CN215680952U - Video camera - Google Patents

Abstract

The application discloses a camera, which belongs to the technical field of monitoring equipment, and comprises a supporting platform, a machine core and an antenna component, wherein the machine core comprises a shell and a camera arranged in the shell; the antenna component comprises a bearing main body, an antenna group and a first electric connecting piece, the bearing main body is arranged on the shell, the antenna group and the first electric connecting piece are arranged on the bearing main body, the antenna group comprises at least two antennas, each antenna is electrically connected with the first electric connecting piece, and the first electric connecting piece is electrically connected with the first circuit board through a second electric connecting piece. So set up, through integrating each antenna in bearing the main part, directly to bearing the main part install and to first electric connector wiring can. Each antenna is not dispersedly set up again, and need not to assemble respectively and the wiring to each antenna, simplifies the assembly procedure, avoids simultaneously because of the inconsistent unstable problem of performance that leads to of assembly, reduces the risk point.

Description

Video camera

Technical Field

The application belongs to the technical field of monitoring equipment, and particularly relates to a camera.

Background

The camera usually includes cloud platform and core, and the core includes the camera, still installs the circuit board in the cavity of core moreover, and the circuit board generally needs various antennas such as electric connection 5G antenna, WIFI antenna, bluetooth antenna and GPS antenna, and various antennas scatter to set up, need assemble respectively, so assembly operation steps are loaded down with trivial details, also leads to the unstable performance because of the assembly nonconformity easily, and the risk takes place easily, increases the assembly risk point.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide a camera, which can solve the problems that in the related art, antennas are dispersedly arranged, the assembly steps are complicated, and the performance is unstable and risk points are increased easily due to inconsistent assembly.

The embodiment of the application provides a camera, including supporting platform, core and antenna unit, wherein:

the machine core comprises a shell and a camera arranged in the shell, the shell is rotatably connected to the supporting platform, and a first circuit board is arranged in the shell;

the antenna component comprises a bearing main body, an antenna group and a first electric connecting piece, wherein the bearing main body is arranged on the shell, the antenna group and the first electric connecting piece are arranged on the bearing main body, the antenna group comprises at least two antennas, each antenna is electrically connected with the first electric connecting piece, and the first electric connecting piece is electrically connected with the first circuit board through a second electric connecting piece.

In the embodiment of the application, the antenna component is provided with at least two antennas and first electric connecting pieces electrically connected with the antennas, the bearing main body of the antenna component is directly installed in the shell or outside the shell, and then the first circuit board is electrically connected with the first electric connecting pieces through the second electric connecting pieces, so that the assembly of the antennas and the communication connection between the antennas and the first circuit board can be realized.

So set up, through integrating each antenna in bearing the main part, directly to bearing the main part install and to first electric connector wiring can. Each antenna bears the weight of the fixed position of main part relatively, and the dispersion setting no longer, and need not to assemble respectively and the wiring to each antenna, simplifies the assembly step, avoids simultaneously because of the inconsistent unstable problem of performance that leads to of assembly, reduces the risk point.

Drawings

FIG. 1 is an exploded schematic view of a camera as disclosed in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a camera disclosed in an embodiment of the present application;

fig. 3 is a schematic structural diagram of an antenna component disclosed in an embodiment of the present application;

FIG. 4 is an exploded schematic view of a camera as disclosed in yet another embodiment of the present application;

FIG. 5 is an exploded view of a camera disclosed in yet another embodiment of the present application;

FIG. 6 is a schematic view of a connection between a handle and a support platform according to an embodiment of the present disclosure.

Description of reference numerals:

100-a support platform; 110-a third opening; 120-a second threaded hole; 130-a second circuit board;

200-a movement; 210-a housing; 211 — a first opening; 220-a camera; 230-an antenna base; 231-second openings; 240-antenna cover plate; 250-a first circuit board;

300-an antenna component; 310-a carrier body; 320-an antenna circuit board; 330-GPS antenna;

400-connecting cables;

500-a screen assembly; 510-a first screen; 520-a second screen; 530-screen paste;

610-wide-angle lens; 620-lens holder; 630-a third circuit board; 640-a transparent decorative piece;

710-a handle; 711-first mounting hole; 720-an adapter; 730-screw.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly 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 that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

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.

