of the first stopper 103.

Here, the width of the first limiting member 103 in the penetrating direction of the second speaker passage 1031 (i.e., the penetrating direction of the speaker holes in the first speaker passage 102) is gradually reduced in a direction perpendicular to and away from the bottom surface of the first recess 101. In this case, the first inclined surface 1032 of the first limiting member 103 is parallel to the second inclined surface 202 of the speaker assembly 200. Therefore, in the process of assembling the speaker assembly 200 with the holder body 100, the speaker assembly 200 can apply a pressure to the first limiting member 103, so that the sealing assembly 300 between the first inclined surface 1032 and the second inclined surface 202 is compressed and deformed in the thickness direction thereof, thereby ensuring that the sealing effect of the sealing assembly 300 on the speaker assembly 200 is good.

In the embodiment of the present application, as shown in fig. 3, the bottom surface of the first groove 101 in the lens support 000 may have a second limiting member 104, the speaker assembly 200 may be located between the first limiting member 103 and the second limiting member 104, and the second limiting member 104 may abut against a side of the speaker assembly 200 away from the sound outlet opening 201. In this way, after the speaker assembly 200 is connected to the holder body 100, the second stopper 104 can generate an acting force parallel to the bottom surface of the first groove 101 on the speaker assembly 200, so that the speaker assembly 200 generates an acting force on the sealing assembly 300, and the sealing effect of the sealing assembly 300 on the speaker assembly 200 is further improved. Further, by the engagement of the first stopper 103 and the second stopper 104, the speaker unit 200 can be positioned in a direction parallel to the bottom surface of the first recess 101. For example, the second limiting member 104 may be a plate-shaped retaining wall or a block-shaped retaining wall.

Optionally, please refer to fig. 6, where fig. 6 is a schematic structural diagram of a sealing assembly according to an embodiment of the present application. The seal assembly 300 in the lens carrier 000 can include: support 301, resilient layer 302, and waterproof acoustically transparent layer 303. The elastic layer 302 is connected to one side of the support member 301 and the waterproof sound-transmitting layer 303 is connected to the other side of the support member 301. Here, the elastic layer 302 may have a third speaker passage 3021 connected to the second speaker passage 1031, and the support piece 301 may have a fourth speaker passage 3011 communicating with the third speaker passage 3021. Waterproof sound-transmitting layer 303 may cover fourth speaker channel 3011.

Illustratively, the penetrating direction of the third speaker passage 3021 is parallel to the penetrating direction of the second speaker passage 1031. The shape of the opening surface of the third speaker passage 3021 near the first stopper 103 is the same as the shape of the opening surface of the second speaker passage 1031 near the first recess 101, and after the seal assembly 300 is connected to the holder body 100, the boundary of the opening surface of the third speaker passage 3021 near the first stopper 103 coincides with the boundary of the opening surface of the second speaker passage 1031 near the first recess 101.

The penetrating direction of the third speaker passage 3021 is parallel to the penetrating direction of the fourth speaker passage 3011. The shape of the opening surface of the third speaker channel 3021 away from the first stopper 103 is the same as the shape of the opening surface of the fourth speaker channel 3011 close to the first stopper 103, and after the elastic layer 302 is connected to the support member 301, the boundary of the opening surface of the third speaker channel 3021 away from the first stopper 103 coincides with the boundary of the opening surface of the fourth speaker channel 3011 close to the first stopper 103.

In the embodiment of the present application, a side of the elastic layer 302 close to the supporting member 301 has a back adhesive, and the elastic layer 302 and the supporting member 301 may be bonded by the back adhesive. One side of the waterproof sound-transmitting layer 303 and the supporting member 301 may be bonded by a double-sided adhesive tape e 1. The other side of the waterproof sound-transmitting layer 303 and the side of the speaker assembly 200 may be bonded by a double-sided tape f 1. In this manner, the sealing assembly 300 can be secured to the side of the speaker assembly 200.

