CN112492229B - Camera device - Google Patents

Abstract

The application relates to an image pickup apparatus, which includes: the camera shooting assembly comprises a first camera shooting assembly and a second camera shooting assembly; the battery assembly is used for supplying power to the camera assembly; the box body comprises a body part, a first mounting plate, a third mounting plate and a partition plate, wherein the partition plate at least divides an inner cavity of the box body into a first cavity, a second cavity and a third cavity; the first mounting plate is a side wall of the second cavity, the third mounting plate is a side wall of the third cavity, the second cavity and the third cavity are positioned at two ends of the first cavity along the length direction, the first mounting plate and the third mounting plate are inclined relative to the first cavity, and the first mounting plate and the third mounting plate are positioned on different planes; the first camera shooting assembly is located in the second cavity and mounted on the first mounting plate, and the second camera shooting assembly is located in the third cavity and mounted on the third mounting plate. Two camera modules and battery pack can independently install in different cavities to reduce the influence between each part.

Description

Camera device

Technical Field

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

Background

The vehicle information acquisition camera is gradually applied to monitoring of road parking spaces, acquires information of vehicles in a photographing and/or video mode, records and charges parking time of the vehicles, and shows service conditions of the monitored parking spaces, and can replace an artificial charging mode. This vehicle information acquisition camera includes the box, and the box has the inner chamber, and electronic component such as camera all is located this inner chamber, can't realize each electronic component's independent installation, and liquid or impurity influence are located each electronic component's of this inner chamber performance when getting into this inner chamber.

Disclosure of Invention

The application provides a camera device which is convenient for realizing independent installation of electronic elements.

An embodiment of the present application provides an image pickup apparatus, including:

the camera shooting assembly comprises a first camera shooting assembly and a second camera shooting assembly;

the battery assembly is used for supplying power to the camera assembly;

the box body comprises a body part, a first mounting plate, a third mounting plate and a partition plate, wherein the partition plate at least divides an inner cavity of the box body into a first cavity, a second cavity and a third cavity;

the first mounting plate is a side wall of the second cavity, the third mounting plate is a side wall of the third cavity, the second cavity and the third cavity are positioned at two ends of the first cavity along the length direction, the first mounting plate and the third mounting plate are both inclined relative to the first cavity and positioned on different planes;

the first camera shooting assembly is located in the second cavity and mounted on the first mounting plate, and the second camera shooting assembly is located in the third cavity and mounted on the third mounting plate.

In one possible design, the first mounting portion further includes a fourth cavity, and the first cavity and the fourth cavity are arranged in a height direction of the camera device;

the fourth cavity is separated from the first cavity and communicated with the second cavity and the third cavity;

the camera device further comprises a first circuit board, and the first circuit board is located in the fourth cavity;

the first camera shooting assembly is connected with the first circuit board, the second camera shooting assembly is connected with the first circuit board, and the battery assembly is connected with the first circuit board.

In one possible design, the case includes a body portion and a bottom plate;

the bottom plate is connected with the body part, and forms a bottom wall of the fourth cavity;

a first seal is disposed between the base plate and the body portion.

In one possible design, the first mounting portion includes a first cover plate that is detachably connected to the body portion;

the first cover plate and the body part enclose the first cavity;

the bottom of the first cavity is provided with a first drainage port.

In one possible design, the battery assembly includes a battery cell, a housing, and a top cover;

the top cover is connected with the shell and forms a fifth cavity in a surrounding mode, and the plurality of battery units are located in the fifth cavity;

and a first sealant is filled in the fifth cavity, and the thickness of the battery unit covered by the first sealant is larger than 2 mm.

In one possible design, the battery assembly further includes a power lead and a power connector;

the casing has been seted up the third through hole, the power wire passes through the third through hole stretches out the casing, the third through hole sets up the point and glues sealedly.

In one possible design, the second mounting portion includes a second cover plate that encloses the second cavity with the body portion and the base plate;

the second cover plate is detachably connected with the body part, and a second sealing element is arranged between the second cover plate and the body part;

the camera device also comprises a second circuit board, and the second circuit board is connected with the first circuit board; the second circuit board is located in the second cavity or the third cavity.

In one possible design, the second mounting portion further includes a sixth cavity located at a top of the second cavity;

the camera device further comprises a first antenna, the first antenna is provided with a first conducting wire, and the first antenna is mounted in the sixth cavity;

the sixth cavity and the second cavity are separated by a second partition plate, the second partition plate is provided with a first through hole, the first lead penetrates through the first through hole and extends into the second cavity, and the first through hole is sealed by dispensing;

and a second water outlet is formed in the sixth cavity.

In one possible design, the third mounting portion further includes a seventh cavity, the seventh cavity being located at a top of the third cavity;

the camera device further comprises a second antenna, the second antenna is connected with a second lead, and the second antenna is mounted in the seventh cavity;

the seventh cavity and the third cavity are separated by a third partition plate, the third partition plate is provided with a second through hole, the second lead extends into the third cavity through the second through hole, and the second through hole is sealed by dispensing;

the seventh cavity is provided with a third water outlet.

In a possible design, the second mounting portion further comprises a second mounting plate, the first mounting plate and the second mounting plate are both inclined relative to the length direction, the first mounting plate and the second mounting plate are both inclined relative to the width direction, and the inclination directions of the first mounting plate and the second mounting plate are opposite;

the third mounting portion further comprises a fourth mounting plate, the third mounting plate and the fourth mounting plate are inclined relative to the length direction, the third mounting plate and the fourth mounting plate are inclined relative to the width direction, and the inclination directions of the third mounting plate and the fourth mounting plate are opposite;

along length direction, first mounting panel with the third mounting panel is close to each other, and the incline direction of the two is opposite.