The following provides embodiments of the present application through specific embodiments and application scenarios thereof with reference to the accompanying drawingsVideo cameraThe detailed description is given.

Referring to fig. 1-6, the present application discloses a camera, which includes a support platform 100, a movement 200, and an antenna assembly 300. The movement 200 is rotatably disposed on the support platform 100, and the antenna unit 300 is disposed on the movement 200.

The supporting platform 100 provides an installation basis for the movement 200, the movement 200 is a core component of the camera, the movement 200 mainly includes a camera, an imaging chip, a circuit board, and the like, and the movement 200 basically determines the picture condition of the camera, such as the factors affecting the picture taking, such as pixels, definition, angle of view, and the like.

In the technical solution of the present application, the movement 200 includes a housing 210 and a camera 220, the camera 220 is a camera shooting functional component of a camera, the camera 220 is installed in the housing 210, and the housing 210 is rotatably connected to the support platform 100, that is, the camera 220 can rotate synchronously with respect to the support platform 100 along with the housing 210.

Alternatively, as shown in fig. 2, the support platform 100 includes two support portions, the movement 200 is disposed between the two support portions, and two ends of the housing 210 are rotatably connected to the two support portions respectively. Specifically, a cylindrical groove may be provided in one of the housing 210 and the support portion, and a cylindrical protrusion may be provided in the other, the cylindrical protrusion extends into the cylindrical groove and can rotate relative to the cylindrical groove, and the axes of the cylindrical groove and the cylindrical protrusion are the rotation axes of the housing 210.

The antenna assembly 300 includes a main carrier body 310, an antenna group and a first electrical connector, the main carrier body 310 serves as a support member for mounting the antenna group and the first electrical connector, and the main carrier body 310 is disposed on the housing 210. That is, the antenna unit 300 rotates synchronously with the housing 210 relative to the support platform 100. Alternatively, the bearing body 310 may be disposed inside the housing 210, or may be disposed outside the housing 210. The antenna group and the first connecting piece are both arranged on the bearing main body 310, the antenna group comprises at least two antennas, each antenna is electrically connected with the first connecting piece, the first circuit board 250 is arranged in the shell 210, and the first connecting piece and the first circuit board 250 are electrically connected through the second connecting piece.

It should be noted that the antenna is a transducer for transmitting or receiving electromagnetic waves, and all that uses electromagnetic waves to transmit information depends on the antenna to operate.

In this embodiment, the first electrical connector includes a plurality of electrical connection lines, each antenna is correspondingly connected with an electrical connection line, one end of each electrical connection line is electrically connected with the corresponding antenna, the other end of each electrical connection line is connected together, the surface of the bearing main body 310 is provided with a jack, and the other end of each electrical connection line is arranged in the jack. Alternatively, the electrical connection wire may be embedded inside the carrier body 310, or may be disposed on a surface of the carrier body 310, so as to be electrically connected to the antenna.

The second electrical connector may be a connection cable 400, one end of the connection cable 400 is connected to the first circuit board 250, and the other end of the connection cable 400 is provided with a plug which can be inserted into the jack. In the case where the plug is inserted into the jack, the connection cable 400 is electrically connected to the respective electrical connection lines.

With this arrangement, by integrating the antennas into the main carrying body 310, the main carrying body 310 can be directly mounted and the first electrical connection member can be wired. Each antenna is fixed relative to the position of bearing main part 310, and the setting of no longer dispersedly, and need not to assemble respectively and the wiring to each antenna, simplifies the assembly procedure, avoids simultaneously because of the inconsistent unstable problem of performance that leads to of assembly, reduces the risk point.

