CN113132572A - Video camera - Google Patents

Abstract

An embodiment of the present application provides a camera, the camera includes: a body provided with a second opening; the second cover body is connected with the machine body at the second opening, and the second cover body and the machine body form a second cavity; the patch board is positioned in the second cavity and is used for being connected with a cable of the camera; wherein at least part of the cable is accommodated in the second cavity, and the second cover body can move relative to the machine body so as to open or close the second cavity. The camera has the advantages that the number of parts is small, the complexity of the structure of the camera is reduced, and when the camera body participates in the enclosing of the second cavity, the whole volume of the camera can be reduced on the premise of not reducing the volume of the second cavity, so that the miniaturization of the camera is facilitated.

Description

Video camera

Technical Field

The application relates to the technical field of video shooting, in particular to a camera.

Background

The camera, which can acquire information on the surrounding environment by taking a picture or video, includes a body and a cable for electrically connecting components to transmit signals. At present, the camera can also comprise a separate wire hiding box which is arranged on the machine body, and a through hole is arranged between the wire hiding box and the machine body so as to realize the passing of the cable. However, the cable-hiding box is mounted behind the body, resulting in a large volume of the camera and a small space for hiding the cable therein.

Disclosure of Invention

The application provides a camera, can reduce the volume of camera, increase line hiding space.

An embodiment of the present application provides a camera, the camera includes:

a body provided with a second opening;

the second cover body is connected with the machine body at the second opening, and the second cover body and the machine body form a second cavity;

the patch board is positioned in the second cavity and is used for being connected with a cable of the camera;

wherein at least part of the cable is accommodated in the second cavity, and the second cover body can move relative to the machine body so as to open or close the second cavity.

In one possible design, the second opening is disposed at one end of the body, and the end where the second opening is located is opposite to the end of the body where the lens is disposed.

In one possible design, the second opening includes a fifth end surface and a sixth end surface, the fifth end surface and the sixth end surface are connected along the length direction of the camera, and the fifth end surface is located outside the sixth end surface;

along the height direction of the camera, the body is provided with a central plane O, the fifth end surface and the sixth end surface are positioned on the same side of the central plane O, the plane where the sixth end surface is positioned is an inclined plane, along the length direction, the sixth end surface is provided with a first end part and a second end part which are oppositely arranged, the first end part is connected with the fifth end surface, and along the height direction, the distance between the first end part and the central plane O is greater than the distance between the second end part and the central plane O, so that when the second cavity is opened, the sixth end surface is prevented from blocking the sight of the patch board;

the fifth end surface and the sixth end surface are located on different planes.

In one possible embodiment, the acute angle between the fifth end face and the center plane O is smaller than the acute angle between the sixth end face and the center plane O.

In one possible embodiment, the fifth end face and the sixth end face have an arcuate transition therebetween.

In one possible embodiment, the fifth end face and/or the sixth end face are formed integrally with the fuselage.

In one possible design, the camera further comprises a trim piece located within the second cavity;

the decorative piece is connected with the machine body and encloses a fifth cavity;

the wiring board is located the fifth cavity, just the decoration is provided with the second through-hole, the second through-hole intercommunication the second cavity with the fifth cavity, so that in the second cavity the cable can pass through the second through-hole with the wiring board is connected.

In one possible design, the part of the fuselage that encloses the fifth cavity is provided with a recess that is recessed towards the outside of the fifth cavity;

the bottom wall of the sunken part is provided with a third through hole, the cable can penetrate out of the fifth cavity through the third through hole, and/or the cable can penetrate into the fifth cavity through the third through hole;

the side wall of the third through hole and the cable are sealed in a dispensing mode.

In one possible design, the camera further comprises a trim piece located within the second cavity;

the decoration includes first slope section, the wiring board is fixed set up in first slope section, when the second cavity is opened, first slope section makes wiring board and horizontal sight intersect.

In a possible design, the decoration and the body enclose a fifth cavity, the first inclined section is provided with a second through hole, and the second through hole is communicated with the second cavity and the fifth cavity, so that the cable in the second cavity can be connected with the patch board through the second through hole.

In one possible design, when the decoration is connected with the fuselage, the first inclined section is inclined by a third preset angle γ with respect to the height direction, so that the end surface of the first inclined section is inclined downwards;

wherein gamma is more than or equal to 10 degrees and less than or equal to 45 degrees.

In one possible design, the decoration further comprises a first horizontal section and a second horizontal section, the first inclined section, the first horizontal section and the second horizontal section are integrally formed, and the first horizontal section and the second horizontal section are located at two ends of the first inclined section;

the end surfaces of the first horizontal section and the second horizontal section are horizontal and are used for being connected with the machine body.

In one possible design, the fuselage has a center plane O in the height direction, the first horizontal section being located in the center plane O.

In one possible design, the trim piece further comprises a second angled section located between and integrally formed with the first angled section and the first horizontal section;

a fourth preset angle delta is formed between the second inclined section and the first horizontal section, and delta is more than or equal to 5 degrees and less than or equal to 30 degrees;

the height of the first inclined section is greater than the height of the second inclined section in the height direction.

In one possible design, the second horizontal section is provided with a support table, and the patch board is mounted on the support table;

the end face of the supporting table inclines relative to the height direction so that the inserting end of the wiring board inclines downwards and corresponds to the second through hole.

In one possible design, the body includes a second mating portion, and the second cover includes a first connecting portion for mating with the second mating portion;

the second matching part comprises a third inclined section which is obliquely arranged relative to the height direction, and a second sealing groove is formed in the third inclined section;

the first connecting part is provided with a third sealing groove, when the first connecting part is connected with the second matching part, the second sealing groove is communicated with the third sealing groove to form a sealing cavity, and the sealing cavity is of a planar structure;

and a second sealing piece is arranged in the sealing cavity and is of a planar structure.

In one possible design, the third inclined section and the first connection portion cooperate to form a second profile L2 of the camera, the second profile L2 being planar;

a first preset angle alpha is formed between the second parting plane L2 and the horizontal direction, and alpha is more than or equal to 15 degrees and less than or equal to 20 degrees.

In one possible design, the second mating portion further includes a third horizontal segment integrally formed with the third inclined segment;

the first connecting part comprises a fourth horizontal section, and the third horizontal section is detachably connected with the fourth horizontal section through a connecting piece;

when the third horizontal segment is connected with the fourth horizontal segment, the third horizontal segment and the fourth horizontal segment form a first profile L1 of the camera, the first profile L1 is horizontal, and the second cavity is closed;

when the third horizontal segment is not connected with the fourth horizontal segment, the second cavity can be opened downwards.

In one possible design, the first connection comprises a sixth cavity communicating with the environment outside the camera and separate from the second cavity;

the connecting piece is located in the sixth cavity, and the connecting piece is inclined relative to the height direction and faces the external environment of the camera.

In a possible design, the second fitting portion further includes a second arc-shaped section and a fourth inclined section, the second arc-shaped section, the fourth inclined section and the third inclined section are integrally formed, and the second arc-shaped section is located between the third inclined section and the fourth inclined section and is in arc transition with the third inclined section and the fourth inclined section;

the second cover body further comprises a second connecting part, the second connecting part and the first connecting part are integrally formed, the first connecting part participates in enclosing to form the second cavity, and the second connecting part does not participate in enclosing to form the second cavity;

the second matching part and the second connecting part form a third parting surface L3 of the machine body, a second preset angle beta is formed between the third parting surface L3 and the height direction, and beta is larger than or equal to 5 degrees and smaller than or equal to 10 degrees.

In one possible design, the camera further includes a rotating assembly, the rotating assembly is connected with the body and the second cover, and the second cover can rotate relative to the body;

when the second cover moves downwards relative to the machine body, the second cavity is opened, and when the second cover moves upwards relative to the machine body, the second cavity is closed.

In a possible design, the second cover body and the machine body can be detachably connected through a connecting piece, and the connecting piece and the rotating assembly are located on two opposite sides of the second cover body.

