CN208479777U - Photographic device and its shell - Google Patents

Abstract

A kind of photographic device and its shell are provided in the embodiment of the present application.The shell includes pedestal, cover and rotating mechanism；The cover is fixedly connected on the pedestal, and the accommodating cavity for accommodating the photographing module of the photographic device is formed between the pedestal and the cover；The cover is provided with axially extending bore；The pedestal is provided with mounting portion away from the side of the cover, and the mounting portion is used to the pedestal being installed on predetermined position；The rotating mechanism is rotatably installed on the pedestal, and a part of the rotating mechanism protrudes from the axially extending bore.Using the scheme of the embodiment of the present application, being able to solve existing photographic device because shooting angle adjusts inconvenience has that coverage is small.

Description

Camera device and shell thereof

Technical Field

The present application relates to the field of imaging technologies, and in particular, to an imaging device and a housing thereof.

Background

With the rapid development of computer technology and image technology, camera devices such as cameras have been widely used in homes, communities, streets, shops, and the like, especially in some retail shops, a shop owner needs to capture and shoot a face picture of a customer by using the camera device, collect face data of the customer coming from the shop, and record the face data of each customer in the shop in real time, so as to realize staged customer flow of the shop, data analysis of new and old customers, and customized product sales recommendation.

At present, many retail stores adopt ordinary security protection rifle bolt as camera device and acquire customer's face data, but, when current rifle bolt needs angle modulation after the installation, need carry out through specialized tool such as hexagon socket head cap screw through professional installer, therefore, the inventor thinks that camera devices such as current rifle bolt have the problem that the scope of shooing is little because of shooting angle modulation inconvenience.

Disclosure of Invention

The embodiment of the application provides a camera device and a shell thereof, which are mainly used for solving the problem that the existing camera device is small in shooting range due to the fact that the shooting angle is inconvenient to adjust.

According to a first aspect of embodiments of the present application, there is provided a housing for an image pickup apparatus, the housing including a base, a cover, and a rotation mechanism; wherein:

the cover body is fixedly connected to the base, and an accommodating cavity for accommodating a camera module of the camera device is formed between the base and the cover body; the cover body is provided with an axial through hole;

an installation part is arranged on one side of the base, which is far away from the cover body, and the installation part is used for installing the base at a preset position;

the rotating mechanism can be rotatably arranged on the base, and part of the rotating mechanism protrudes out of the axial through hole.

The shell comprises a rotating mechanism which can be rotatably installed on the base, and part of the rotating mechanism protrudes out of the axial through hole of the cover body, when the camera device adopts the shell, when the camera module is installed on the rotating mechanism, the camera module can be directly driven to act through the rotation of the rotating mechanism protruding out of the cover body, the adjustment of the shooting visual angle of the camera module is realized while the rotating mechanism rotates, and the shooting angle of the camera device can be directly adjusted through the rotating mechanism protruding out of the cover body, so that the adjustment of the shooting angle of the camera device is convenient, and therefore, the shell can solve the problem that the existing camera device is small in shooting range due to the fact that the shooting angle is inconvenient to adjust.

Preferably, the rotating mechanism comprises a rotating part mounted on the base and a rotating spherical shell mounted on the rotating part;

the rotating member is capable of rotating about a first axis;

the rotary spherical shell can rotate around a second axis intersected with the first axis, and an installation cavity is formed in the rotary spherical shell and is provided with an opening communicated with the installation cavity and corresponding to the axial through hole.

Preferably, the rotating spherical shell comprises a front spherical shell and a rear spherical shell which are fixedly connected, and the front spherical shell and the rear spherical shell are mounted on the rotating part through a rotating shaft;

the opening is arranged on the front spherical shell.

Preferably, a portion of the front spherical shell protrudes from the axial through hole.

Preferably, the first axis is perpendicular to the second axis, wherein:

the extending direction of the first axis is a horizontal direction, and the extending direction of the second axis is a vertical direction; or,

the extending direction of the first axis is a vertical direction, and the extending direction of the second axis is a horizontal direction.