Alternatively, the elastic layer 302 may be a rubber sealing ring having elasticity. In this way, the seal assembly 300 is capable of compressive deformation by the resilient layer 302. In addition, the vibration generated by the speaker assembly 200 during operation can be effectively absorbed by the elastic layer 302, and when the lens support 000 is integrated in a terminal device, the vibration phenomenon of the whole terminal device can be effectively reduced, and the experience of a user can be improved.

The supporting member 301 may be a plate-shaped structure made of Polycarbonate (PC).

The waterproof sound-transmitting layer 303 may be a film layer made of polyethylene terephthalate (PET), or a film layer made of other materials, which is not limited in this embodiment. In this way, the waterproof sound-transmitting layer 303 can not only prevent impurities such as moisture and dust from entering the speaker assembly 200, but also enable sound emitted by the speaker assembly 200 to pass through and then be emitted from the first speaker channel 102.

In the embodiment of the present application, please refer to fig. 7, and fig. 7 is a schematic structural diagram of a speaker assembly according to the embodiment of the present application. The speaker assembly 200 in the lens carrier 000 may include: a mounting bracket 203, a speaker 204, and a conductive adaptor 205. The mounting bracket 203 may be located in the first groove 101 and fixedly connected to the bracket body 100, and the mounting bracket 203 may have a receiving cavity (not shown). The speaker 204 may be located within the receiving cavity and fixedly attached to the mounting bracket 203.

The conductive adaptor 205 may be located on a side of the mounting frame 203 away from the bottom surface of the first recess 101 and electrically connected to the speaker 204. Wherein the conductive adaptor 205 may be configured to: and is electrically connected to a main board (not shown) in the terminal device. In this way, when the lens holder 000 is assembled in a device, the speaker assembly 200 in the lens holder 000 can be electrically connected to a main board in a terminal device through the conductive adaptor 205, so that the main board can control the speaker assembly 200 to generate sound.

For example, the mounting frame 203 in the speaker assembly 200 may have a fifth speaker channel 203b communicating with the accommodating cavity, and an opening surface of the fifth speaker channel 203b on a side away from the accommodating cavity is the sound outlet opening 201. In this way, the sound emitted from the speaker 204 can be caused to be emitted through the fifth speaker passage 203b, the fourth speaker passage 3011, the third speaker passage 3021, the second speaker passage 1031, and the first speaker passage 102 in this order.

Optionally, please refer to fig. 8, and fig. 8 is a schematic structural diagram of another stent body provided in the embodiment of the present application. The side of the bracket body 100 opposite to the first groove 101 may have a second groove 105, and the second groove 105 may be used for accommodating a lens. Illustratively, the shape of the second groove 105 is the same as the shape of the lens. In this way, the lens may be secured within the second groove 105 of the lens carrier 000. For example, the lens may be adhered to the bottom surface of second groove 105 by a backing adhesive to secure the lens within second groove 105.

In the embodiment of the present application, the first groove 101 may have at least one light passing hole 106 communicating with the first groove 101, one surface of each light passing hole 106 communicating with the first groove 101 is located on the bottom surface of the first groove 101, and the other surface of the light passing hole 106 is located on the bottom surface of the second groove 105. The at least one light-transmitting via 106 is offset from a side of the speaker assembly 200 near the bottom surface of the first recess 101. Thus, it can be ensured that ambient light can enter the camera module through the light passing hole 106.

In summary, the present application provides an eyeglass support frame, including: support body and speaker subassembly. One side of the support body is provided with a first groove, the loudspeaker component can be fixedly arranged in the first groove, and the support body of the lens support frame is arranged on one side of the lens support frame far away from the first groove. Therefore, the lens support frame can support the lens and can integrate the loudspeaker component in the terminal equipment. The lens support frame can not only decorate the back of the terminal device, but also has a new sound production function. Like this, can effectually richen the function of lens support frame, can satisfy and pile up the demand with the subassembly of difference, and then guarantee that terminal equipment can integrate more subassembly so that its performance is better.

The embodiment of the present application further provides a terminal device, where the terminal device may be: any product or component with a shooting function, such as a mobile phone, a tablet computer, a notebook computer, a camera and the like.