Alternatively, the antenna component 300 may be disposed inside the housing 210, but since the antenna needs to transmit or receive signals, the material of the portion of the housing 210 corresponding to the antenna in the transmission direction of the antenna cannot be a material capable of generating signal interference, such as metal, and an anti-interference material capable of resisting electromagnetic interference needs to be selected. Specifically, in the transmission direction of the antenna, the material of the portion of the housing 210 corresponding to the antenna may be an anti-interference material, or the entire housing 210 may be made of an anti-interference material.

In this embodiment, the anti-interference material may be a plastic material, and the entire housing 210 is made of a plastic material. Although signal interference is avoided, the plastic housing 210 has poor waterproof and anti-aging properties, and the first circuit board 250 and the camera 220 inside the housing 210 are not protected sufficiently.

To solve the above technical problem, as shown in fig. 1, the antenna component 300 is disposed outside the housing 210, the main carrying body 310 is connected to the housing 210, the housing 210 is provided with a first opening 211 for the second electrical connector to pass through, and the housing 210 is made of metal. Specifically, the antenna assembly 300 is located on top of the camera 220, so that the antenna assembly 300 is not affected during the rotation of the housing 210 and the camera 220.

With such an arrangement, the casing 210 may be made of metal as a whole, which does not affect the transmission or reception of signals by the antenna component 300, and ensures the waterproof performance and the anti-aging performance of the movement 200; moreover, the antenna component 300 is externally disposed, so that the internal structure of the housing 210 is simplified, and the internal space of the housing 210 is reduced.

In an alternative embodiment, the movement 200 further includes an antenna base 230 and an antenna cover 240, the antenna base 230 is connected to the housing 210, the antenna cover 240 is fastened to a side of the antenna base 230 opposite to the housing 210, the antenna base 230 and the antenna cover 240 together form a cavity for accommodating the antenna component 300, that is, the antenna component 300 is installed in the cavity, the antenna base 230 is provided with a second opening 231 for the second electrical connector to pass through, and the first opening 211 corresponds to the second opening 231.

In this way, the second electrical connector, i.e., the connection cable 400, electrically connects the first circuit board 250 and the first electrical connection by passing through the first opening 211 and the second opening 231, which in turn pass through the housing 210 and the antenna base 230.

Specifically, the antenna base 230 may be fixedly disposed on an outer wall of the housing 210, and the antenna base 230 and the housing 210 may be fixedly connected by bonding, welding, or the like; of course, the antenna base 230 and the housing 210 may be detachably connected by bolts or the like. Similarly, the antenna base 230 and the antenna cover 240 may be fixedly connected by welding, bonding, or the like, or detachably connected by a clamping structure, a bolt, or the like. The carrying main body 310 may be fixedly disposed in the cavity, or may be detachably disposed in the cavity, and disposed according to the requirement of the user.

With this arrangement, the antenna unit 300 is enclosed and protected by the antenna base 230 and the antenna cover 240.

In other embodiments, the antenna base 230 may not be provided, and the antenna component 300 may be directly mounted on the outer wall of the housing 210 and fastened to the surface of the housing 210 by the antenna cover 240 to protect the antenna component 300.

In the present embodiment, the antenna base 230 is detachably connected to the antenna cover 240. Therefore, the antenna base 230 and the antenna cover 240 can be detached and separated, so that the antenna component 300 can be conveniently detached and installed, and later-period maintenance is facilitated.

Alternatively, the antenna base 230 and the antenna cover 240 may be detachably connected through a snap structure. Specifically, as shown in fig. 1, a plurality of clamping blocks are disposed on an edge of one of the antenna base 230 and the antenna cover plate 240, and a plurality of clamping grooves are disposed on an edge of the other one of the antenna base and the antenna cover plate, the clamping blocks and the clamping grooves are the same in number and are in one-to-one correspondence, each clamping block can extend into the corresponding clamping groove, and the clamping blocks are clamped with the corresponding clamping grooves. Of course, in other embodiments, the antenna base 230 and the antenna cover 240 may be detachably connected by bolts.

So set up, through the joint structure, the dismantlement process and the connection process of antenna base 230 and antenna cover plate 240 are simple and convenient, can not expose moreover, and decorative properties is good.