In one possible design, the camera assembly includes a lens component;

the camera shooting assembly further comprises a first transparent plate and a first transparent pressing block;

the inner end surfaces of the first mounting plate and the third mounting plate are provided with first bulges, the first bulges are provided with lens mounting holes, and the first transparent plate is mounted in the lens mounting holes through the first transparent pressing block and blocks the lens mounting holes;

a third sealing element is arranged between the first transparent plate and the first transparent pressing block;

the lens component is arranged on the first protrusion and is positioned on the inner side of the first transparent plate.

In one possible design, the camera assembly further includes a photosensitive component;

the inner end surfaces of the first mounting plate and the third mounting plate are provided with second protrusions, and the second protrusions are provided with photosensitive mounting holes;

the photosensitive part is installed in the photosensitive mounting hole, the photosensitive mounting hole is filled with second sealant, and the thickness of the second sealant is larger than 3 mm.

In one possible design, the camera device further comprises a distance measurement assembly, and the distance measurement assembly comprises a first distance measurement assembly and a second distance measurement assembly;

along the length direction, the second mounting plate and the fourth mounting plate are far away from each other, and the inclination directions of the second mounting plate and the fourth mounting plate are opposite;

the first distance measuring assembly and the second distance measuring assembly are respectively arranged on the second mounting plate and the fourth mounting plate.

In one possible design, the ranging assembly includes a radar component;

third bulges are arranged on the inner end surfaces of the second mounting plate and the fourth mounting plate, radar mounting holes are formed in the third bulges, and the radar components are mounted in the radar mounting holes;

and the radar mounting hole is filled with a third sealant, and the thickness of the third sealant is more than 2 mm.

In one possible design, the distance measuring assembly further includes a light supplement component;

the distance measuring assembly further comprises a second transparent plate and a second transparent pressing block;

the inner end surfaces of the second mounting plate and the fourth mounting plate are provided with fourth protrusions, the fourth protrusions are provided with light supplement mounting holes, and the second transparent plate is mounted in the light supplement mounting holes through the second transparent pressing block and blocks the light supplement mounting holes;

a fourth sealing element is arranged among the second mounting plate, the fourth mounting plate and the second transparent plate;

the light supplementing component is installed in the light supplementing installation hole and is located on the inner side of the second transparent plate.

In this application, this camera device's the subassembly of making a video recording is supplied power by battery pack, thereby need not to act as go-between external power supply, also need not complicated municipal administration and electric power construction, use and maintenance are convenient, wherein, in this camera device, the inner chamber of box is separated for first cavity, second cavity and third cavity, make two subassembly and battery pack of making a video recording install respectively in above-mentioned three cavity, thereby make two influence each other between subassembly and the battery pack of making a video recording reduce, when liquid gets into a certain cavity, reduce the influence of liquid to other cavity internals, furthermore, when subassembly and the battery pack of making a video recording are located different cavities, the two can adopt the difference, suitable sealing means, thereby improve the sealing reliability of each part. Meanwhile, the first mounting plate for mounting the first camera shooting assembly and the third mounting plate for mounting the second camera shooting assembly are located on different planes, so that the camera shooting device can shoot in different directions and different positions, and the function of the camera shooting device is improved.

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. 1 is a schematic structural diagram of an image capturing apparatus provided in the present application in an embodiment;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 1 with the first cover plate and the second cover plate removed;

FIG. 4 is a partial exploded view of FIG. 1 with the first cover plate removed;

FIG. 5 is a partial cross-sectional view of FIG. 1;

fig. 6 is an exploded view of the battery assembly of fig. 4;

fig. 7a, 7b and 7c are schematic structural views illustrating the camera module of fig. 1 mounted on the first mounting plate or the third mounting plate;

FIG. 8 is an exploded view of FIG. 7 a;

9a, 9b, and 9c are schematic structural views illustrating that the distance measuring assembly in FIG. 1 is mounted on the second mounting plate or the fourth mounting plate;

FIG. 10 is an exploded view of FIG. 9 a;

fig. 11 is a diagram of an application scenario of the image capturing apparatus according to an embodiment of the present application.

Reference numerals are as follows:

1-a first mounting portion;

11-a first cavity;

111-a first drain;

112-lead portions;

12-a fourth cavity;

13-a first cover plate;

2-a second mounting portion;

21-a second cavity;

22-a first antenna;

221-a first wire;

23-a first mounting plate;

24-a second mounting plate;

25-a second cover plate;

26-a second seal;

27-a sixth cavity;

271-a second water outlet;

3-a third mounting portion;

31-a third cavity;

32-a second antenna;

321-a second conductive line;

33-a third mounting plate;

34-a fourth mounting plate;

35-a seventh cavity;

351-a third water discharge port;

4-a camera assembly;

41-lens component;

411-a first platen;

411 a-attachment hole;

42-a photosensitive member;

43-a first projection;

431-lens mounting hole;

44-a second projection;

441-photosensitive mounting holes;

442-a second sealant;

45-a first transparent compact;

46-a first transparent plate;

47-a third seal;

5-a distance measuring assembly;

51-a radar component;

52-a light supplement component;

521-a second press plate;

53-third projection;

531-radar mounting holes;

532-third sealant;

54-a fourth projection;

541-a light supplement mounting hole;

55-a second transparent plate;

56-second transparent pressing block;

57-a fourth seal;

58-pressing strip;

6-a battery pack;

61-a battery cell;

62-a housing;

63-a top cover;

64-power conductors;

641-a linker;

65-a first sealant;

7-a first circuit board;

71-a first joint;

72-a third wire;

8-a second circuit board;

9-a box body;

91-a body portion;

92-a base plate;

93-a first seal;

94-a first separator plate;

95-a second separator;

96-a third separator;

97-a fourth separator;

98-fifth baffle.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the 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 directional terms such as "upper", "lower", "left", "right", etc. described in the embodiments of the present application are described in 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.