Preferably, the rotating member is a ring-shaped member, and an inner diameter of the rotating member is larger than an outer diameter of the rotating spherical shell.

Preferably, the mounting portion includes a mounting seat detachably connected to the base, the mounting seat is provided with a mounting hole penetrating through the thickness of the mounting seat, and an adhesive portion is provided on a side surface of the mounting seat facing away from the base.

Preferably, the mounting seat is connected with the base in a clamping mode.

According to a second aspect of the embodiments of the present application, there is provided an image pickup apparatus, including a camera module, and further including any one of the housings provided in the above technical solutions;

the camera module is arranged on the rotating mechanism, and the light inlet side of the camera module is opposite to the axial through hole.

Preferably, the camera further comprises a circuit board mounted between the base and the rotating mechanism, and the circuit board is in signal connection with the camera module.

By adopting the camera device and the shell thereof according to the embodiment of the application, the part protruding out of the cover body of the rotating mechanism can directly and conveniently drive the rotating mechanism to rotate, so that the rotation of the camera module is adjusted, the shooting angle of the camera device is adjusted, and the shooting range of the camera device can be enlarged.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic diagram illustrating an overall structure of an image pickup apparatus according to a first embodiment of the present application;

FIG. 2 is an exploded view of the imaging device of FIG. 1;

FIG. 3 is an exploded view of the mounting portion of the imaging device of FIG. 1;

FIG. 4 is an exploded view of the mounting portion of the imaging device of FIG. 1;

shown in fig. 5 is a schematic structural diagram of a circuit board of the imaging apparatus of fig. 2.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The embodiment of the application provides a camera device and a shell thereof, and after the camera device adopts the shell, the part protruding out of the cover body of the rotating mechanism can directly and conveniently drive the rotating mechanism to rotate, so that the rotation of a camera module is adjusted, the shooting angle of the camera device is adjusted, and the shooting range of the camera device can be enlarged.

Example one

Fig. 1 and 2 show the structure of an image pickup apparatus provided in the embodiment of the present application.

The embodiment of the application provides a shell 2 for an image pickup device 1, wherein the shell 2 comprises a base 21, a cover 22 and a rotating mechanism 23; wherein:

the cover 22 is fixedly connected to the base 21, and an accommodating cavity for accommodating the camera module 3 of the camera device 1 is formed between the base 21 and the cover 22; the cover body 22 is provided with an axial through hole 221;

one side of the base 21, which is far away from the cover body 22, is provided with a mounting part, and the mounting part is used for mounting the base 21 at a preset position; the predetermined positions, i.e., the positions to be set by the image pickup apparatus 1, are: the predetermined position is not limited to the above application, but may be any other position where the image pickup device 1 needs to be installed;

the rotating mechanism 23 is rotatably mounted on the base 21, and a part of the rotating mechanism 23 protrudes from the axial through hole 221.

When the housing 2 is used in the image pickup apparatus 1, as shown in the structure of fig. 2, the entire housing 2 can be mounted at a position where the image pickup apparatus 1 is to be installed through the base 21, and the aesthetic appearance of the image pickup apparatus 1 and the comfort of a customer can be improved by the cover 22 having an aesthetic appearance, as shown in fig. 1 and 2, the cover 22 has a structure in which one end is circular, the other end is approximately square, and the middle is smoothly transited, and the base 21 can be a structure like a square table, a tapered table, a trapezoidal table, or the like; the rotating mechanism 23 may include a rotating member 231 and a rotating spherical shell 232 mounted on the rotating member 231, the camera module 3 is mounted on the rotating spherical shell 232, and the rotation of the rotating member 231 and the rotating spherical shell 232 along different axes can adjust the angle of the camera module 3, so as to change the shooting range and the shooting angle of the camera device 1, since a part of the rotating spherical shell 232 can be exposed through the axial through hole 221 of the cover 22, when the camera device is used, a user can directly control the rotating spherical shell 232 to move by hand, so as to adjust the camera module 3.