In one possible design, the rotating assembly includes a rotating shaft, and the second connecting portion of the second cover body is provided with a mounting hole for mounting the rotating shaft;

the lateral wall of mounting hole is provided with the bead, the bead orientation the inside arch of mounting hole, the pivot with the bead butt.

In one possible design, the rotating assembly further comprises a pressing plate, and the pressing plate is connected with the machine body;

the fuselage is provided with first pivot groove, the clamp plate is provided with second pivot groove, first pivot groove with the second pivot groove encloses into rotates the chamber, the pivot is located rotate the chamber, and can rotate the intracavity and rotate.

In one possible design, the rotating assembly further comprises a hook, and the hook is connected with the pressure plate;

the couple includes installation department and second extension, the installation department with the clamp plate is connected, the second extension orientation the outside of fuselage extends, just the couple is located the part in the fuselage outside is provided with the fourth through-hole, the fourth through-hole is used for being connected with the safety rope.

In one possible design, the camera further includes a threading part, the threading part is connected with the second cover body, and the cable can enter the second cavity through the threading part;

the first connecting part of the second cover body comprises a second mounting wall and an inclined wall, the second mounting wall and the inclined wall are integrally formed, the second mounting wall, the inclined wall and the machine body enclose a second cavity, and the threading part is connected with the second mounting wall;

the first connecting portion further comprises a matching surface used for being attached to the machine body, and the matching surface is parallel to the second mounting wall.

In one possible design, the inclined wall is further provided with a reinforcing rib, which is perpendicular to the second mounting wall.

In one possible design, the body is further provided with a first opening, and the second opening is separated from the first opening by a partition of the body;

the camera further comprises a first cover body, the first cover body is connected with the camera body at the first opening, and the first cover body and the camera body enclose a first cavity, so that the first cavity and the second cavity are separated by the separating portion.

In a possible design, the partition portion includes a first mating portion and a second mating portion, the first mating portion and the second mating portion are integrally formed, the first mating portion is used for being connected with the first cover body, and the first mating portion, the first cover body and the body portion enclose the first cavity;

the second matching part is located below the first matching part and is used for being connected with the second cover body, and the second matching part, the second cover body and the body part form a second cavity in an enclosing mode.

In this application embodiment, this second cavity can regard as the line chamber of hiding of camera, and when the fuselage participates in to enclose into the second cavity that is used for holding the wiring board for this camera need not to increase and hides line box, thereby reduces spare part quantity, reduces the complexity of camera structure, and the cable of camera is connected with the wiring board in this second cavity, and the two need not to be connected in the outside of fuselage. Meanwhile, when the camera body participates in the enclosing of the second cavity, the whole volume of the camera can be reduced on the premise of not reducing the volume of the second cavity, and therefore the miniaturization of the camera is convenient to achieve.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

Fig. 1a and 1b are schematic structural views of a camera according to an embodiment of the present disclosure in a specific embodiment, wherein a second cavity is in a closed state;

FIG. 2 is an enlarged view of a portion I of FIG. 1 b;

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a schematic structural view of a camera in one embodiment of the present application, wherein the second chamber is in an open state;

FIG. 5 is a front view of FIG. 4;

FIG. 6 is a partial cross-sectional view of FIG. 1;

FIG. 7 is a front view of FIG. 6;

fig. 8 is a schematic layout of cables of a camera provided in an embodiment of the present application;

FIG. 9 is an exploded view of FIG. 1;

FIGS. 10a and 10b are schematic structural views of the fuselage of FIG. 9;

FIG. 11 is a partial cross-sectional view of FIG. 10;

FIG. 12 is a partial structural view of the fuselage of FIG. 10 in another exemplary embodiment;

FIG. 13 is a schematic structural diagram of the first cover in FIG. 9;

FIG. 14 is a partial schematic view of the antenna mount and fuselage of FIG. 1 in mating configuration;

FIG. 15 is a schematic view of the antenna mount of FIG. 14;

FIG. 16 is a front view of FIG. 15;

FIG. 17 is a cross-sectional view of the first cover mated with the antenna mount;

FIG. 18 is a schematic view of the structure of the belt of FIG. 9;

FIG. 19 is a schematic structural diagram of the second cover in FIG. 9;

FIG. 20 is an enlarged view of a portion II of FIG. 19;

FIG. 21 is a cross-sectional view of FIG. 19;

FIG. 22 is a schematic view of the structure of the garnish of FIG. 9;

FIG. 23 is a cross-sectional view of FIG. 22;

FIG. 24 is a schematic view of the rotation assembly of FIG. 9; fig. 25 is an exploded view of fig. 24.

Reference numerals:

1-a fuselage;

11-a body portion;

111-a seventh cavity;

112-a first opening;

113-a second opening;

113 a-fifth end face;

113 b-sixth end face;

114-a first groove;

114 a-a first card slot;

114 b-first dispensing trough;

115-a recess;

115 a-a second glue dispensing tank;

116-a first shaft slot;

117-cable fixing holes;

118-first platen mounting holes;

119-a first hook mounting hole;

12-a partition;

121 — a first via;

122 — a first mating portion;

122 a-first seal groove;

122 b-first cover mounting hole;

123-a second mating portion;

123 a-sealing boss;

123 b-a third horizontal segment;

123 c-a third inclined section;

123 d-a second arc segment;

123 e-a fourth inclined section;

124-connecting hole;

125-decorative piece mounting holes;

126-ground screw hole;

127-patch board mounting holes;

13-a first cavity;

14-a second cavity;

15-a first seal;

16-a second seal;

2-a first cover;

21-a second groove;

211-a second card slot;

22-a second fastener;

23-a third cavity;

3-a second cover body;

31-a threading part;

32-a first connection;

321-a second seal groove;

322-a fourth horizontal segment;

333-a partition plate;

334-sixth cavity;

335-a second mounting wall;

336-inclined walls;

336 a-reinforcing ribs;

33-a second connecting portion;

331-a rotating shaft;

332-ribs;

333-a mating surface;

34-a connector;

4-a decorative strip;

41-a first buckle;

42-a second buckle;

43-a mating column;

5-a rotating assembly;

51-a platen;

511-a main body portion;

511 a-a second spindle slot;

511 b-a second platen mounting hole;

512-a first extension;

512 a-second hook mounting hole;

513-a limit boss;

52-hook;

521-a mounting part;

521 a-a third hook mounting hole;

522-a second extension;

523-fourth through hole;

53-third fastener;

54-a fourth fastener;

6-a cable;

61-a first cable;

62-a second cable;

7-an antenna mount;

71-a first fastener;

72-a body portion;

721-a first mounting wall;

722-a fourth cavity;

723-a first end face;

724-a second end face;

725-a third end face;

726-fourth end face;

727-cambered surface part;

727 a-pit;

728-a top surface;

73-an antenna assembly;

8-a decorative piece;

81-fifth cavity;

82-a first horizontal segment;

83-a second horizontal segment;

831-mounting posts;

832-a support table;

84-a first inclined section;

841-a second via;

85-a second inclined section;

86-a first arc segment;

87-a fifth fastener;

88-a sixth fastener;

9-patch board.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. 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 terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

The embodiment of the present application provides a camera, as shown in fig. 1 to 5, the camera includes a body 1 and a first cover 2, where the body 1 includes a body 11, the body 11 has a seventh cavity 111, the seventh cavity 111 may be used to accommodate components such as a main board, a control component, and an image pickup component of the camera, meanwhile, the body 11 of the body 1 may be provided with a first opening 112, the first opening 112 is recessed into the body 11, meanwhile, the second cover 2 is connected to the body 1 at the first opening 112, after the two are connected, the first cover 2 and the body 1 enclose a first cavity 13, where the first cavity 13 is used to place an antenna component 73 of the camera.