It should be noted that the terms of orientation such as "length direction X", "width direction Y", and "height direction Z" mentioned in the present application are defined by the relative position relationship of the mounting cavities of the image pickup apparatus, wherein the arrangement direction of the second cavity 21, the first cavity 11, and the third cavity 31 is the length direction X, the arrangement direction of the first cavity 11 and the fourth cavity 12 is the height direction Z, and the direction perpendicular to both the length direction X and the height direction Z is the width direction Y.

The embodiment of the application provides a camera device, this camera device is used for the monitoring of roadside side position parking, installs in the side of curb for carry out the record and charge to the parking time of vehicle, thereby obtain the in service behavior by the control parking stall, this camera device can replace artifical charging, plays the effect of economizing on the manpower, and simultaneously, this camera device installs in the side of curb, and is less to vehicle and pedestrian's influence.

As shown in fig. 1 to 5, the camera device includes a box 9, a camera assembly 4 and a battery assembly 6, wherein the camera assembly 4 specifically includes a first camera assembly and a second camera assembly, both the first camera assembly and the second camera assembly are used for acquiring information of a vehicle, and the battery assembly 6 is used for supplying power to the camera assembly 4; the box body 9 comprises a body part 91, a first mounting plate 23, a third mounting plate 33 and a partition plate, wherein the partition plate divides the inner cavity of the box body 9 into at least a first cavity 11, a second cavity 21 and a third cavity 31; the first mounting plate 31 is a side wall of the second cavity 21, the third mounting plate 33 is a side wall of the third cavity 31, the second cavity 21 and the third cavity 31 are located at two ends of the first cavity 11 along the length direction X, and the first mounting plate 23 and the third mounting plate 33 are both inclined with respect to the first cavity 11 and located on different planes; the first camera assembly is located in the second cavity 21 and mounted to the first mounting plate 23, and the second camera assembly is located in the third cavity 31 and mounted to the third mounting plate 33.

In this application, this camera device's subassembly 4 of making a video recording is supplied power by battery pack 6, thereby need not the external power supply of acting as go-between, also need not complicated municipal administration and electric power construction, use and maintenance are convenient, wherein, in this camera device, the inner chamber of box 9 is separated for first cavity 11, second cavity 21 and third cavity 31, make two subassembly 4 and the battery pack 6 of making a video recording to install respectively in above-mentioned three cavity, thereby make two mutual influence between subassembly 4 and the battery pack 6 of making a video recording reduce, when liquid gets into a certain cavity, reduce the influence of liquid to other cavity inner parts, in addition, when subassembly 4 and the battery pack 6 of making a video recording are located different cavities, the two can adopt the difference, suitable sealing method, thereby improve the sealing reliability of each part. Meanwhile, the first mounting plate 23 for mounting the first camera shooting assembly and the third mounting plate 33 for mounting the second camera shooting assembly are positioned on different planes, so that the camera shooting device can shoot in different directions and different positions, and the function of the camera shooting device is improved.

The box body 9 includes a first mounting portion 1, a second mounting portion 2, and a third mounting portion 3, and the first mounting portion 1, the second mounting portion 2, and the third mounting portion 3 are integrally formed, the first cavity 11 is located in the first mounting portion 1, the second cavity 21 is located in the second mounting portion 2, and the third cavity 31 is located in the third mounting portion 3.

Specifically, as shown in fig. 1 and 3, the first mounting plate 23 and the third mounting plate 33 both protrude from the first cavity 11 in the width direction Y of the image pickup apparatus, and the first mounting plate 23 and the third mounting plate 33 are inclined in opposite directions, and the first mounting plate 23 and the third mounting plate 33 are gradually separated from each other in the width direction Y and in a direction away from the first cavity 11.

In this embodiment, as shown in fig. 1 and 3, the first mounting plate 23 and the third mounting plate 33 are inclined relatively and arranged oppositely, as shown in fig. 11, the shooting direction of the first camera module mounted on the first mounting plate 23 faces the second camera module, and the shooting direction of the second camera module mounted on the third mounting plate 33 faces the first camera module, that is, the first camera module and the second camera module shoot crosswise.

In a possible design, as shown in fig. 1 and 3, the box body 9 further includes a second mounting plate 24 and a fourth mounting plate 34, the second mounting plate 24 and the fourth mounting plate 34 both protrude from the first cavity 11 along the width direction Y, the second mounting plate 24 is the other side wall of the second cavity 21, the second mounting plate 24 is connected with the first mounting plate 23 and the body portion 91, the fourth mounting plate 34 is the other side wall of the third cavity 31, and the fourth mounting plate 34 is connected with the third mounting plate 33 and the body portion 91; the first mounting plate 23 and the third mounting plate 33 are located between the second mounting plate 24 and the fourth mounting plate 34 along the length direction X.