Optionally, as shown in fig. 3, the antenna group includes at least one of a 5G antenna, a WIFI antenna, a bluetooth antenna, and a GPS antenna 330. The 5G antenna is used for receiving 5G signals, the WIFI antenna is used for transmitting and receiving wireless signals, the bluetooth antenna is used for transmitting and receiving electromagnetic wave signals in the wireless communication system, and the GPS antenna 330 is used for receiving satellite signals. Specifically, in a case where the antenna group includes one of a 5G antenna, a WIFI antenna, a bluetooth antenna, and a GPS antenna 330, the number of the antennas is at least two; in the case where the antenna group includes at least two of the 5G antenna, the WIFI antenna, the bluetooth antenna, and the GPS antenna 330, the number of antennas is not limited, and each antenna may be one or more.

In this embodiment, as shown in fig. 3, the antenna group includes a 5G antenna, a WIFI antenna, a bluetooth antenna, and a GPS antenna 330. Wherein, 5G antenna, WIFI antenna and bluetooth antenna are antenna circuit board 320, and antenna circuit board 320 laminates in the surface that bears main part 310, and antenna circuit board 320 adopts flexible circuit board, and flexible laminating degree is better. It should be noted that the antenna circuit board 320 is a circuit board with an antenna soldered on the surface.

Specifically, the surface of antenna circuit board 320 is equipped with the locating hole, bears main part 310 and is equipped with the reference column, and the reference column runs through the locating hole to make antenna circuit board 320 can laminate in the surface that bears main part 310, then flatten the reference column through the hot riveting mode, the reference column after flattening is the slice, laminates in antenna circuit board 320, thereby prevents that the reference column from breaking away from the locating hole, realizes antenna circuit board 320 and bears the relative fixation of main part 310, avoids antenna circuit board 320 to break away from and bears main part 310. Of course, in other embodiments, the antenna circuit board 320 may be directly fixed to the surface of the carrier body 310 by bonding, welding, or the like.

Also, the bearing body 310 is provided with a groove, and the GPS antenna 330 is disposed in the groove. Specifically, the GPS antenna 330 is a module, and after the GPS antenna 330 is placed in the groove, the groove is filled with glue until the GPS antenna 330 is submerged. Thus, the waterproof performance of the GPS antenna 330 is effectively ensured.

In a further technical solution, as shown in fig. 4, the camera includes a screen assembly 500 disposed on the support platform 100, the screen assembly 500 includes a first screen 510 and a second screen 520 attached to each other, the first screen 510 is used for displaying an image, and the second screen 520 is used for being touched by a finger to control the image displayed by the first screen 510. That is, the first screen 510 is a display screen capable of displaying only images and has no touch control function, and the second screen 520 is a touch screen capable of touch control only and has no image display function.

The first screen 510 is disposed on the surface of the supporting platform 100, the second screen 520 is disposed on a side of the first screen 510 opposite to the supporting platform 100, the second circuit board 130 is disposed in the supporting platform 100, and the first screen 510 and the second screen 520 are both electrically connected to the second circuit board 130, so that the second circuit board 130 supplies power to the first screen 510 and the second screen 520, and meanwhile, signal transmission can be performed between the first screen 510 and the second screen 520, so that the first screen 510 performs an image display function and the second screen 520 performs a touch control function.

In this embodiment, the second screen 520 is a transparent screen, so that the user can see the image displayed on the first screen 510 through the second screen 520.

With the arrangement, various control operations can be performed on the camera through the first screen 510 and the second screen 520, such as subsequent adjustment of the support platform 100, adjustment of the camera 220, picture preview, wireless connection, equipment configuration and the like, which can be realized through the screen assembly 500, and the camera is more portable.

Optionally, the screen assembly 500 further includes a screen sticker 530 disposed between the first screen 510 and the second screen 520, and a surface of the screen sticker 530 facing the first screen 510 and a surface facing the second screen 520 are both provided with a connection adhesive.