In this embodiment, the body 1 of this camera participates in and encloses into the first cavity 13 that is used for holding antenna module 73, need not to add the sheet metal component in the camera and encloses into the antenna chamber to can rational utilization body 1, improve the utilization ratio of body 1, and can save the part, reduce the assembly degree of difficulty of camera, improve assembly efficiency. Simultaneously, after omitting the sheet metal component, under the prerequisite that does not reduce the volume of first cavity 13, can also reduce the volume of camera to be convenient for realize the miniaturization of camera, can also reduce the weight of camera in addition.

The antenna assembly 73 in the embodiment of the present application may include a plurality of modules, for example, a GPS module, a connection module (wifi module or 4G module).

Specifically, in the camera, the body 1 may be made of a metal material, which serves as a framework of the camera, so as to improve the structural strength of the camera, and the first cover 2 may be made of a non-metal material, such as plastic, so as to reduce the weight and cost of the camera.

More specifically, as shown in fig. 10, the first opening 112 is disposed at one end of the body 1, and the end of the first opening 112 is opposite to the end of the body 1 where the lens is disposed, that is, the first opening 112 is disposed at the rear of the body 1 away from the lens. The end surface of the first opening 112 may be L-shaped, and the end surface of the first opening 112 is integrally formed with the body 1.

In the present embodiment, the first opening 112 is formed in the body 1 for installing the antenna assembly 73, so that the space of the body 1 can be utilized reasonably, which contributes to the miniaturization of the camera, and when the first opening 112 is L-shaped, the first opening 112 has a simple structure, and the operation of processing the first opening 112 in the body 1 is convenient.

In one embodiment, as shown in fig. 14-17, the camera may further include an antenna bracket 7, the antenna bracket 7 being used for mounting an antenna assembly 73, wherein the antenna bracket 7 is located in the first cavity 13, and the antenna bracket 7 is connected to the body 1.

In this embodiment, by additionally providing the antenna bracket 7 in the first cavity 13, each module of the antenna assembly 73 can be conveniently set, and each module of the antenna assembly 73 is prevented from shaking in the working process of the camera, and interference between the modules can be reduced.

Specifically, as shown in fig. 14 to 16, the main body 72 of the antenna bracket 7 may include one or more recesses 727a, the recesses 727a are recessed toward the inside of the main body 72 and have bottom walls, the bottom walls of the recesses 727a are connected to the main body 1 through the first fastening members 71, and the first fastening members 71 are located in the corresponding recesses 727 a.

In this embodiment, by providing the recess 727a for accommodating the first fastening member 71 in the main body portion 72 of the antenna mount 7, the connection between the antenna mount 7 and the main body 1 can be facilitated, and the space of the first cavity 13 occupied by the first fastening member 71 can be reduced, thereby facilitating the increase in volume of the antenna mount 7 and enhancing the signal of the antenna assembly 73 provided to the antenna mount 7.

Specifically, as shown in fig. 14 to 16, the antenna holder 7 may include a first end surface 723 and a second end surface 724 oppositely disposed along the length direction X of the camera, wherein the second end surface 724 is close to the main body 11 of the main body 1, the first end surface 723 is close to the first cover 2, and an end surface area of the first end surface 723 is smaller than an end surface area of the second end surface 724.

In this embodiment, the first end surface 723 and the second end surface 724 are substantially parallel, and when the area of the first end surface 723 is smaller than the area of the second end surface 724, the width of the rear portion of the camera can be reduced, and as shown in fig. 13, the cross-sectional area of the first cover 2 along the length direction X is gradually reduced, so that, in order to be adapted to the structure of the first cover 2, the antenna support 7 of this embodiment is configured such that the area of the first end surface 723 is smaller than the area of the second end surface 724, so that the antenna support 7 is adapted to the first cavity 13 enclosed by the first cover 2 and the main body 1, and the space of the first cavity 13 is maximally utilized.

More specifically, as shown in fig. 14 to 16, the main body portion 72 of the antenna holder 7 may further include a third end surface 725, a fourth end surface 726, two cambered surface portions 727 and a top surface 728, wherein the third end surface 725 and the fourth end surface 726 are disposed opposite to each other in the width direction Y, the third end surface 725 and the fourth end surface 726 are connected to the second end surface 724, the two cambered surface portions 727 are respectively located between the third end surface 725 and the first end surface 723 and between the fourth end surface 726 and the first end surface 723, the top surface 728 is located above the end surfaces and the cambered surfaces 727, the end surfaces, the cambered surfaces 727 and the top surface 728 are integrally formed and enclose the antenna holder 7 having a trapezoid-like structure, and the shape and the size of the antenna holder 7 are adapted to the shape and the size of the first cavity 13, so that the space of the first cavity 13 can be fully utilized.

Since the width of the first end surface 723 is smaller than the width of the second end surface 724, the recess 727a may be disposed on the curved surface portion 727, at least a portion of the antenna component 73 may be disposed on the top surface 728, and the antenna component 73 disposed on the top surface 728 may be connected to the antenna bracket 7 in a snap-fit manner.

In one embodiment, as shown in fig. 14-17, the antenna bracket 7 and the main body 1 can be connected by a first fastener 71, and the antenna assembly 73 and the main body 1 can be electrically connected by the first fastener 71.

In this embodiment, after the first fastening member 71 is connected to the body 1 and the antenna bracket 7, the antenna bracket 7 can be fixed to the body 1, so that the antenna assembly 73 is fixed to the body 1, the antenna assembly 73 is mounted in the body 1, and the antenna assembly 73 is prevented from shaking during the operation of the camera. Meanwhile, when the first fastener 71 electrically connects the body 1 and the antenna assembly 73, the antenna assembly 73 can be grounded without additionally arranging a sheet metal part, and the antenna assembly 73 and the body 1 are not connected through other parts (such as sheet metal parts), so that the grounding reliability is improved. In addition, the body 1 enclosing the first cavity 13 can also be used for shielding the interference of the first cable 61 to the antenna assembly 73, thereby improving the reliability of the signal.

As shown in fig. 10b, the main body 1 is provided with one or more grounding screw holes 126, and the first fastening member 71 may be a screw, a pin, or the like, so as to detachably connect the antenna bracket 7 and the main body 1. And the antenna bracket 7 and the body 1 can be connected through three first fasteners 71, and the three first fasteners 71 can be distributed in a triangular shape, so that the connection reliability between the body 1 and the antenna bracket 7 is improved.

In one possible design, at least part of the antenna component 73 is arranged to the antenna support 7 by means of a laser etching process.

Laser engraving is realized by instantly melting a processing material under the action of laser irradiation by utilizing a numerical control technology and a laser processing technology. In this embodiment, the material of the antenna assembly 73 may be engraved in the antenna support 7 by a laser engraving process, wherein the material of the antenna assembly 73 may be a conductive material such as metal, and the antenna support 7 may be a non-metallic material such as plastic, and in this embodiment, the antenna assembly 73 may be integrated in the antenna support 7 by the laser engraving process, and the antenna assembly 73 is not easily detached from the antenna support 7.

Of course, other processes may be used to connect the antenna assembly to the antenna holder 7, such as clamping, riveting, etc.

Specifically, as shown in fig. 14 to 17, the antenna holder 7 may include a plurality of wall surfaces, that is, the antenna holder 7 may have a polyhedral structure, in which a part of the wall surfaces is used to connect to the main body 1, another part of the wall surfaces is not connected to the main body 1, the wall surface that is not connected to the main body 1 is a first installation wall 721, and at least a part of the antenna assembly 73 is disposed on the first installation wall 721 through a laser etching process.

In the antenna assembly 73 shown in fig. 14 to 17, a part of the antenna assembly is connected to the top wall surface of the antenna holder 7 by means of clamping, and the other part of the antenna assembly is disposed on the antenna holder 7 by means of laser etching.

More specifically, as shown in fig. 17, the antenna holder 7 may have a fourth cavity 722 surrounded by the above-mentioned walls, as shown in fig. 8, the cable 6 includes the first cable 61 and the second cable 62, and the first cable 61 and the antenna assembly 73, and the second cable 62 enters the second cavity 14 through the threading part 31. Wherein at least a part of the first cable 61 connected with the antenna component 73 is located in the fourth cavity 722, therefore, the fourth cavity 722 of the antenna bracket 7 is used for accommodating the first cable 61, thereby making reasonable use of the space of the antenna bracket 7 and facilitating the connection between the first cable 61 and the antenna component 73.