In this embodiment, the first mounting plate 23 and the second mounting plate 24 are two side walls of the second cavity 21 and both are connected to the main body 91, and similarly, the third mounting plate 33 and the fourth mounting plate 34 are two side walls of the third cavity 31 and both are connected to the main body 91, wherein the second mounting plate 24 and the fourth mounting plate 34 can be used for mounting other components of the camera module. Meanwhile, in the camera device, when the first mounting plate 23, the second mounting plate 24, the third mounting plate 33 and the fourth mounting plate 34 all protrude out of the first cavity 11, the first cavity 21 can be prevented from influencing the work of each part mounted on the four mounting plates, and the camera accuracy is improved.

Specifically, the second mounting plate 24 and the fourth mounting plate 34 are both inclined with respect to the first cavity 11, and the first mounting plate 23 and the second mounting plate 24 are inclined in opposite directions, and the third mounting plate 33 and the fourth mounting plate 34 are inclined in opposite directions.

In the present embodiment, when the second attachment plate 24 and the first attachment plate 23 are inclined in the opposite directions, the volume of the second chamber 21 can be increased to increase the attachment space for other members such as the first imaging unit, and similarly, when the fourth attachment plate 34 and the third attachment plate 33 are inclined in the opposite directions, the volume of the third chamber 31 can be increased to increase the attachment space for other members such as the second imaging unit.

Wherein, the inclination of above-mentioned four mounting panels can be the same, also can be different, and the inclination of each mounting panel can set up according to concrete operating mode, and this application does not do the injeciton to the inclination of each mounting panel.

More specifically, in the embodiment shown in fig. 1, the first mounting plate 23 and the third mounting plate 33 are symmetrical with respect to the center line of the first cavity 11 along the length direction X; similarly, the second mounting plate 24 and the fourth mounting plate 34 are symmetrical with respect to the center line of the first cavity 11 along the length direction X.

In this embodiment, this first cavity 11 is the cuboid structure, consequently, along length direction X, this camera device's box 9 is the axisymmetric structure to reduce camera device's structural complexity, and reduce its processing degree of difficulty, simultaneously, camera device's outward appearance performance can also be improved to this box 9's symmetrical formula structure, thereby improves user experience.

The first, second, third and fourth mounting plates 23, 24, 33 and 34 are integrally formed with the main body 91, so that a connection structure is not required between each mounting plate and the main body 91, thereby simplifying the structure of the image pickup apparatus, and a seal structure of the image pickup apparatus is simplified because the connection between each mounting plate and the main body 91 is not required to be sealed.

In the above embodiments, the cavity of the box 9 further includes a fourth cavity 12, that is, the cavity is divided into the first cavity 11, the second cavity 21, the third cavity 31 and the fourth cavity 12 by a partition board, where the fourth cavity 12 is located below the first cavity 11, the fourth cavity 12 is separated from the first cavity 11, the first circuit board 7 of the image pickup device is located in the fourth cavity 12, and the fourth cavity 12 communicates the second cavity 21 and the third cavity 31, the first image pickup assembly is connected to the first circuit board 7, the second image pickup assembly is connected to the first circuit board 7, the first circuit board 7 is used to collect the vehicle information obtained by the first image pickup assembly and the second image pickup assembly, and the battery assembly 6 is connected to the first circuit board 7, so that the battery assembly 6 supplies power to the two image pickup assemblies 4 through the first circuit board 7.

In this embodiment, the fourth cavity 12 is used for accommodating the first circuit board 7 of the camera device, and when the fourth cavity 12 is located below the first cavity 11, not only can the communication between the fourth cavity 12 and the second cavity 21 and the third cavity 31 located at two sides of the first cavity 11 be conveniently realized, but also the electrical connection between the battery assembly 6 located in the first cavity 11 and the first circuit board 7 located in the fourth cavity 12 can be conveniently realized, and the arrangement mode of the above cavities helps reasonably utilize the space of the box 9, thereby reducing the size of the box 9 and facilitating the miniaturization of the camera device.

Specifically, as shown in fig. 5, the partition plates of the box 9 include a first partition plate 94, a second partition plate 95 and a third partition plate 96, the first partition plate 94, the second partition plate 95 and the third partition plate 96 are all integrally formed with the body portion 91, meanwhile, the first partition plate 94 and the second partition plate 95 are arranged along the length direction X, the first partition plate 94 separates the first cavity 11 from the second cavity 21, and the second partition plate 95 separates the first cavity 11 from the third cavity 31; the third partition plate 96 is positioned below the first partition plate 94 and the second partition plate 95, and is coupled to the bottom of the first partition plate 94 and the second partition plate 95 to partition the first chamber 11 from the fourth chamber 12.

In this embodiment, each partition plate is integrally formed with the body portion 91, and a connection structure between the partition plate and the body portion 91 is not required, so that the structure of the case 9 can be simplified, and a seal is not required between each partition plate and the body portion 91, so that the seal structure of the imaging device is simplified.

In a possible design, as shown in fig. 2 and 3, the second mounting portion 2 further includes a sixth cavity 27 and a fourth partition 97, the sixth cavity 27 is located on top of the second cavity 21, and the sixth cavity 27 and the fourth partition 97 are separated, the camera device further includes a first antenna 22, the first antenna 22 has a first conducting wire 221, the first antenna 22 is mounted on the body portion 91, and the body portion 91, the fourth partition 97 and the first antenna 22 enclose the sixth cavity 27. Specifically, as shown in fig. 4 and 5, the fourth partition 97 is provided with a first through hole, the first lead 221 passes through the first through hole and extends into the second cavity 21, and is connected to the first camera module, and the first through hole is sealed by dispensing, so as to seal the sixth cavity 27 and the second cavity 21.