Specifically, the first screen 510 and the second screen 520 may be fixed in a full-pasting manner, that is, the two side surfaces of the screen paste 530 are all covered with a connection glue, the contact positions of the first screen 510 and the screen paste 530 are all provided with a connection glue, and the contact positions of the second screen 520 and the screen paste 530 are all provided with a connection glue; the first screen 510 and the second screen 520 can also be fixed in a frame pasting manner, that is, the positions of the two side surfaces of the screen paste 530 close to the edges are provided with connecting glue, and glue is dispensed at the middle position of the connecting glue.

Both of the two ways can satisfy the sealing between the first screen 510 and the second screen 520, and no gap is formed between the first screen 510 and the second screen 520, thereby preventing water from entering and fogging.

So set up, can be earlier with first screen 510 and the laminating of second screen 520 connection through screen subsides 530, then install the assembly of first screen 510 and second screen 520 in supporting platform 100, can accurately install screen subassembly 500, avoid installing first screen 510 earlier and then installing second screen 520, lead to both screens misalignment to cause the picture crooked.

Optionally, the supporting platform 100 is provided with an inner cavity, the second circuit board 130 is disposed in the inner cavity, a fourth opening for installing the screen assembly 500 is formed in a wall of the inner cavity, the surface of the first screen 510 facing away from the second screen 520 is provided with an adhesive tape, and the screen assembly 500 can be attached to the fourth opening, so that the screen assembly 500 is fixed.

Moreover, a flexible circuit board is disposed on a side of the screen assembly 500 facing the inner cavity, the flexible circuit board is attached to the surface of the first screen 510, and the flexible circuit board is electrically connected to the second circuit board 130, so that the first screen 510 and the second screen 520 are electrically connected to the second circuit board 130.

In a further technical solution, as shown in fig. 5, the camera further includes a wide-angle lens 610 and a lens holder 620, the lens holder 620 is used for holding the wide-angle lens 610, the lens holder 620 is disposed on the supporting platform 100, and the wide-angle lens 610 is electrically connected to the second circuit board 130. Specifically, the lens holder 620 and the wide-angle lens 610 may be disposed outside the supporting platform 100, or may be disposed inside the supporting platform 100, so that the wide-angle lens 610 may be exposed.

So set up, increase wide-angle lens 610, can realize big scene control. For example, in the using process, a large area can be monitored through the wide-angle lens 610, and when the area is found to be abnormal, the abnormal area can be monitored by quickly zooming in the image through the automatic zooming function of the camera 220.

Meanwhile, due to the introduction of the wide-angle lens 610, the phenomenon that a panoramic picture is lost due to the fact that the camera 220 monitors a certain area all the time in the use process of the camera is avoided, and functions of panoramic monitoring and fixed-point tracking can be achieved.

Moreover, in some special scenes, the camera 220 and the wide-angle lens 610 may simultaneously implement different functions, for example, in a construction site, it is often necessary to implement a safety monitoring function, a progress monitoring function, and a person check-in and recognition function of the construction site. At the moment, the camera 220 can be used for carrying out a normal inspection function on the construction area, and meanwhile, the wide-angle lens 610 realizes the identification and sign-in of personnel, so that the multifunctional function of one machine is realized.

In this embodiment, as shown in fig. 5, a third circuit board 630 is disposed between the wide-angle lens 610 and the lens holder 620, the wide-angle lens 610 and the third circuit board 630, and the third circuit board 630 and the lens holder 620 can be connected by screws, and the third circuit board 630 and the second circuit board 130 are electrically connected. In this way, the third circuit board 630 can supply power to the image processing chip of the wide-angle lens 610.

After the focal length of the wide-angle lens 610 is adjusted to meet the product requirements, the focal length of the wide-angle lens 610 is fixed in a dispensing manner, and focal length change caused by misoperation is prevented.

Optionally, the supporting platform 100 is provided with an inner cavity, the wide-angle lens 610 and the lens holder 620 are both disposed in the inner cavity, a third opening 110 for exposing the wide-angle lens 610 is formed in a cavity wall of the inner cavity, and a gap between the wide-angle lens 610 and the third opening 110 is sealed in a dispensing manner, so that the sealing property and the water resistance are ensured; the third opening 110 is further provided with a transparent decoration 640 for shielding the wide-angle lens 610, and in this embodiment, the transparent decoration 640 is decorative glass, so as to perform a cloaking function, thereby being beneficial to beautifying the appearance of the camera.