Meanwhile, at least one of the wall surfaces enclosing the fourth cavity 722 is provided with a threading hole, and the first cable 61 can enter the fourth cavity 722 through the threading hole or pass out of the fourth cavity 722.

In the above embodiments, the first matching portion 122 of the main body 1 is used to connect with the first cover 2 so as to enclose the first cavity 13, and the third cavity 13 needs to be sealed so as to reduce the influence of the outside on the antenna component 73 in the third cavity 13. Specifically, as shown in fig. 10a and 11, the first matching portion 122 is provided with a first sealing groove 122a, the first sealing groove 122a surrounds the antenna support 7, the first sealing groove 122a is used for accommodating the first sealing member 15, when the first cover 2 is connected with the first matching portion 122 of the main body 1, the first cover 2 and the main body 1 can press the first sealing member 15, so as to seal the first cavity 13.

In a possible design, as shown in fig. 14, the first mating portion 122 of the main body 1 is provided with one or more first cover mounting holes 122b, and each first cover mounting hole 122b is located outside the first sealing groove 122a, as shown in fig. 17, the first cover 2 and the first mating portion 122 are connected by a second fastening member 22, meanwhile, the first cover 2 may further include a third cavity 23, the third cavity 23 is located outside the first sealing groove 122a, and the third cavity 23 is separated from the first cavity 13, and the second fastening member 22 is located in the third cavity 23.

In this embodiment, when the second fastening member 22 is located in the third cavity 23, the user does not observe the second fastening member 22 from the outside of the camera, thereby improving the appearance performance of the camera, and when the second fastening member 22 is located outside the first sealing groove 122a, the sealing performance of the first cavity 13 can be further improved.

The second fastening member 22 may also be a bolt, a screw, or the like, which can detachably connect the first cover 2 and the main body 1, thereby facilitating the maintenance and replacement of the antenna bracket 7.

In a possible design, as shown in fig. 9, the camera may further include a decoration band 4, and the decoration band 4 is used to cover the mating surface of the first cover 2 and the body 1, so as to further improve the appearance performance of the camera.

Specifically, as shown in fig. 10a, the outer surface of the body portion 11 of the body 1 is provided with a first groove 114, the first groove 114 extending in the circumferential direction of the body 1; correspondingly, as shown in fig. 13, the outer surface of the first cover 2 is provided with a second groove 21, the second groove 21 extends along the circumferential direction of the first cover 2, when the first cover 2 is connected to the machine body 1, the first groove 114 is communicated with the second groove 21, and the two are communicated to form an accommodating groove, wherein the accommodating groove is substantially U-shaped, and the decorative strip 4 is U-shaped and is matched with the accommodating groove. The depth of the accommodating groove is approximately the same as the thickness of the decoration band 4, and the decoration band 4 is positioned in the accommodating groove so as to cover the matching surface of the second cover body 2 and the machine body 1.

More specifically, one or more first engaging grooves 114a are disposed on two sides of the machine body 1 along the width direction Y, and correspondingly, first fasteners 41 are disposed on two sides of the inner end surface of the decoration band 4 along the width direction Y, and the first fasteners 41 are engaged with the corresponding first engaging grooves 114a, so that the connection between the machine body 1 and the decoration band 4 is realized, and the two are connected on two sides along the width direction Y, thereby improving the connection reliability of the two.

Meanwhile, the first cover body 2 and the body portion 11 of the body 1 are arranged along the length direction X of the camera, and along the length direction X of the camera, a second clamping groove 211 is arranged on one side of the first cover body 2 away from the body 1, correspondingly, a second buckle 42 is arranged on the inner end surface of the decorative strip 4 along the length direction X, and the second buckle 42 is clamped with the second clamping groove 211, so that the connection between the first cover body 2 and the decorative strip 4 is realized, and the two are connected along the length direction X.

In this embodiment, because the first cover 2 is connected to the body 1, when the decoration band 4 is connected to the body 1 along the width direction Y in a snap-fit manner and connected to the first cover 2 along the length direction X in a snap-fit manner, the movement of the decoration band 4 along the length direction X, the width direction Y and the height direction Z can be restricted, and the connection reliability between the decoration band 4 and the body 1 and the first cover 2 is improved.

In an embodiment, one of the body 1 and the decorative strip 4 is provided with a first dispensing slot 114b, the other is provided with a matching column 43, and the matching column 43 can be matched with the first dispensing slot 114b, and the matching column 43 and the side wall of the first dispensing slot 114b are fixed in a dispensing manner, so that the connection reliability of the body 1 and the decorative strip 4 can be further improved.

As shown in fig. 10a and 18, the engaging column 43 may be disposed on the decoration band 4, and the first dispensing groove 114b may be disposed on the body 1, so that the depth of the first dispensing groove 114b can be increased due to the large local thickness of the body 1.

In the above embodiments, as shown in fig. 10a, the body 11 of the main body 1 is further provided with the second opening 113, the first opening 112 and the second opening 113 are arranged along the height direction Z, and the first opening 112 and the second opening 113 are both located at the end of the main body 1 opposite to the lens, that is, the first opening 112 and the second opening 113 are both located at the rear portion of the body 11, and meanwhile, the first opening 112 and the second opening 113 are separated by the partition portion 12 of the main body 1, that is, the first opening 112 and the second opening 113 are arranged along the height direction Z. Meanwhile, the camera may further include a second cover 3, where the second cover 3 is connected to the body 1 at the second opening 113, and specifically, the second cover 3 may be connected to the second matching portion 123 of the partition portion 12, so that the second cover 3 and the body 1 enclose a second cavity 14, and at this time, the first cavity 13 and the second cavity 14 are separated by the partition portion 12 of the body 1.

In this embodiment, the body 1 is used for enclosing the first cavity 13 and also for enclosing the second cavity 14, so that the utilization rate of the body 1 can be further improved, the number of parts of the camera can be further reduced, the whole volume of the camera can be reduced while the volumes of the first cavity 13 and the second cavity 14 are increased, and the miniaturization is facilitated.

Specifically, as shown in fig. 4 and 5, the second opening 113 includes a fifth end surface 113a and a sixth end surface 113b, the fifth end surface 113a and the sixth end surface 113b are connected along the length direction X of the camera, and the fifth end surface 113a is located near one end of the body portion 11 of the body 1 (i.e., the fifth end surface 113a is closer to the lens than the sixth end surface 113 b). Based on the view shown in fig. 4, the end of the sixth end surface 113b far from the fifth end surface 113a is located above the end of the sixth end surface 113b near the fifth end surface 113a, and based on the central plane O of the body 1 along the height direction Z, the distance between the end of the sixth end surface 113b connected to the fifth end surface 113a and the central plane O is greater than the distance between the end of the sixth end surface 113b far from the fifth end surface 113a and the central plane O, that is, along the direction near the fifth end surface 113a, the distance between the sixth end surface 113b and the central plane O is gradually increased. The patch panel 9 of the camera can be mounted on the sixth end surface 113b, and when the end surface of the sixth end surface 113b faces downward, the sixth end surface 113b does not obstruct the view of the patch panel 9.

Meanwhile, the fifth end surface 113a and the sixth end surface 113b are located on different planes, and as shown in fig. 4, the fifth end surface 113a is inclined and inclined toward the second cover 3, and the inclination angles of the fifth end surface 113a and the sixth end surface 113b are different. As shown in fig. 4, the acute angle between the fifth end surface 113a and the central plane O is larger than the angle between the sixth end surface 113b and the central plane O.

Specifically, as shown in fig. 4, the fifth end surface 113a and the sixth end surface 113b are in arc transition, so that stress concentration after the second opening 113 is formed in the fuselage 1 is reduced, and the structural strength of the fuselage 1 is improved.