Correspondingly, the third mounting portion 3 further includes a seventh cavity 35 and a fifth partition 98, the seventh cavity 35 is located on top of the third cavity 31, and the seventh cavity is separated by the fifth partition 98, the image pickup device further includes a second antenna 32, the second antenna 32 is connected with the second wire 321, the second antenna 32 is mounted on the body portion 91, and the seventh cavity 35 is enclosed by the body portion 91, the fifth partition 98 and the second antenna 32. Specifically, the fifth partition 98 is provided with a second through hole, the second lead 321 extends into the third cavity 31 through the second through hole and is connected to the second camera shooting assembly, and the second through hole is sealed in a dispensing manner, so that the seventh cavity 35 and the third cavity 31 are sealed.

As shown in fig. 4, the first antenna 22 is connected to the first camera module through a first wire 221, the second antenna 32 is connected to the second camera module through a second wire 321, and the first antenna 22 and the second antenna 32 are used for connecting to a wireless network, so that the acquired information of the first camera module and the second camera module can be transmitted through the network.

In addition, as shown in fig. 3, a second water outlet 271 is disposed at the bottom of the sixth cavity 27, the second water outlet 271 is communicated with the outside for draining the accumulated water in the sixth cavity 27, and the second water outlet 271 is not communicated with the second cavity 21; the seventh cavity 35 is provided with a third water outlet 351, the third water outlet 351 is used for draining accumulated water in the seventh cavity 35, and the third water outlet 351 is communicated with the outside and is not communicated with the third cavity 31. The second drain port 271 and the third drain port 351 may be provided in one or more shapes, and may have any shape such as a square shape or a circular shape.

In a possible design, the first mounting portion 1 includes a first cover 13, the first cover 13 is detachably connected to the body portion 91 of the box 9, the first cover 13, the body portion 91 and the first partition 94, the second partition 95 and the third partition 96 enclose the first cavity 11, and specifically, the first cover 13 can be detachably connected to the body portion by means of bolts or the like. In this embodiment, the first cavity 11 for accommodating the battery assembly 6 is an openable structure, so that the battery assembly 6 can be conveniently detached and replaced.

Meanwhile, as shown in fig. 4, a first drainage port 111 is disposed at the bottom of the first cavity 11, and the first drainage port 111 is used for draining liquid in the first cavity 11, so that the risk that the battery assembly 6 is soaked in the liquid is reduced, and the safety of the battery assembly 6 is improved. One or more first drainage ports 111 may be disposed at the bottom of the first cavity 11, and the first drainage port 111 needs to be separated from the fourth cavity 12, so as to prevent liquid from entering the fourth cavity 12 through the first drainage port 111.

When the first cover 13 is connected to the body 91, a seal ring may be provided between the two to seal the first cavity 11, but of course, the first cavity 11 may be provided with no seal structure, only the battery module 6 may be provided with a seal structure, or both the first cavity 11 and the battery module 6 may be provided with a seal structure.

Specifically, as shown in fig. 6, the battery assembly 6 includes a plurality of battery units 61, a housing 62 and a top cover 63, wherein the top cover 63 is connected to the housing 62, and the top cover and the housing 62 enclose a fifth cavity, the plurality of battery units 61 are located in the fifth cavity, and a first sealant 65 is filled in the fifth cavity, the first sealant 65 is used for sealing the battery assembly 6, that is, the battery assembly 6 is sealed by potting, and the thickness of the first sealant 65 covering the battery units 61 is greater than 2mm, for example, the thickness of the first sealant 65 covering the battery units 61 may be 3mm, 5mm, and the like.

Of course, the thickness of the first sealant 65 is not limited thereto, and may be set according to actual needs as long as the sealing requirements can be met, and therefore, the thickness of the first sealant 65 is not limited in this application.

More specifically, as shown in fig. 6 and fig. 4, the battery assembly 6 further includes a power lead 64 and a power connector 641, the power connector 641 is configured to be connected to the first circuit board 7, specifically, as shown in fig. 4, the first circuit board 7 is connected to a first connector 71, the third partition 96 is provided with a fourth through hole, the fourth through hole communicates the first cavity 11 and the fourth cavity 14, and the first connector 71 of the first circuit board 7 extends into the first cavity 11 through the fourth through hole and is connected to the power connector 641 of the battery assembly 6.

In this embodiment, the fourth through hole of the third partition plate 96 is sealed by dispensing in a sealing manner, so as to seal the first cavity 11 and the fourth cavity 12. Meanwhile, a wire portion 112 is further disposed in the first cavity 11, and a wire of the first circuit board 7 passes through the wire portion 112, so as to play a role in positioning the wire.

In addition, in the lead wire joint 641 and the first joint 71, both are sealed by potting, thereby achieving sealing and waterproofing of the lead wire joint 641 and the first joint 71.

When this battery pack 6 installs, at first each battery unit 61 electrical connection, and electrical connection adopts welding etc. can not go on by the mode of glue invasion, then place battery unit 61 after electrical connection in casing 62, the third through-hole has been seted up to casing 62, power wire 64 stretches out the outside of casing 62 through this third through-hole, and the solidus, and this power wire 64 is sealed through the mode of point gluing, then pour sealant into the fifth cavity of casing 62, through exhaust and solidification back, first sealant 65 does not pass battery unit 61 and power wire 64 completely, and it is even to fill, accomplish the encapsulating and sealing, install top cap 63 in casing 62 at last, accomplish battery pack 6's installation, and this battery pack 6's sealed grade is higher, make first cavity 11 need not to set up seal structure also can satisfy sealed requirement.