Referring to fig. 9 and 10, fig. 9 is an exploded view of a terminal device provided in an embodiment of the present application, and fig. 10 is an effect diagram of a lens support frame installed in the terminal device provided in the embodiment of the present application. The terminal device may include: a battery cover 001, a lens carrier 000, and a lens 002. The battery cover 001 may be connected to the lens carrier 000 and the lens 002 may be connected to the lens carrier 000. The lens support 000 may be the lens support shown in fig. 1, fig. 2, or fig. 3, and the lens support 000 and the lens 002 may form a trimming part for modifying the camera module in the terminal device.

In this embodiment, the terminal device may further include: center 003 and camera module 004. Wherein, the middle frame 003 can include: a bottom plate 0031, and a side plate 0032 fixedly coupled to one side of the bottom plate 0031. In the example, the side plate 0032 and the bottom plate 0031 of the middle frame 003 are formed integrally, that is, the side plate 0032 and the bottom plate 0031 are formed integrally.

The battery cover 001 may have a mounting groove 0011, and the battery cover 001 is connected to the other side of the side plate 0032. Thus, the terminal device can form a cavity through the middle frame 003 and the battery cover 001. It should be noted that, the terminal device may further include: a display panel (not shown), and a ring-shaped side plate 0032 in the terminal device may be adhered to the display panel on one side and the battery cover 001 on the other side. In this way, a closed cavity can be formed in the terminal device through the display panel, the middle frame 003 and the battery cover 001.

Wherein, the camera 0041 in the camera module 004 can be located on the side of the bottom plate 0031 facing the battery cover 001, for example, the side of the bottom plate 0031 facing the battery cover 001 has a camera clamping groove 0031a, and the camera 0041 can be fixed in the camera clamping groove 0031a so as to install the camera 0041 on the bottom plate 0031. Here, the orthographic projection of the lens 002 on the base plate 0031 covers the orthographic projection of the camera 0041 on the base plate 0031.

The lens support frame 000 is located in the mounting groove 0011, and the side surface of the support body 100 in the lens support frame 000 is bonded to the groove surface of the mounting groove 0011, so that the lens support frame 000 is mounted in the terminal device.

The lens 002 is attached to the side of the lens holder 000 remote from the base plate 0031. As explained in the above, the holder body 100 in the lens holder 000 has the second groove 105, and the lens 002 can be mounted in the second groove 105. Therefore, the lens 002 does not need to be arranged in the cavity formed by the middle frame 003 and the battery cover 001, the position distribution of the lens 002 is not limited by other devices, the area of the lens 002 can be increased, and the identification degree and the attractiveness of the terminal equipment can be improved.

Note that the lens 002 may have the light-transmitting region 002 a. After a camera 0041 in the terminal equipment is installed on a bottom plate 0031 on a middle frame 003, a lens support frame 000 is fixed in a mounting groove 0011, and a lens 002 is fixed in a second groove 105 in the lens support frame 000 in a bonding manner through a double-sided adhesive tape g1, it is necessary to ensure that not only the orthographic projection of the lens 002 on the bottom plate 0031 of the middle frame 003 covers the orthographic projection of the camera 0041 on the bottom plate 0031, but also a light-transmitting area 002a of the lens 002 covers the light-receiving surface of the camera 0041. In addition, the outer boundary of the light-transmitting region 002a of the lens 002 coincides with the outer boundary of the light-transmitting through hole 106 of the lens holder 000. Like this, can guarantee that ambient light passes through in proper order and gets into camera 0041 behind the printing opacity through-hole 106 of the printing opacity district 002a of lens 002, lens support frame 000 for this camera 0041 can normally work. The lens 002 is opaque in the region except for the transparent region 002a, and the lens 002 can be used for decorating terminal equipment.

In this application, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" means two or more unless expressly limited otherwise.

The above description is intended to be exemplary only, and not to limit the present application, and any modifications, equivalents, improvements, etc. made within the spirit and scope of the present application are intended to be included therein.

Claims (13)

1. A lens carrier, comprising: a holder body (100) and a speaker assembly (200);

one side of the bracket body (100) is used for being connected with a lens, and the side, opposite to the lens, of the bracket body (100) is provided with a first groove (101);

the loudspeaker component (200) is positioned in the first groove (101) and is fixedly connected with the bracket body (100).