More specifically, the fifth end surface 113a and/or the sixth end surface 113b are integrally formed with the body 1, that is, the body 1 is provided with the second opening 113, and then the fifth end surface 113a and/or the sixth end surface 113b are formed.

The second cavity 14 can be used as a hidden wire cavity of the camera, that is, the second cable 62 of the camera is connected to other components after passing through the second cavity 14, for example, the first cable 61 in the second cavity 14 can be connected to the antenna component 73 in the first cavity 13, and the second cable 62 is used for being connected to the patch board 9 in the second cavity 14.

As shown in fig. 1, in the camera, after the first cover 2 and the second cover 3 are connected to the body 1, they are smoothly transited so that the whole tail of the camera is a curved surface structure.

Specifically, as shown in fig. 10 to 12, the partition 12 may be provided with a first through hole 121, and the first through hole 121 communicates the fourth cavity 722 with the fifth cavity 81, so that the first through hole 121 may be used for the first cable 61 to pass through, so that the first cable 61 can enter the fourth cavity 722 after entering the fifth cavity 81, so as to be connected with the antenna component 73 in the first cavity 13.

In the embodiments shown in fig. 10 to 11, the area of the first through hole 121 is larger, so as to ensure that the first cable 61 can pass through smoothly, and at this time, the first cavity 13 can be sealed by sealing the second cavity 14, that is, no separate sealing is needed between the first cavity 13 and the second cavity 14.

In the embodiment shown in fig. 12, the area of the first through hole 121 is small, and the first cable 61 for connecting with the antenna component 73 is sealed with the sidewall of the first through hole 121 by dispensing, so as to realize the sealing between the first cavity 13 and the second cavity 14, at this time, the sealing performance of the second cavity 14 does not affect the first cavity 13, and thus the sealing performance of the first cavity 13 can be further improved.

In one possible design, as shown in fig. 6 and 7, the camera may further comprise a patch panel 9, the patch panel 9 having a patch end for connecting with a second cable 62 of the camera, while the patch panel 9 is mounted in the second cavity 14. As described above, the body 1 is involved in enclosing the second cavity 14, specifically, the second cover 3 is connected to the body 1 at the second opening 113 of the body 1 so as to enclose the second cavity 14, and the second cover 3 can move relative to the body 1 so as to open or close the second cavity 14.

In this embodiment, this second cavity 14 can regard as the line hiding cavity of camera, and when fuselage 1 participates in and encloses into the second cavity 14 that is used for holding wiring board 9, make this camera need not to increase and hide the line box, thereby reduce spare part quantity, reduce the complexity of camera structure, and the second cable 62 of camera is connected with wiring board 9 in this second cavity 14, make fuselage 1 need not to reserve unnecessary cable, and second cable 62's interface passes through the wiring board fixedly, prevent that the interface from running disorderly. Meanwhile, when the body 1 participates in the enclosure of the second cavity 14, the overall volume of the camera can be reduced on the premise of not reducing the volume of the second cavity 14, so that the miniaturization of the camera is facilitated.

In addition, in this embodiment, the second cavity 14 can be opened or closed by the movement of the second cover 3 relative to the body 1, and when the second cavity 14 is in the opened state, the user can operate the second cavity 14, for example, the second cable 62 can be connected to the patch board 9, and when the second cavity 14 is in the closed state, the patch board 9 and other components located in the second cavity 14 can be protected by the second cover 3.

In a possible design, as shown in fig. 7, the camera may further include a decoration 8, the decoration 8 is located in the second cavity 14 and connected to the body 1, and the decoration 8 and the body 1 are connected to form a fifth cavity 81, the patch board 9 is located in the fifth cavity 81, so that the patch board 9 can be installed in the second cavity 14 through the decoration 8, and the decoration 8 can provide protection for the patch board 9.

Specifically, as shown in fig. 22, the decoration member 8 is provided with a second through hole 841, and the second through hole 841 communicates the second cavity 14 with the fifth cavity 81, so that the second cable 62 in the second cavity 14 can be connected with the patch panel 9 through the second through hole 841.

In this embodiment, the fifth cavity 81 is used for accommodating the patch panel 9 and is also used for accommodating a part of the cable 6 (the cable may include the first cable 61 for connecting with the antenna assembly 73 and may further include the second cable 62 for connecting with the patch panel 9), the first cavity 13 for accommodating the antenna assembly 73 is communicated with the fifth cavity 81, so that the first cable 61 for connecting with the antenna assembly 73 can pass through between the first cavity 13 and the fifth cavity 81, that is, the first through hole 121 provided in the partition 12 of the main body 1 is communicated with the first cavity 13 and the fifth cavity 81.

Specifically, as shown in fig. 7, a recessed portion 115 is disposed on a portion of the body 1 surrounding the fifth cavity 81, the recessed portion 115 is recessed toward an outer side of the fifth cavity 81, that is, the recessed portion 115 is recessed toward the seventh cavity 111 of the body 11 of the body 1, meanwhile, a bottom wall of the recessed portion 115 is provided with a third through hole, the third through hole communicates the fifth cavity 81 and the seventh cavity 111, a portion of the first cable 61 can pass through the fifth cavity 81 through the third through hole, and/or a portion of the first cable 61 can pass through the fifth cavity 81 through the third through hole, in this embodiment, the third through hole communicating the seventh cavity 111 and the fifth cavity 81 can enable the second cable 62 in the seventh cavity 111 to be connected to the patch board 9.

In this embodiment, by providing the recessed portion 115, the volume of the fifth cavity 81 can be increased without increasing the overall volume of the camera, so that the extrusion of the side walls of the fifth cavity 81 on the cable 6 is reduced, and the service life of the cable 6 is prolonged.

In addition, the sidewall of the third through hole is sealed with the first cable 61 by dispensing, so as to achieve sealing between the fifth cavity 81 and the seventh cavity 111, and meanwhile, as shown in fig. 11, the body 1 may further be provided with a second dispensing groove 115a, and the second dispensing groove 115a is communicated with the fifth cavity 81 by the third through hole, so as to further improve the sealing performance of the fifth cavity 81.

In one possible design, as shown in fig. 22 and 23, the decoration 8 may include a first inclined section 84, the second through hole 841 is disposed on the first inclined section 84, and when the decoration 8 is connected to the body 1, the first inclined section 84 is inclined by a third predetermined angle γ with respect to the height direction Z, and an end surface of the first inclined section 84 faces the second cover 3.

In this embodiment, after the patch board 9 is installed in the fifth cavity 81, the plug end thereof can be extended or exposed through the second through hole 841, so that the user can realize the plug of the second cable 62 and the patch board 9 through the second through hole 841. Meanwhile, when the first inclined section 84 provided with the second through hole 841 is inclined relative to the height direction Z, the plugging end of the patch board 9 is inclined downwards and faces the second cover 3, and when the second cavity 14 is in an open state, the plugging end arranged in an inclined manner can be operated conveniently by a user, the operating space of the user is large, and the risk of interference between the second cable 62 and each component in the first cavity 14 can be reduced.

Wherein, the value of the third preset angle γ can satisfy: γ is 10 ° ≦ γ ≦ 45 °, for example, 30 °, 40 °, or the like.

Specifically, as shown in fig. 22 and 23, the decoration 8 may further include a first horizontal section 82 and a second horizontal section 83, the first inclined section 84, the first horizontal section 82 and the second horizontal section 83 are integrally formed, and the first horizontal section 82 and the second horizontal section 83 are located at two ends of the first inclined section 84, wherein end surfaces of the first horizontal section 82 and the second horizontal section 83 are horizontal and are used for being connected with the fuselage 1, and the second horizontal section 83 can also be used for enclosing the fifth cavity 81.

The decoration 8 in this embodiment can be connected to the body 1 by providing the first horizontal segment 82 and the second horizontal segment 83, which are horizontal to the end surfaces, and can improve the reliability of connection between the decoration 8 and the body 1.

