CN113193329A - Camera and antenna module - Google Patents

Abstract

The application discloses camera and antenna module, wherein antenna module includes: the main board assembly is installed on the base, the signal conduction connecting piece is in communication connection with the main board, and the antenna assembly is lapped on the signal conduction connecting piece through the lapping elastic sheet. The antenna module passes through the overlap joint shell fragment overlap joint on the signal conduction connecting piece, and the connected mode that adopts the overlap joint shell fragment can make the communication connection of signal conduction connecting piece and antenna module effectual, and then makes the signal transmission between mainboard subassembly and the antenna module effectual, and simultaneously, the mode of connecting through the overlap joint shell fragment requires lowerly to the antenna area of antenna module, can reduce the volume size of antenna module for the whole volume of antenna module and the camera of using antenna module reduces.

Description

Camera and antenna module

Technical Field

The application belongs to the technical field of communication equipment, and particularly relates to a camera and an antenna module.

Background

In the correlation technique, image acquisition equipment sets up the connection antenna in image acquisition equipment's outside for realizing the networking function usually, and under this structure, image acquisition equipment must use with external antenna cooperation, and the antenna structure of extra setting can make image acquisition equipment installation inconvenient, can lead to image acquisition equipment's networking effect not good simultaneously.

Disclosure of Invention

The embodiment of the application aims to provide a camera and an antenna module, which can solve the problem that the existing image acquisition equipment is inconvenient to network.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, the present invention discloses an antenna module, including: the antenna comprises a base, a mainboard assembly, a signal conduction connecting piece and an antenna assembly;

the main board assembly is mounted on the base, the signal conduction connecting piece is in communication connection with the main board, and the antenna assembly is connected to the signal conduction connecting piece in a lap joint mode through a lap joint elastic sheet.

In a second aspect, the present invention provides a camera, which includes a camera module, a camera support and the above antenna module;

the camera shooting support is arranged on the base, and the camera shooting assembly is erected on the camera shooting support.

Compared with the prior art, in the antenna module disclosed in the embodiment of the application, the main board assembly is connected with the antenna assembly through the signal conduction connecting piece, so that the main board assembly can transmit and receive signals through the antenna assembly. The antenna module passes through the overlap joint shell fragment overlap joint on the signal conduction connecting piece, and the connected mode that adopts the overlap joint shell fragment can make the communication connection of signal conduction connecting piece and antenna module effectual, and then makes the signal transmission between mainboard subassembly and the antenna module effectual, and simultaneously, the mode of connecting through the overlap joint shell fragment requires lowerly to the antenna area of antenna module, can reduce the volume size of antenna module for the whole volume of antenna module reduces.

Drawings

Fig. 1 is an exploded view of a camera according to an embodiment of the present disclosure;

fig. 2 is a partial schematic view of a signal conducting connecting member connected to a main board assembly and an antenna assembly in an antenna module according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram illustrating a separation structure of a signal transmission connection member and a main board assembly in an antenna module according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of an installation of the camera mount and antenna assembly of the camera disclosed in the embodiments of the present application;

fig. 5 is a schematic view of an installation of the camera support and the signal transmission connector in the camera disclosed in the embodiment of the present application;

FIG. 6 is a schematic diagram of a base in a camera disclosed in an embodiment of the present application;

fig. 7 is a schematic view illustrating a connection state of an image capturing bracket and a base in the camera disclosed in the embodiment of the present application;

fig. 8 is a schematic overall structure diagram of a camera disclosed in an embodiment of the present application.

Description of reference numerals:

100-base, 110-surround, 120-cover,

200-a motherboard assembly, 210-a first pair of sockets,

300-signal conducting connections, 310-supports, 320-second pair of sockets, 330-shielding,

400-an antenna assembly for a Radio Frequency (RF) antenna,

500-overlapping the elastic sheets,

600-a camera assembly for taking a picture,

700-camera support.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The technical solutions disclosed in the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 8, an embodiment of the present application discloses an antenna module, which includes a base 100, a motherboard assembly 200, a signal conduction connector 300, and an antenna assembly 400. The antenna module can be applied to a camera.

The motherboard assembly 200 is installed on the base 100, the base 100 provides an installation base for the motherboard assembly 200, and the motherboard assembly 200 is an integration of functional elements such as power supply, driving, storage, and calculation, and is not limited to the general concept. The signal conductive connector 300 is in communication connection with the main board assembly 200, and the antenna assembly 400 is connected to the signal conductive connector 300 by the connecting spring 500. The signal conducting connection 300 acts as an intermediary component between the motherboard assembly 200 and the antenna assembly 400, enabling the motherboard assembly 200 and the antenna assembly 400 to be communicatively connected, the motherboard assembly 200 enabling control of the antenna assembly 400 for signal transmission and control of the antenna assembly 400 for signal reception.