In one possible design, as shown in fig. 5, the second mounting portion 2 includes a second cover plate 25, the second cover plate 25 is detachably connected to the body portion 91, and the second cover plate 25, the body portion 91, the bottom plate 92, the first mounting plate 23, the second mounting plate 24, the first partition 94 and the fourth partition 97 enclose the second cavity 21. Specifically, the second cover plate 25 is detachably connected to the main body 91 by means of bolts, and the like, in this embodiment, the second cavity 21 for accommodating the first camera module and the second circuit board 8 is an openable structure, so that the replacement of the first camera module and the input and output of data of the second circuit board 8 can be conveniently realized.

Meanwhile, a second sealing element 26 is disposed between the second cover plate 25 and the body 91, specifically, the second sealing element 26 may be a sealing ring, and when the second cover plate 25 is connected with the body 9, the sealing ring is compressed between the second cover plate 25 and the body, so as to seal the second cavity 21.

Accordingly, in the embodiment shown in fig. 5, the body 91, the bottom plate 92, the third mounting plate 33, the fourth mounting plate 34, the second partition plate 95 and the fifth partition plate 98 enclose the third cavity 31, and the third cavity 31 is of an unopened structure, which can ensure that the third cavity 31 has high sealing performance without a sealing structure, and of course, the third cavity 31 can also be of an opened structure similar to the second cavity 21, in which case the second camera module can be replaced and a sealing structure needs to be provided for the third cavity 31.

Optionally, the image pickup device further includes a second circuit board 8, the second circuit board 8 is connected to the first circuit board 7, and the second circuit board 8 is located in the second cavity 21 or the third cavity 31. As shown in fig. 5, in the embodiment, the second circuit board 8 is located in the second cavity 21, and the second cavity 21 is an openable structure, and when the second circuit board 8 is disposed in the second cavity 21, the second circuit board 8 can be disposed by opening the second cover 25. The second circuit board 8 can be used to input or output parameters during installation and debugging, for example, parameters such as the shooting interval of the camera module 4 can be input into the second circuit board 8 during installation.

On the other hand, as shown in fig. 2, the box 9 includes a main body 91 and a bottom plate 92, the bottom plate 92 is located at the bottom of the main body 91, and the bottom plate 92 is connected to the main body 91 by bolts or other connection methods. Meanwhile, as shown in fig. 5, the bottom plate 92, the body portion 91 and the third partition plate 96 enclose a fourth cavity 14, a first sealing element 93 is arranged between the bottom plate 92 and the body portion 91, the first sealing element 93 can be a sealing ring, and when the bottom plate 92 is installed on the body portion 91, the first sealing element 93 can be compressed, so that the fourth cavity 12 is sealed, the risk that accumulated water caused by accumulated water in a road surface enters the fourth cavity 12 to damage a circuit board is reduced, the service life of the camera device is prolonged, and the accuracy of obtaining information is improved.

Specifically, as shown in fig. 7a, 7b, 7c, and 8, the camera module 4 (including the first camera module and the second camera module) includes a lens part 41, the camera module 4 further includes a first transparent plate 46 and a first transparent pressing block 45, end surfaces of the first mounting plate 23 and the third mounting plate 33 facing the inside of the cavity are provided with a first protrusion 43, the first protrusion 43 is opened with a lens mounting hole 431, and the first transparent plate 46 is mounted to the lens mounting hole 431 through the first transparent pressing block 45 and blocks the lens mounting hole 431.

Meanwhile, the lens part 41 includes a lens for photographing and a first pressing plate 411 for mounting the lens, the first pressing plate 411 is provided with a plurality of coupling holes 411a, the coupling holes 411a may be screw holes, such that the first pressing plate 411 is bolt-coupled with the first protrusions 43, and the lens part 41 is located inside the first transparent plate 46.

The first transparent plate 46 is used for blocking the lens component 41 in the cavity, so as to protect the lens component 41, and the first transparent plate 46 does not affect each light ray of the visual field of the lens component 41, thereby ensuring that the lens component 41 can normally shoot. Meanwhile, a third sealing element 47 is arranged between the first transparent plate 46 and the first transparent pressing block 45, the third sealing element 47 can be specifically a sealing ring, and when the first transparent pressing block 45 is connected with the first mounting plate 23 and the third mounting plate 33, the third sealing element 47 can be tightly pressed between the first transparent plate 46 and the first transparent pressing block 45, so that a sealing effect is achieved, and accumulated water is prevented from entering the second cavity 21 and the third cavity 31 from the lens mounting hole 431.

Specifically, the first transparent board 46 and the first transparent pressing block 45 may be made of glass, and the third sealing element 47 may be a glass-sealing silicone sealant. Of course, the third sealing element 47 is not limited to a sealing ring, but may be glue.

In addition, as shown in fig. 7a, 7b, 7c and 8, the camera assembly 4 further includes a photosensitive component 42, and the photosensitive component 42 is used for sensing the light intensity of the environment. The end surfaces of the first mounting plate 23 and the third mounting plate 33 facing the inner side of the cavity are provided with a second protrusion 44, the second protrusion 44 is provided with a photosensitive mounting hole 441, the photosensitive component 42 is mounted in the photosensitive mounting hole 441, the photosensitive mounting hole 441 is filled with a second sealant 442, the second sealant 442 is a sealant, that is, the photosensitive mounting hole 441 is sealed by a sealant filling and sealing method, wherein the thickness of the second sealant 442 is greater than 3mm, for example, the thickness of the second sealant 442 can be 4mm, 5mm, and the like.