Specifically, as shown in the figure, the fuselage 1 has a central plane O along the height direction Z, the first horizontal segment 82 being located at the central plane O, wherein the first horizontal segment 82 is adapted to be connected to the third horizontal segment 123b of the fuselage 1, and therefore the third horizontal segment 123b is also located at the central plane O of the fuselage 1, so that the decoration 8 is connected to the fuselage 1 at the central plane O.

Specifically, as shown in fig. 10b, the body 1 may be provided with a patch panel mounting hole 127 to enable connection of the patch panel 9 with the body 1 in the fifth cavity 81, while the partition 12 of the body 1 is provided with one or more decoration mounting holes 125 to enable connection between the body 1 and the first horizontal section 82 of the decoration 8 through a fifth fastener 87. As shown in fig. 7, the second horizontal section 83 of the decoration 8 and the body 11 of the fuselage 1 may be connected by a sixth fastening member 88.

More specifically, as shown in fig. 22 and 23, the decoration element 8 may further include a second inclined section 85, the second inclined section 85 is located between and integrally formed with the first inclined section 84 and the first horizontal section 82, the second inclined section 85 and the first horizontal section 82 have a fourth preset angle δ therebetween, wherein the fourth preset angle δ may satisfy the following value: the fourth preset angle δ may be, for example, 10 °, 20 °, or the like, specifically 5 ° ≦ δ ≦ 30 °.

In this embodiment, as shown in fig. 7, the second inclined section 85 is disposed between the first horizontal section 82 and the first inclined section 84, and the second inclined section 85 is inclined toward the outer side of the fifth cavity 81, wherein the second inclined section 85 can participate in the enclosure of the fifth cavity 81 and can be used for avoiding the first through hole 121 disposed in the fuselage 1, so that the first cable 61 can pass through the first through hole 121, and the disposition of the second inclined section 85 can also reduce the risk of pressing the first cable 61 when the garnish 8 is connected to the partition 12 of the fuselage 1.

In addition, since the first inclined section 84 is provided with the second through hole 841 through which the wiring board 9 passes, it is necessary to secure a sufficient end surface area of the first inclined section 84. In this embodiment, as shown in fig. 23, a first distance D1 is provided between the upper and lower end surfaces of the garnish 8 along the height direction Z, and the larger the first distance D1 is, the larger the volume of the fifth cavity 81 is, so that, in an actual working condition, the first distance D1 may be set according to the size of the patch panel 9. Meanwhile, when the first distance D1 of the decoration 8 is fixed, the height of the first inclined section 84 is greater than the height of the second inclined section 85, so that the size of the first inclined section 84 can be increased as much as possible on the premise that the overall size of the decoration 8 is fixed, and the area of the end surface of the first inclined section 84 is increased.

Meanwhile, as shown in fig. 23, the second horizontal section 83 may be provided with a support base 832 and a mounting post 831, the support base 832 is located in the fifth cavity 81, as shown in fig. 7, the wiring board 9 is mounted on the mounting post 831 and the support base 832, wherein, as shown in fig. 23, the end surface of the support base 832 is inclined with respect to the height direction so that the socket end of the wiring board 9 is inclined and corresponds to the second through hole 841 of the first inclined section 84 of the decoration 8.

Specifically, as shown in fig. 23, the mounting post 831 may have a second height D2 along its axial direction, and by increasing the second height D2, the volume of the fifth cavity 81 can be increased, thereby increasing the wire-hiding space of the garnish 8.

Further, as shown in fig. 22, the decoration 8 may further include a first arc-shaped section 86, and the first arc-shaped section 86 is connected to both ends of the first inclined section 84 along the width direction Y, so that the first inclined section 84, the second inclined section 85, the second horizontal section 83, and the first arc-shaped section 86 of the decoration 8 enclose a frame-shaped structure having an inner cavity, and after the decoration 8 is connected to the fuselage 1, the inner cavity of the frame-shaped structure and the fuselage 1 enclose a fifth cavity 81.

In the above embodiments, the partition portion 12 of the body 1 includes the second fitting portion 123 for connecting with the second cover 3, wherein, as shown in fig. 10, the second fitting portion 123 includes the third inclined section 123c provided obliquely with respect to the height direction Z, and the third inclined section 123c is provided with the sealing boss 123 a. Accordingly, the second cover 3 includes a first connecting portion 32, the first connecting portion 32 is used for connecting with the second matching portion 123 of the body 1, and the second connecting portion 32 is provided with a second sealing groove 321. When the second cover 3 is connected to the body 1, the sealing boss 123a and the second sealing groove 321 form a sealing cavity, and the second sealing element 16 is disposed in the sealing cavity, wherein the sealing cavity and the second sealing element 16 are both planar structures.

As shown in fig. 3, when the second cover 3 is connected to the body 1, the third inclined section 123c of the second matching portion 123 matches with the first connecting portion 32 of the second cover 3 to form a second section L2 of the camera, in which the second section L2 is a plane and is inclined with respect to the horizontal direction and the vertical direction, wherein the second section L2 forms a first predetermined angle α with the horizontal direction, and the first predetermined angle α satisfies: the first preset angle α may be, for example, 18 °, 19 °, or the like, specifically, 15 ° ≦ α ≦ 20 °.

In this embodiment, the portion of the second connecting portion 32 of the second cover 3 that is engaged with the third inclined section 123c is a planar structure, so that the second planar surface L2 is formed after the second connecting portion and the third inclined section are engaged with each other, and at the same time, the second seal 16 between the second cover 3 and the machine body 1 is a planar structure, and the planar second seal 16 can improve the sealing performance of the second cavity 14 and simplify the structures of the second seal 16, the seal boss 123a, and the second seal groove 321.

The compression amount of the second sealing member 16 between the second cover 3 and the body 1 can be 20% to 40%, so that the second sealing member 16 is prevented from being compressed too much to fail, and the sealing performance of the second cavity 14 can be improved.

Specifically, as shown in fig. 10, the second matching portion 123 of the main body 1 may further include a third horizontal segment 123b, and the third horizontal segment 123b is integrally formed with a third inclined segment 123c, and accordingly, as shown in fig. 19 and 21, the first connecting portion 32 of the second cover 3 may further include a fourth horizontal segment 322, wherein when the second cover 3 is connected with the main body 1, the fourth horizontal segment 322 is horizontal, and when the second cover 3 is not connected with the main body 1, the fourth horizontal segment 322 may or may not be horizontal.

At this time, as shown in fig. 7, the third horizontal segment 123b and the fourth horizontal segment 322 are detachably connected by a connecting member 34, specifically, as shown in fig. 10b, the partition portion 12 of the main body 1 is provided with a connecting hole 124, and the connecting hole 124 is specifically provided in the third horizontal segment 123b of the partition portion 12, so that the third horizontal segment 123b and the fourth horizontal segment 322 are detachably connected by the connecting member 34, and when the two are in a connected state, the second cavity 14 is in a closed state, and when the two are in a non-connected state, the second cavity 14 can be in an open state.

In this embodiment, the connection position (the position of the connecting member 34) of the second cover 3 and the second matching portion 123 of the body 1 is located outside the second sealing member 16 therebetween, so that the second sealing member 16 does not need to be provided with a through hole for the connecting member 34 to pass through, thereby improving the integrity of the second sealing member 16 and the sealing performance of the second cavity 14. Meanwhile, the second engagement portion 122 is provided with the third horizontal section 123b, the outer contour of the third horizontal section 123b is arc-shaped, and the third inclined section 123c is smoothly transited, so that the formation of a sharp corner on the body 1 can be avoided, and similarly, the fourth horizontal section 322 is provided on the first connection portion 32 of the second cover 3, and the outer contour of the fourth horizontal section 322 is arc-shaped, so that the formation of a sharp corner on the second cover 3 can be avoided.