Antenna module 400 laps on signal conduction connecting piece 300 through overlap joint shell fragment 500, the connected mode that adopts overlap joint shell fragment 500 can make signal conduction connecting piece 300 and antenna module 400's communication connection effectual, and then make the signal transmission between mainboard subassembly 200 and the antenna module 400 effectual, and simultaneously, the mode of connecting through overlap joint shell fragment 500 requires lowerly to antenna module 400's antenna area, can reduce antenna module 400's volume size, make the whole volume of the antenna module disclosed in the embodiment of this application reduce. Accordingly, the whole volume of the camera using the antenna module can be reduced.

In the antenna module disclosed in the embodiment of the present application, the antenna assembly 400 is connected to the main board assembly 200 through the signal conduction connector 300, so that the main board assembly 200, the signal conduction connector 300 and the antenna assembly 400 are integrated into an integrated structure, the antenna assembly 400 is connected to the signal conduction connector 300 through the overlapping elastic sheet 500, so that the signal conduction effect of the antenna assembly 400 is good, and the antenna area of the antenna assembly 400 can be reduced. It should be noted, however, that in general the antenna area of the antenna assembly 400 should be no less than 1000 square millimeters.

Optionally, the base 100, the motherboard assembly 200, the signal conduction connector 300, and the antenna assembly 400 are stacked in sequence, so that the antenna module disclosed in the embodiment of the present application has a compact structure and occupies a small space. In general, the base 100, the main board assembly 200, the signal conduction connector 300, and the antenna assembly 400 may be plate-shaped structures, which can reduce the thickness of the base 100, the main board assembly 200, the signal conduction connector 300, and the antenna assembly 400, thereby making the structure of the antenna module more compact. The connection point between the signal transmission connector 300 and the motherboard assembly 200 and the overlapping elastic sheet 500 are located on the opposite sides of the signal transmission connector 300, so that the signal transmission connector 300 is located above the motherboard assembly 200, and the antenna assembly 400 is located above the signal transmission connector 300.

Optionally, the antenna module disclosed in this embodiment of the present application further includes a supporting element 310, the supporting element 310 is located on a side of the signal conduction connector 300 facing away from the antenna assembly 400, one end of the supporting element 310 is connected to the base 100, so that the supporting element 310 is erected on the base 100, and the other end of the supporting element 310 is connected to the signal conduction connector 300, so that the supporting element 310 can support the signal conduction connector 300, and since the antenna assembly 400 is mounted on the signal conduction connector 300, at least a partial region of the antenna assembly 400 is pressed on the signal conduction connector 300, especially, the connection between the antenna assembly 400 and the signal conduction connector 300, that is, the pressure of the antenna assembly 400 is greater at the overlapping elastic piece 500, and the antenna assembly 400 causes the overlapping elastic piece 500 to be compressed. The support member 310 supports the signal-conducting connector 300 to prevent the signal-conducting connector 300 from being deformed by the pressure of the antenna assembly 400.

Therefore, in order to further stabilize the signal transmission connector 300, the connection position of the support 310 and the signal transmission connector 300 may be disposed corresponding to the snap dome 500. Specifically, the projection of the supporting member 310 on the signal transmission connector 300 is at least partially overlapped with the projection of the overlapping elastic sheet 500 on the signal transmission connector 300.

Optionally, the number of the supporting members 310 may also be multiple, and the supporting members 310 may be uniformly distributed on the signal transmission connector 300, so that the stability of the signal transmission connector 300 is better.

Optionally, an end surface of the main board assembly 200 connected to the signal conduction connector 300 on a side of the signal conduction connector 300 facing away from the antenna assembly 400 forms a first projection, the overlapping elastic piece 500 forms a second projection on a side of the signal conduction connector 300 facing away from the antenna assembly 400, and a certain distance is provided between the first projection and the second projection, so that a certain distance is provided between a connection point of the main board assembly 200 and the signal conduction connector 300 and the overlapping elastic piece 500, and the distance can avoid interference between an electrical connector for connecting the main board assembly 200 and the signal conduction connector 300 and the overlapping elastic piece 500 due to too close distance, so that the communication connection effect stability of the main board assembly 200 and the antenna assembly 400 is better. Generally, the larger the above-mentioned distance, the better, therefore, the overlapping elastic sheet 500 may be disposed at one side edge of the signal transmission connector 300, and the connection point of the motherboard assembly 200 and the signal transmission connector 300 may be located at the opposite side edge of the signal transmission connector 300, so that the connection point of the motherboard assembly 200 and the signal transmission connector 300 and the overlapping elastic sheet 500 have a relatively maximum distance, thereby optimizing the communication connection stability of the motherboard assembly 200 and the antenna assembly 400.