In the related art, some of the handles of the video camera are hidden handles, some of the handles are body integrated handles, the hidden handles are not easy to find and are neglected to use, and the body integrated handles can be fully used, but can only be arranged at a fixed position, the position cannot be changed, the manufacturing cost is high, and the camera cannot be replaced.

To solve the above problem, as shown in fig. 6, the camera includes a handle 710, a connecting member is disposed between the handle 710 and the support platform 100, an end of the handle 710 is rotatably connected to the connecting member, and the connecting member is detachably disposed on the support platform 100. Specifically, the detachable connection between the connector and the supporting platform 100 can be realized through a threaded connection, a clamping structure, and the like.

With the arrangement, the handle 710 can be mounted or dismounted as required, and the handle 710 can be replaced, so that high cost and expense caused by integrated design are avoided; also, in the case where the connecting member is mounted to the support platform 100, the handle 710 is rotatable with respect to the connecting member, which corresponds to the handle 710 being movable with respect to the support platform 100. During use, the handle 710 can be rotated arbitrarily, and when the support platform 100 is not required to be lifted, the handle 710 naturally falls on the surface of the support platform 100 under the action of gravity.

Alternatively, the connecting member may be a screw 730, the handle 710 may be made of a belt material, the end of the handle 710 is provided with a first mounting hole 711, the screw 730 passes through the first mounting hole 711 and is detachably connected to the support platform 100, the surface of the support platform 100 may be provided with a second threaded hole 120, and the screw 730 extends into the second threaded hole 120 and is in threaded fit with the second threaded hole 120. In this way, both the rotatable connection of the handle 710 and the detachment of the handle 710 can be achieved. However, since the camera support platform 100 is usually made of a light material such as magnesium alloy and the screw 730 is made of stainless steel, electrochemical corrosion is likely to occur between the screw 730 and the camera support platform 100 when water comes into contact with the screw.

Further, an adapter 720 is disposed between the connecting member and the supporting platform 100, the adapter 720 is disposed on the supporting platform 100, and the connecting member is detachably connected to the adapter 720. Specifically, the adaptor 720 is an adaptor stud, which may be made of stainless steel. The adapter 720 is provided with a first threaded hole, the screw 730 penetrates through the first mounting hole 711 and is in threaded fit with the first threaded hole, the adapter 720 extends into the second threaded hole 120 and is in threaded fit with the second threaded hole 120, and a sealant is arranged between the adapter 720 and the second threaded hole 120. That is, the connecting member is connected to the adaptor 720 through a screw thread, and the adaptor 720 is fixedly connected to the support platform 100, so that the connecting member and the handle 710 can be detached from the support platform 100. In this way, the screw 730 and the adapter stud can improve the strength of the handle 710 locally.

Of course, in other embodiments, the adaptor 720 and the support platform 100 may be fixedly connected directly by welding, bonding, or the like.

So set up, utilize adaptor 720, separate screw 730 and supporting platform 100, can avoid meeting water between screw 730 and the supporting platform 100 and take place to corrode, do not influence dismantling of screw 730 again. And the point is glued between adaptor 720 and second screw hole 120 and is sealed, guarantees waterproof nature, prevents to meet the water and takes place to corrode between adaptor 720 and the supporting platform 100.

In a further embodiment, the screw 730 is sleeved with two gaskets, and the two gaskets are respectively positioned at two sides of the first mounting hole 711.

So set up, reduce the handle 710 friction of rotation in-process, guarantee to use smoothly.

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 (12)

1. A camera, characterized by comprising a support platform (100), a movement (200) and an antenna assembly (300), wherein:

the movement (200) comprises a shell (210) and a camera (220) arranged in the shell (210), the shell (210) is rotatably connected to the supporting platform (100), and a first circuit board (250) is arranged in the shell (210);

the antenna component (300) comprises a bearing main body (310), an antenna group and a first electric connecting piece, wherein the bearing main body (310) is arranged on the shell (210), the antenna group and the first electric connecting piece are arranged on the bearing main body (310), the antenna group comprises at least two antennas, each antenna is electrically connected with the first electric connecting piece, and the first electric connecting piece is electrically connected with the first circuit board (250) through a second electric connecting piece.