In addition, the connecting position of the second cover 3 and the second matching part 122 is horizontal, so as to facilitate the connection of the two, and after the two are connected, a first parting surface L1 of the camera is formed, as shown in fig. 3, the first parting surface L1 is horizontal, and the first parting surface L1 and the second parting surface L2 are in smooth transition, so as to improve the appearance performance of the camera.

In a possible design, as shown in fig. 7 and 21, the second cover 3 may include a sixth cavity 36, the sixth cavity 36 being in communication with the environment outside the camera and being separated from the second cavity 14 by a partition 333, while the connection piece 34 is located in the sixth cavity 36, and the connection piece 34 is inclined with respect to the height direction Z and faces the environment outside the camera.

In this embodiment, as shown in fig. 7, when the second cover 3 is connected to the main body 1 by the connecting member 34, the connecting member 34 is inclined, the sixth cavity 36 for accommodating the connecting member 34 is also inclined, and the sixth cavity 36 is inclined downward, so that the user can easily operate the connecting member 34 to connect the main body 1 to the second cover 3 and detach the connecting member 34 by the connecting member 34. Meanwhile, when the connecting piece 34 is located in the sixth cavity 36, the connecting piece 34 can be protected, and the connecting piece 34 can be shielded, so that the appearance performance of the camera is improved. The connecting member 34 may be specifically provided with a falling-off prevention device, which can prevent the connecting member 34 from falling off when the second cover 3 is not connected to the machine body 1, for example, the connecting member 34 may be specifically a falling-off prevention screw.

On the other hand, as shown in fig. 19, the second cover 3 may further include a second connecting portion 33, an inner cavity of the second connecting portion 33 is separated from an inner cavity of the first connecting portion 32, the first connecting portion 32 is used for enclosing the second cavity 14, and the second connecting portion 33 does not participate in enclosing the second cavity 14, and the second connecting portion 33 is engaged with the body 1. As shown in fig. 10a and 11, the second mating portion 123 may further include a second arc-shaped segment 123d and a fourth inclined segment 123e, the second arc-shaped segment 123d and the fourth inclined segment 123e are integrally formed with the third inclined segment 123c, and the second arc-shaped segment 123d is located between and is in arc transition with the third inclined segment 123c and the fourth inclined segment 123 e.

In this embodiment, as shown in fig. 19, the second connecting portion 33 has a mating surface 333, and the mating surface 333 is used for mating with the second arc-shaped section 123d and the fourth inclined section 123e, that is, when the second cover 3 and the body 1 are connected by the connecting member 34, the mating surface 333 mates with the second arc-shaped section 123d and the fourth inclined section 123e in a contour complementary manner, and forms a third parting surface L3 of the camera.

Therefore, as shown in fig. 3, when the second cover 3 and the body 1 are connected by the connecting piece 34, three parting surfaces are formed between the first parting surface L1, the second parting surface L2 and the third parting surface L3, which are smooth transitions between the three, and the second sealing element 16 between the second cover 3 and the body 1 corresponds to the second parting surface L2, and the second cavity 14 also corresponds to the second parting surface L2.

Wherein, this third profile L3 and direction of height Z form second predetermined angle β, and second predetermined angle β satisfies: 5 DEG-beta-10 DEG, for example, the second preset angle beta can be 7 DEG, 8 DEG, etc.

In this embodiment, when the third parting surface L3 is inclined with respect to the height direction Z, the volume of the second cavity 14 can be further increased.

In one embodiment, as shown in fig. 8, the camera may further include a threading portion 31, the threading portion 31 is connected to the second cover 3, and the second cable 62 can enter the second cavity 14 through the threading portion 31. Specifically, as shown in fig. 21, the first connecting portion 32 of the second cover 3 may further include a second mounting wall 335 and an inclined wall 336, the second mounting wall 38 is integrally formed with the inclined wall 39, and when the second cover 3 is connected to the main body 1, the second mounting wall 38, the inclined wall 39 and the main body 1 jointly enclose the second cavity 14.

Meanwhile, the threading part 31 is mounted to the second mounting wall 38, and specifically, the threading part 31 may be provided with an external thread, and accordingly, the second mounting wall 38 may be provided with an internal thread, so that the threading part 31 is threadedly coupled to the second mounting wall 38. And sealing structures such as a silica gel plug can be arranged inside the threading part 31, so that the cable inlet wire is sealed.

In addition, the first connecting portion 33 of the second cover 3 may further include a mating surface 333, the second sealing member 16 is disposed on the mating surface 333, and the mating surface 333 is parallel to the second mounting wall 38.

In this embodiment, the second cover 3 can be injection molded by a grinding tool, and when the second mounting wall 38 is parallel to the mating surface 333, both are perpendicular to the drawing direction of the second cover 3, so as to simplify the mold of the second cover 3, simplify the injection molding process of the second cover 3, and improve the production efficiency of the second cover 3.

More specifically, as shown in fig. 19 and 21, the inclined wall 39 is further provided with ribs 391, the ribs 391 can enhance the overall structural strength of the second lid body 3, and the ribs 391 are perpendicular to the second mounting wall 38. Similarly, when the reinforcing rib 391 is perpendicular to the second mounting wall 38, the extending direction of the reinforcing rib 391 is the same as the die drawing direction of the second lid 3, so that the die of the second lid 3 can be further simplified.

On the other hand, as shown in fig. 2 and 7, the camera may further include a rotating assembly 5, the rotating assembly 5 is connected to the body 1 and the second cover 3, so that the second cover 3 can rotate relative to the body 1 to open or close the second cavity 14, specifically, in the second cover 3, the second connecting portion 33 thereof is rotatably connected to the body 1 through the rotating assembly 5, meanwhile, the first connecting portion 32 thereof is detachably connected to the body 1 through the connecting member 34, and the connecting member 34 and the rotating assembly 5 are located at two opposite sides of the second cover 3.

Specifically, as shown in fig. 1 to 3, the first connecting portion 32 of the second cover 3 is connected to the main body 1 through a connecting member 34, and at this time, the second cavity 14 is in a closed state; when the connecting member 34 is removed, there is no connection between the first connecting portion 32 and the machine body 1, and at this time, under the action of the rotating assembly 5, the second cover 3 can rotate relative to the machine body 1, so as to open the second cavity 14, as shown in fig. 4 and 5, and the driving force for rotating the second cover 3 relative to the machine body 1 can be provided by the user, or, when the second cover 3 is connected below the machine body 1 and the connecting member 34 is not connected, the second cover 3 can rotate relative to the machine body 1 under the action of gravity, so as to open the second cavity 14.

Specifically, as shown in fig. 19 and 20, the second connecting portion 33 of the second cover 3 is provided with a mounting hole, the mounting hole is used for mounting a rotating shaft 331, the rotating shaft 331 is fixedly connected to the second connecting portion 33, and the rotating shaft 331 can rotate relative to the machine body 1, so as to drive the second cover 3 to rotate relative to the machine body 1.

As shown in fig. 20, a rib 332 is provided on a side wall of the mounting hole, the rib 332 protrudes toward the inside of the mounting hole, and the rib 332 is configured to abut against the rotating shaft 331. In this embodiment, the side wall of the mounting hole may be provided with a plurality of ribs 332, and each rib 332 is uniformly and alternately distributed on the side wall of the mounting hole. The arrangement of the ribs 332 can improve the connection reliability between the second connection portion 33 and the rotation shaft 331, and the ribs 37 can play a role in guiding and reducing friction resistance in the process that the rotation shaft 331 enters the installation hole.

Further, as shown in fig. 24 and 25, the rotating assembly 5 may further include a pressing plate 51, the pressing plate 51 is connected to the body 1, specifically, as shown in fig. 10b, the body 1 is provided with a first pressing plate mounting hole 118, and accordingly, as shown in fig. 25, the main body portion 511 of the pressing plate 51 may be provided with a second pressing plate mounting hole 511b, and the first pressing plate mounting hole 118 communicates with the second pressing plate mounting hole 511b, which are connected by a third fastening member 53.