Optionally, the motherboard assembly 200 and the signal transmission connector 300 may be communicatively connected in a plugging manner, specifically, the motherboard assembly 200 is provided with a first pair of socket connectors 210, the signal transmission connector 300 is provided with a second pair of socket connectors 320 matched with the first pair of socket connectors 210, and the first pair of socket connectors 210 and the second pair of socket connectors 320 are matched in a male-female manner, so that the connection stability of the signal transmission connector 300 and the motherboard assembly 200 is good, and the motherboard assembly 200 and the signal transmission connector 300 can be prevented from being easily separated. Meanwhile, the second pair of sockets 320 and the first pair of sockets 210 are matched to have a supporting and stabilizing effect, so that the motherboard assembly 200 also has a supporting and stabilizing effect on the signal transmission connector 300, and the signal transmission connector 300 can be stably fixed on the motherboard assembly 200.

Optionally, the signal conducting connector 300 is provided with a shielding cover 330, and the shielding cover 330 is located at one side of the overlapping elastic sheet 500, specifically, the overlapping elastic sheet 500 may be located close to the shielding cover 330, but it should be noted that the overlapping elastic sheet 500 and the shielding cover 330 should not be too close to each other and should keep a certain distance. The provision of the shielding case 330 can shield interference of other components to the communication connection effect of the signal conduction connection member 300 and the antenna assembly 400, so that the communication connection effect of the signal conduction connection member 300 and the antenna assembly 400 is stable, and the signal transmission effect between the antenna assembly 400 and the main board assembly 200 is more stable.

In order to improve the effect of shielding the signal interference of the shielding cover 330, the shielding cover 330 may be disposed on a side of the signal conduction connecting member 300 facing the antenna assembly 400, that is, the shielding cover 330 is located on the same side as the overlapping elastic piece 500, so that the distance between the shielding cover 330 and the overlapping elastic piece 500 is smaller.

Optionally, in order to further enhance the communication connection stability between the signal conducting connector 300 and the antenna assembly 400, the signal conducting connector 300 has a clearance area in the stacking direction of the motherboard assembly 200, the signal conducting connector 300 and the antenna assembly 400, the clearance area is disposed corresponding to the overlapping elastic piece 500, and no metal piece is disposed in the clearance area. The snap dome 500 is generally provided without a metal member for at least 5mm in the stacking direction of the main board assembly 200, the signal conduction connection 300, and the antenna assembly 400.

Optionally, the antenna assembly 400 is further connected to the base 100, specifically, a partial region of the antenna assembly 400 is overlapped on the signal transmission connector 300 through the overlapping elastic sheet 500, so that the partial region of the antenna assembly 400 is pressed on the overlapping elastic sheet 500 and further pressed on the signal transmission connector 300 to generate a pressure on the signal transmission connector 300. When another partial region of the antenna assembly 400 is connected to the base 100, the base 100 can support the antenna assembly 400 and bear most of the weight of the antenna assembly 400, so that the stress of the antenna assembly 400 on the signal conducting connector 300 can be reduced. Meanwhile, the connection of the antenna assembly 400 to the base 100 enables the antenna assembly 400 to be fixed to the base 100, so that the antenna assembly 400 is stable, and the communication connection between the antenna assembly 400 and the signal conduction connecting member 300 is more stable.

Based on the above antenna module, the embodiment of the present application further discloses a camera, which includes the camera module 600, the camera bracket 700 and the above antenna module. The camera assembly 600 may also be a temperature camera, a smoke camera, a humidity camera, etc. Of course, the camera module 600 may also be another sensor type device, which is not limited in this embodiment.

The camera bracket 700 is located on the side of the signal conduction connector 300 facing the antenna assembly 400, the camera bracket 700 is connected with the base 100, the base 100 provides a mounting base for the camera bracket 700, the camera bracket 700 is fixed on the base 100 so that the camera bracket 700 can be kept stable, the camera assembly 600 is arranged on the camera bracket 700, and the camera bracket 700 supports the camera assembly 600.