Of course, the thickness of the second sealant 442 is not limited thereto, and may be set according to actual needs as long as the sealing requirements can be met, and therefore, the thickness of the second sealant 442 is not limited in this application.

When the photosensitive component 42 is installed, the exterior of the photosensitive component is sleeved with an elastic rubber outer sleeve, then the photosensitive component is installed in the photosensitive installation hole 411, and glue is filled in the photosensitive installation hole 411.

In the above embodiments, the image pickup apparatus further includes a distance measurement component 5, where the distance measurement component 5 includes a first distance measurement component and a second distance measurement component; along length direction X, this second mounting panel 24 and fourth mounting panel 34 keep away from each other, and the incline direction of the two is opposite, and first range finding subassembly is installed in second mounting panel 24, and the second range finding subassembly is installed in fourth mounting panel 34, and this first range finding subassembly is located second cavity 21, and second range finding subassembly 5 is located third cavity 31.

In this embodiment, this first range finding subassembly and second range finding subassembly are installed respectively when second mounting panel 24 and fourth mounting panel 34, can the rational utilization box 9 in the camera device space to richen camera device's function, make this camera device not only can shoot vehicle information, can also the perception ambient light change, so that adjust camera component 4's operating parameter.

Specifically, as shown in fig. 9a, 9b, 9c and 10, the ranging module 5 includes a radar component 51, and the radar component 51 is configured to measure a distance of the vehicle and determine whether the vehicle is located in the parking space. The end faces of the second mounting plate 24 and the fourth mounting plate 34 facing the inner side of the cavity are further provided with a third protrusion 53, the third protrusion 53 is provided with a radar mounting hole 531, the radar part 51 is mounted in the radar mounting hole 531 and is pressed tightly through a pressing strip 58, the pressing strip 58 is connected with the third protrusion 53, and therefore the radar part 51 is mounted, meanwhile, the radar mounting hole 531 is filled with a third sealant 532, the third sealant 532 is used for sealing the radar mounting hole 531, namely the radar mounting hole 531 is sealed in a glue pouring sealing mode, the thickness of the third sealant 532 is larger than 2mm, and the thickness of the third sealant 532 can be 3mm, 5mm and the like.

Of course, the thickness of the third sealant 532 is not limited thereto, and may be set according to actual needs as long as the sealing requirements can be met, and therefore, the thickness of the third sealant 532 is not limited in this application.

During installation, the radar mounting hole 531 is provided with a glue dispensing fence, the radar part 51 is placed in the glue dispensing fence and is compressed, glue is dispensed in the glue dispensing fence, and sealing of the radar part 51 is achieved.

Of course, this radar part 51's sealed still can be realized through the mode of flange face compression sealing washer, but because radar part 51 is the working of plastics, warp easily during the compression, consequently, seal through the mode of gluing in this embodiment, when satisfying the sealing performance requirement, can avoid radar part 51 to warp.

In addition, this range finding subassembly 5 still includes light filling part 52, and when ambient light is relatively weak, this light filling part 52 is used for making a video recording subassembly 4 light filling, improves the accuracy of shooing. This range finding subassembly 5 still includes second transparent plate 55 and the transparent briquetting of second 56, and this second mounting panel 24 and fourth mounting panel 34 have fourth arch 54 towards the inboard terminal surface of cavity, and light filling mounting hole 541 has been seted up to this fourth arch 54, and second transparent plate 55 passes through the transparent briquetting of second 56 to be installed in light filling mounting hole 541 to shutoff light filling mounting hole 541.

Meanwhile, the light supplement component 52 includes a second pressing plate 521, the second pressing plate 521 is connected to the fourth protrusion 54, the second pressing plate 521 and the fourth protrusion can be specifically connected by bolts, and the light supplement component 52 is located inside the second transparent plate 55.

Wherein, this second transparent plate 55 is used for plugging the light filling part 52 in second cavity 21 and third cavity 31, thereby play the effect of protection light filling part 52, and this second transparent plate 55 can not influence the light of light filling part 52, and simultaneously, this second mounting panel 24, be provided with fourth sealing member 57 between fourth mounting panel 34 and the second transparent plate 55, fourth sealing member 57 specifically can be the sealing washer, when second transparent plate 55 and second mounting panel 24, fourth mounting panel 34 are connected, can compress tightly fourth sealing member 57, thereby play sealed effect, prevent that ponding from getting into second cavity 21 and third cavity 31 from light filling mounting hole 541.

Specifically, a sealing groove is formed in the light supplement mounting hole 541, the fourth sealing element 57 is located in the sealing groove, and the second transparent plate 55 can be tightly pressed against the fourth sealing element 57 when being mounted in the light supplement mounting hole 541 through the second transparent pressing block 56, so that sealing is achieved. The second transparent plate 55 and the second transparent pressing block 56 may be made of plastic or glass, the second transparent plate 55 may also be a lens, and a flange surface is disposed on an outer side of the lens, and the flange surface is used for compressing the fourth sealing member 57.

In the application, the conducting wires of all the electronic elements are sealed in a core wire dispensing sealing mode, namely, the core wires are filled with sealant, and meanwhile, the positions where the conducting wires penetrate are sealed in a threading dispensing sealing mode.

In addition, the lens part 41, the photosensitive part 42, the radar part 51 and the light supplement part 52 are all embedded structures after being installed, so that the waterproof performance of each part can be improved.