2. The lens carrier of claim 1, wherein the carrier body (100) has a first speaker channel (102) in communication with the first recess (101), the speaker assembly (200) having a sound outlet opening (201), the sound outlet opening (201) facing the first speaker channel (102).

3. The lens carrier of claim 2, wherein the sound outlet port of the first speaker channel (102) is located on a side of the carrier body (100) and the sound outlet opening (201) of the speaker assembly (200) is located on a side of the speaker assembly (200).

4. The lens carrier of claim 2 or 3, wherein the lens carrier (000) further comprises: a seal assembly (300), the seal assembly (300) being located between the speaker assembly (200) and the support body (100), and one side of the seal assembly (300) covering the sound outlet opening (201) of the speaker assembly (200), the other side of the seal assembly (300) covering the sound inlet port of the first speaker channel (102).

5. The lens holder according to claim 4, wherein one side of the sealing member (300) is bonded to a side of the speaker assembly (200), a first stopper (103) is provided on a side of the first recess (101), the first stopper (103) has a second speaker passage (1031) communicating with the first speaker passage (102), and a side of the sealing member (300) remote from the speaker assembly (200) abuts on a side of the first stopper (103) remote from the first speaker passage (102).

6. The lens holder according to claim 5, wherein the side of the first retaining member (103) remote from the first speaker channel (102) has a first bevel (1032), the speaker assembly (200) has a second bevel (202) parallel to the first bevel (1032), one side of the sealing assembly (300) is bonded to the second bevel (202), and the other side abuts against the first bevel (1032);

wherein the width of the first limiting member (103) in the penetrating direction of the second speaker passage (1031) is gradually reduced along a direction perpendicular to and away from the bottom surface of the first groove (101).

7. The lens holder according to claim 6, wherein the first recess (101) has a second stopper (104) on a bottom surface thereof, the speaker assembly (200) is located between the first stopper (103) and the second stopper (104), and the second stopper (104) abuts against a side of the speaker assembly (200) away from the sound outlet opening (201).

8. The lens carrier of any one of claims 5 to 7, wherein the seal assembly comprises: a support (301), an elastic layer (302) connected to one side of the support (301), and a waterproof sound-transmitting layer (303) connected to the other side of the support (301);

wherein the elastic layer (302) has a third speaker passage (3021) connected to the second speaker passage (1031), the support member (301) has a fourth speaker passage (3011) communicating with the third speaker passage (3021), and the waterproof sound-transmitting layer (303) covers the fourth speaker passage (3011).

9. The lens carrier of claim 8, wherein the waterproof, acoustically transparent layer (303) is a film layer made of polyethylene terephthalate (PET) material.

10. The lens carrier of any of claims 1 to 3, wherein said speaker assembly (200) comprises: a mounting frame (203), a speaker (204) and a conductive adaptor (205);

the mounting frame (203) is positioned in the first groove (101) and is fixedly connected with the bracket body (100), and the mounting frame (203) is provided with a containing cavity;

the loudspeaker (204) is positioned in the accommodating cavity and is fixedly connected with the mounting rack (203);

the conductive adaptor (205) is located on a side of the mounting bracket (203) away from a bottom surface of the first recess (101) and is electrically connected with the speaker (204), the conductive adaptor (205) is configured to: and is electrically connected with a main board in the terminal equipment.

11. The lens carrier of any of claims 1 to 3, wherein said carrier body (100) has a second recess (105) on a side opposite said first recess (101), said second recess (105) being adapted to receive said lens.

12. The lens carrier according to any of claims 1 to 3, characterized in that said first recess (101) has at least one light-transmitting through hole (106) communicating with said first recess (101), one of said light-transmitting through holes (106) communicating with said first recess (101) being located on the bottom surface of said first recess (101).

13. A terminal device, comprising: a battery cover (001), a lens carrier (000) connected to the battery cover (001), and a lens (002) connected to the lens carrier (000), the lens carrier (000) being the lens carrier of any one of claims 1 to 12.

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