Meanwhile, as shown in fig. 10b, the body 1 may be further provided with a first rotating shaft groove 116, and accordingly, as shown in fig. 24, the main body 511 of the pressing plate 51 may be further provided with a second rotating shaft groove 511a, when the pressing plate 51 is connected to the body 1, the first rotating shaft groove 116 and the second rotating shaft groove 511a enclose a rotating cavity, the rotating shaft 331 is located in the rotating cavity and can rotate in the rotating cavity, at this time, the pressing plate 51 is used for forming the rotating cavity and can be used for shielding the rotating shaft 331, so that a user cannot observe the rotating shaft 331 outside the camera, thereby protecting the rotating shaft 331 through the pressing plate 51 and improving the appearance performance of the camera.

In one possible design, as shown in fig. 24 and 25, the rotating assembly 5 may further include a hook 52, the hook 52 is connected to the pressing plate 51, specifically, as shown in fig. 10b, the body 1 may be provided with a first hook mounting hole 119, as shown in fig. 25, the pressing plate 51 may further include a first extension portion 512, the first extension portion 512 is integrally formed with the main body portion 511, the first extension portion 512 extends in a direction away from the second cover 3, the first extension portion 512 may be provided with a second hook mounting hole 512a, the hook 52 includes a mounting portion 521, the mounting portion 521 is provided with a third hook mounting hole 521a, and the three hook mounting holes communicate and are connected by a fourth fastener 54.

Specifically, the hook 52 may further include a second extension portion 522, the second extension portion 522 extends toward the outside of the body 1, a fourth through hole 523 is disposed in a portion of the hook 52 located outside the body 1, the fourth through hole 523 is used for being connected with a safety rope, and by providing the safety rope, the camera can be hung at a corresponding position, so that the safety of the camera in an actual working condition is improved.

In addition, the second extension 522 can also be used to shield the screw of the hook 52 connected to the body 1 so that the user does not see the screw outside the body 1.

In the above embodiments, in the video camera, the body 1 is made of metal, the first cover 2, the second cover 3, the decoration band 4, the rotating member 5, the decoration 8 and other components may be made of plastic, and the above components may be integrally formed, so that the overall weight of the video camera can be reduced, the structure of the video camera can be simplified, and the cost can be reduced.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (20)

1. A camera, characterized in that the camera comprises:

a body provided with a second opening;

the second cover body is connected with the machine body at the second opening, and the second cover body and the machine body form a second cavity;

the patch board is positioned in the second cavity and is used for being connected with a cable of the camera;

wherein at least part of the cable is accommodated in the second cavity, and the second cover body can move relative to the machine body so as to open or close the second cavity.

2. The camera of claim 1, wherein the second opening is disposed at an end of the body opposite to an end of the body at which the lens is disposed.

3. The camera of claim 1, wherein the second opening comprises a fifth end surface and a sixth end surface, the fifth end surface and the sixth end surface are connected along a length direction of the camera, and the fifth end surface is located outside the sixth end surface;

along the height direction of the camera, the body is provided with a central plane O, the fifth end surface and the sixth end surface are positioned on the same side of the central plane O, the plane where the sixth end surface is positioned is an inclined plane, along the length direction, the sixth end surface is provided with a first end part and a second end part which are oppositely arranged, the first end part is connected with the fifth end surface, and along the height direction, the distance between the first end part and the central plane O is greater than the distance between the second end part and the central plane O, so that when the second cavity is opened, the sixth end surface is prevented from blocking the sight of the patch board;

the fifth end surface and the sixth end surface are located on different planes.

4. A camera according to claim 3, characterized in that the acute angle between the fifth end face and the central plane O is smaller than the acute angle between the sixth end face and the central plane O.

5. The camera of claim 3, wherein the fifth end surface transitions from the sixth end surface in an arc.

6. A camera according to claim 3, wherein the fifth end face and/or the sixth end face are integrally formed with the body.

7. The camera of claim 1, further comprising a trim piece located within the second cavity;

the decorative piece is connected with the machine body and encloses a fifth cavity;

the wiring board is located the fifth cavity, just the decoration is provided with the second through-hole, the second through-hole intercommunication the second cavity with the fifth cavity, so that in the second cavity the cable can pass through the second through-hole with the wiring board is connected.

8. The camera according to claim 7, wherein a portion of the body enclosing the fifth cavity is provided with a recess, the recess being recessed toward an outside of the fifth cavity;

the bottom wall of the sunken part is provided with a third through hole, the cable can penetrate out of the fifth cavity through the third through hole, and/or the cable can penetrate into the fifth cavity through the third through hole;

the side wall of the third through hole and the cable are sealed in a dispensing mode.

9. The camera of claim 1, further comprising a trim piece located within the second cavity;

the decoration includes first slope section, the wiring board is fixed set up in first slope section, when the second cavity is opened, first slope section makes wiring board and horizontal sight intersect.

10. The camera of claim 9, wherein the decoration and the body enclose a fifth cavity, the first inclined section is provided with a second through hole, and the second through hole communicates the second cavity with the fifth cavity, so that the cable in the second cavity can be connected with the patch board through the second through hole.

11. The camera of claim 9, wherein the first inclined section is inclined by a third predetermined angle γ with respect to a height direction when the decoration is coupled to the body such that an end surface of the first inclined section is inclined downward;

wherein gamma is more than or equal to 10 degrees and less than or equal to 45 degrees.

12. The camera of claim 9, wherein the trim piece further comprises a first horizontal segment and a second horizontal segment, the first angled segment, the first horizontal segment, and the second horizontal segment are integrally formed, and the first horizontal segment and the second horizontal segment are located at both ends of the first angled segment;

the end surfaces of the first horizontal section and the second horizontal section are horizontal and are used for being connected with the machine body.

13. The camera of claim 12, wherein the body has a central plane O along the height direction, and the first horizontal segment is located at the central plane O.

14. The camera according to any one of claims 1 to 13, wherein the body includes a second fitting portion, and the second cover includes a first connecting portion for fitting with the second fitting portion;

the second matching part comprises a third inclined section which is obliquely arranged relative to the height direction, and a second sealing groove is formed in the third inclined section;

the first connecting part is provided with a third sealing groove, when the first connecting part is connected with the second matching part, the second sealing groove is communicated with the third sealing groove to form a sealing cavity, and the sealing cavity is of a planar structure;

and a second sealing piece is arranged in the sealing cavity and is of a planar structure.

15. The camera of any one of claims 1 to 13, further comprising a rotating assembly connected to the body and the second cover, the second cover being rotatable relative to the body;

when the second cover moves downwards relative to the machine body, the second cavity is opened, and when the second cover moves upwards relative to the machine body, the second cavity is closed.

16. The camera of claim 15, wherein the second cover and the body are detachably connected by a connecting member, and the connecting member and the rotating assembly are located on two opposite sides of the second cover.

17. The camera of claim 15, wherein the rotating assembly comprises a rotating shaft, and the second connecting portion of the second cover is provided with a mounting hole for mounting the rotating shaft;

the lateral wall of mounting hole is provided with the bead, the bead orientation the inside arch of mounting hole, the pivot with the bead butt.

18. The camera of any one of claims 1 to 13, further comprising a threading portion, the threading portion being connected to the second cover, the cable being capable of entering the second cavity through the threading portion;

the first connecting part of the second cover body comprises a second mounting wall and an inclined wall, the second mounting wall and the inclined wall are integrally formed, the second mounting wall, the inclined wall and the machine body enclose a second cavity, and the threading part is connected with the second mounting wall;

the first connecting portion further comprises a matching surface used for being attached to the machine body, and the matching surface is parallel to the second mounting wall.

19. The camera of claim 18, wherein the angled wall is further provided with a stiffener that is perpendicular to the second mounting wall.

20. The camera of any one of claims 1 to 13, wherein the body is further provided with a first opening, and the second opening is separated from the first opening by a partition of the body;

the camera further comprises a first cover body, the first cover body is connected with the camera body at the first opening, and the first cover body and the camera body enclose a first cavity, so that the first cavity and the second cavity are separated by the separating portion.

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