Optionally, the camera further includes a cover 120, an edge of the base 100 is surrounded by a surrounding barrier 110, and the surrounding barrier 110 can surround the motherboard assembly 200, the signal conduction connector 300, the antenna assembly 400, and the camera bracket 700, so as to protect the motherboard assembly 200, the signal conduction connector 300, the antenna assembly 400, and the camera bracket 700, and limit the above components, so that the components can be stably fixed on the base 100. The cover 120 can be fitted over the camera module 600, and the cover 120 is connected to the enclosure 110, and the cover 120, the enclosure 110 and the base 100 constitute a housing of the camera, in which the above-mentioned components are mounted.

In the camera disclosed in the embodiment of the present application, the antenna assembly 400 is integrated inside the camera, so that the camera itself has a networking function, and the camera does not need to be connected to an external antenna structure. The antenna assembly 400 and the signal conducting connector 300 are connected to the motherboard assembly 200 so that the antenna assembly 400 can be communicatively connected to the motherboard assembly 200.

Optionally, the camera bracket 700 is provided with a notch, the antenna assembly 400 is located in the notch, and the camera bracket 700 is provided with the notch, so that the camera bracket 700 can be prevented from covering the antenna assembly 400 and affecting the signal receiving and transmitting effects of the antenna assembly 400, and meanwhile, the antenna assembly 400 and the camera bracket 700 can be arranged on the same layer, so that the structure of the camera disclosed in the embodiment of the application is more compact.

Optionally, the base 100 may have a disc structure, and correspondingly, the enclosure 110 is a circular ring structure surrounding the base 100, and the camera module 600 may have a sphere structure, so the camera support 700 may also be configured as a circular ring structure, and when the camera support 700 has a notch, the angle of the notch should not exceed 120 ° in order to make the camera support 700 have sufficient strength to support the camera module 600.

It should be noted that the antenna module described above can also be applied to other sensor devices, such as a smoke alarm, a temperature sensor, or an infrared sensor. Of course, other sensor devices are possible, and the application is not limited in this respect.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An antenna module, comprising: a base (100), a motherboard assembly (200), a signal conduction connector (300), and an antenna assembly (400);

wherein the mainboard assembly (200) is mounted on the base (100), the signal conduction connecting piece (300) is in communication connection with the mainboard assembly (200), and the antenna assembly (400) is lapped on the signal conduction connecting piece (300) through a lapping elastic sheet (500).

2. The antenna module of claim 1, wherein the base (100), the motherboard assembly (200), the signal conducting connector (300) and the antenna assembly (400) are stacked in sequence, and the joint of the signal conducting connector (300) and the motherboard assembly (200) and the overlapping spring piece (500) are located on two opposite sides of the signal conducting connector (300).

3. The antenna module as claimed in claim 2, wherein a support member (310) is disposed on a side of the signal conducting connector (300) facing away from the antenna assembly (400), one end of the support member (310) is connected to the base (100), the other end of the support member (310) is supported by the signal conducting connector (300), and a joint of the support member (310) and the signal conducting connector (300) is disposed opposite to the snap spring (500).

4. The antenna module of claim 1, wherein the connection between the motherboard assembly (200) and the signal conducting connector (300) is a connection area, the connection area forms a first projection on a side of the signal conducting connector (300) facing away from the antenna assembly (400), the snap dome (500) forms a second projection on a side of the signal conducting connector (300) facing away from the antenna assembly (400), and the first projection and the second projection have a space therebetween.

5. The antenna module of claim 1, wherein a first pair of sockets (210) is disposed on the motherboard assembly (200), and a second pair of sockets (320) is disposed on the signal conducting connector (300) and mates with the first pair of sockets (210).

6. The antenna module of claim 5, wherein a shielding cover (330) is disposed on the signal conducting connector (300), the shielding cover (330) is located on one side of the overlapping elastic piece (500), and the overlapping elastic piece (500) is disposed close to the shielding cover (330).

7. An antenna module according to claim 5, characterized in that the antenna component (400) is also connected to the base (100).

8. A camera comprising a camera assembly (600), a camera stand (700) and an antenna module according to any one of claims 1-7;

wherein the camera bracket (700) is positioned on the side of the signal conduction connecting piece (300) facing the antenna component (400), the camera bracket (700) is connected with the base (100), and the camera component (600) is erected on the camera bracket (700).

9. The camera according to claim 8, characterized in that the camera further comprises a cover (120), the cover (120) covers the camera assembly (600), an edge of the base (100) is surrounded by a barrier (110), and the cover (120) is connectable to the barrier (110).

10. The camera of claim 8, characterized in that the camera bracket (700) is provided with a notch in which the antenna assembly (400) is located.

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