2. The camera according to claim 1, wherein the antenna component (300) is disposed in the housing (210), and a material of a portion of the housing (210) corresponding to the antenna in a signal transmission direction of the antenna is an anti-interference material;

or, the antenna component (300) is arranged outside the shell (210), the shell (210) is provided with a first opening (211) for the second electric connector to penetrate through, and the shell (210) is made of metal.

3. The camera according to claim 2, wherein the movement (200) further comprises an antenna base (230) and an antenna cover (240), the antenna base (230) is connected to the housing (210), the antenna base (230) and the antenna cover (240) together form a cavity for accommodating the antenna component (300), the antenna base (230) is provided with a second opening (231) for the second electrical connector to pass through, and the first opening (211) corresponds to the second opening (231).

4. The camera of claim 3, wherein the antenna base (230) is removably coupled to the antenna cover (240).

5. The camera of claim 1, wherein the antenna group comprises at least one of a 5G antenna, a WIFI antenna, a bluetooth antenna, and a GPS antenna (330), wherein the at least one of the 5G antenna, the WIFI antenna, and the bluetooth antenna is an antenna circuit board (320), the antenna circuit board (320) is attached to a surface of the bearing main body (310), the bearing main body (310) is provided with a groove, and the GPS antenna (330) is disposed in the groove.

6. The camera according to claim 1, wherein the camera comprises a screen assembly (500) disposed on the support platform (100), the screen assembly (500) comprises a first screen (510) and a second screen (520) attached to each other, the first screen is used for displaying images, the second screen is used for controlling the images by touching with a finger, the first screen is disposed on a surface of the support platform (100), the second screen is disposed on a side of the first screen opposite to the support platform (100), the support platform (100) is provided with a second circuit board (130), and the first screen (510) and the second screen (520) are electrically connected to the second circuit board (130).

7. The camera of claim 6, wherein the screen assembly (500) further comprises a screen paste (530) disposed between the first screen (510) and the second screen (520), wherein a surface of the screen paste (530) facing the first screen (510) and a surface facing the second screen (520) are both provided with a connection glue.

8. The camera of claim 1, further comprising a wide-angle lens (610) and a lens holder (620) for holding the wide-angle lens (610), wherein the lens holder (620) is disposed on the supporting platform (100), and the supporting platform (100) is provided with a second circuit board (130), and the wide-angle lens (610) is electrically connected to the second circuit board (130).

9. The camera according to claim 8, wherein the supporting platform (100) has an inner cavity, the wide-angle lens (610), the lens holder (620) and the second circuit board (130) are all disposed in the inner cavity, a third opening (110) for exposing the wide-angle lens (610) is opened on a wall of the inner cavity, and a transparent decoration (640) for shielding the wide-angle lens (610) is further disposed at the third opening (110).

10. The camera of claim 1, characterized in that the camera comprises a handle (710), a connecting member is arranged between the handle (710) and the support platform (100), an end of the handle (710) is rotatably connected with the connecting member, and the connecting member is detachably arranged on the support platform (100).

11. The camera of claim 10, wherein an adapter (720) is disposed between the connector and the support platform (100), the adapter (720) is disposed on the support platform (100), and the connector is detachably connected to the adapter (720).

12. The camera of claim 11, wherein the connecting member is a screw (730), a first mounting hole (711) is formed at an end of the handle (710), the adaptor (720) is provided with a first threaded hole, the screw (730) penetrates through the first mounting hole (711) and is in threaded fit with the first threaded hole, a second threaded hole (120) is formed in a surface of the supporting platform (100), the adaptor (720) extends into the second threaded hole (120) and is in threaded fit with the second threaded hole (120), and a sealant is arranged between the adaptor (720) and the first threaded hole.

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