To sum up, in this application, this camera device is through setting up a plurality of independent cavity structures in box 9, and each part can independently install for influence each other between the part in each cavity reduces, and the part in each cavity can adopt different sealing methods, and each part can choose the sealing method who is fit for self characteristic promptly, guarantees that each part all has good sealing performance.

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 to the present application 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 (10)

1. An image pickup apparatus, characterized by comprising:

the camera shooting assembly comprises a first camera shooting assembly, a second camera shooting assembly and a first antenna;

the battery assembly is used for supplying power to the camera assembly;

the box body comprises a body part, a first mounting plate, a third mounting plate and a partition plate, wherein the partition plate at least divides an inner cavity of the box body into a first cavity, a second cavity, a third cavity and a sixth cavity;

the first mounting plate is a side wall of the second cavity, the third mounting plate is a side wall of the third cavity, the second cavity and the third cavity are located at two ends of the first cavity along the length direction X, the first mounting plate and the third mounting plate are both inclined relative to the first cavity and located on different planes;

the battery assembly is positioned in the first cavity;

the first camera shooting assembly is positioned in the second cavity and is arranged on the first mounting plate, and the second camera shooting assembly is positioned in the third cavity and is arranged on the third mounting plate;

the baffle plate comprises a fourth baffle plate, the sixth cavity is positioned at the top of the second cavity, the first antenna is arranged on the body part, the fourth baffle plate and the first antenna enclose the sixth cavity, and the sixth cavity is separated from the second cavity by the fourth baffle plate;

the fourth partition board is provided with a first through hole, and a first lead of the first antenna penetrates through the first through hole, extends into the second cavity and is connected with the first camera shooting assembly;

the first through hole is sealed by dispensing, the sixth cavity is provided with a second water outlet, the second water outlet is communicated with the outside, and the second water outlet is not communicated with the second cavity.

2. The image pickup device according to claim 1, wherein the first mounting plate and the third mounting plate are both protruded from the first cavity in a width direction Y of the image pickup device;

the first mounting panel with the incline direction of third mounting panel is opposite, along width direction Y, keep away from the direction of first cavity, the first mounting panel with the third mounting panel is kept away from gradually.

3. The image pickup device according to claim 2, wherein the case further includes a second mounting plate and a fourth mounting plate, both of which protrude from the first cavity in the width direction Y;

the second mounting plate is the other side wall of the second cavity, the second mounting plate is connected with the first mounting plate and the body part, the fourth mounting plate is the other side wall of the third cavity, and the fourth mounting plate is connected with the third mounting plate and the body part;

along length direction X, first mounting panel with the third mounting panel is located between the second mounting panel with the fourth mounting panel.

4. The image pickup device according to claim 3, wherein the second mounting plate and the fourth mounting plate are each inclined with respect to the first cavity;

the first mounting plate and the second mounting plate are opposite in inclination direction, and the third mounting plate and the fourth mounting plate are opposite in inclination direction.

5. The image pickup device according to claim 4, wherein the first mounting plate and the third mounting plate are symmetrical with respect to a center line of the first cavity in a length direction X;

along length direction X, the second mounting panel with the fourth mounting panel is relative the central line symmetry of first cavity.

6. The imaging apparatus according to claim 3, wherein the first mounting plate, the second mounting plate, the third mounting plate, and the fourth mounting plate are integrally formed with the main body.

7. The camera device according to any one of claims 1 to 6, wherein the cavity further comprises a fourth cavity, and the fourth cavity is located below the first cavity;

the fourth cavity is separated from the first cavity and communicated with the second cavity and the third cavity;

the camera device also comprises a first circuit board, and the first circuit board is positioned in the fourth cavity;

the first camera shooting assembly is connected with the first circuit board, the second camera shooting assembly is connected with the first circuit board, and the battery assembly is connected with the first circuit board.

8. The image pickup apparatus according to claim 7, wherein the partition plate includes a first partition plate, a second partition plate, and a third partition plate, each of which is integrally formed with the body portion;

the first partition plate and the second partition plate are arranged along the length direction X, the first partition plate separates the first cavity from the second cavity, and the second partition plate separates the first cavity from the third cavity;

the third partition plate is positioned below the first partition plate and the second partition plate and is connected to the bottoms of the first partition plate and the second partition plate so as to separate the first cavity from the fourth cavity.

9. The camera device according to any one of claims 1 to 6, wherein the case further includes a seventh cavity and a fifth partition plate, the seventh cavity being located at a top of the third cavity;

the camera device further comprises a second antenna, the second antenna is mounted on the body part, the fifth partition plate and the second antenna enclose a seventh cavity, and the seventh cavity is separated from the third cavity by the fifth partition plate;

a second through hole is formed in the fifth partition plate, and a second lead of the second antenna extends into the third cavity through the second through hole and is connected with the second camera shooting assembly;

the second through hole is sealed by dispensing, a third water outlet is formed in the bottom of the seventh cavity and communicated with the outside, and the third water outlet is not communicated with the third cavity.

10. The image pickup apparatus according to claim 8, wherein said case includes a first cover plate detachably attached to said body portion;

the first cover plate, the body part, the first partition plate, the second partition plate and the third partition plate enclose the first cavity;

the third partition plate is provided with a fourth through hole which is communicated with the first cavity and the fourth cavity;

a third lead of the first circuit board extends into the first cavity through the fourth through hole and is connected with the battery assembly;

the bottom of first cavity is provided with first drainage port, first drainage port and external intercommunication, just first drainage port with the fourth cavity does not communicate.

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