The housing 2 includes a rotating mechanism 23 rotatably mounted on the base 21, and a part of the rotating mechanism 23 protrudes from the axial through hole 221 of the cover 22, when the camera device 1 adopts the housing 2, when the camera module 3 is mounted on the rotating mechanism 23, the camera module 3 can be directly driven to operate by the rotation of the rotating mechanism 23 protruding from the cover 22, the adjustment of the shooting angle of the camera module 3 is realized while the rotating mechanism 23 is rotated, because the shooting angle of the camera device 1 can be directly adjusted by the rotating mechanism 23 protruding from the cover 22, the adjustment of the shooting angle of the camera device 1 is convenient, therefore, the housing 2 can solve the problem that the shooting range of the existing camera device 1 is small due to the inconvenience in adjusting the shooting angle.

As shown in the structure of fig. 2, the rotating mechanism 23 may include a rotating member 231 mounted on the base 21 and a rotating spherical shell 232 mounted on the rotating member 231;

the rotation member 231 is rotatable about the first axis O1; the rotating member 231 may be a ring member, for convenience of assembly, the inner diameter of the rotating member 231 is greater than the outer diameter of the rotating spherical shell 232, and symmetrical cylindrical protrusions 2311 are arranged on the outer peripheral surface, and the rotating member 231 can rotate around a first axis O1 through the cooperation between the cylindrical protrusions 2311 and the shaft holes on the supporting column 214 arranged on the base 21, in fig. 2, the first axis O1 is a horizontal axis, and in an actual use process, the first axis O1 may also be a vertical axis; in order to install the rotary spherical shell 232, the rotary member 231 may be further provided with an assembly hole 2312 for inserting rotary shaft parts such as the pin shaft 233 and a screw;

the rotary ball shell 232 can rotate around a second axis O2 intersecting the first axis O1, and a mounting cavity is formed in the rotary ball shell 232 and is provided with an opening 23211 communicating with the mounting cavity and corresponding to the axial through hole 221.

As shown in the structure of fig. 2, the camera module 3 can be installed in the rotary spherical shell 232, and an opening 23211 for the camera module to acquire an image is provided on the rotary spherical shell 232, so that the camera module 3 can capture an image through the opening; the rotary ball shell 232 can also rotate around the second axis O2, the second axis O2 intersects with or perpendicularly intersects with the first axis O1, in fig. 2, the first axis O1 intersects with the second axis O2 perpendicularly, and by the rotation of the rotating member 231 around the first axis O1 and the rotation of the rotary ball shell 232 around the second axis O2, the camera module 3 installed in the rotary ball shell 232 can be adjusted in a rotating manner in a vertical plane, which is not only convenient for adjustment, but also can increase the shooting range and the shooting angle through the rotation of the camera module 3.

And, adopt the spherical structure of rotatory spherical shell 232, not only make things convenient for slewing mechanism 23 to rotate in two directions, but also be favorable to the structural design of the cover body 22, realize rotating under the circumstances of adjusting, can also simplify the design of the cover body 22, also be favorable to the outward appearance of the cover body 22 to carry out the pluralism design, make the cover body 22 can also adopt multiple appearance structure under the prerequisite that satisfies basic rotation requirement, richened camera device 1's appearance structure.

Specifically, as shown in the structure of fig. 2, the rotating spherical shell 232 includes a front spherical shell 2321 and a rear spherical shell 2322 which are fixedly connected, and the front spherical shell 2321 and the rear spherical shell 2322 are mounted on the rotating member 231 through a rotating shaft; the front spherical shell 2321 and the rear spherical shell 2322 may be connected together by clamping or by a rotating shaft, in the structure of fig. 2, the rotating shaft for mounting the front spherical shell 2321 and the rear spherical shell 2322 on the rotating member 231 may be a pin 233, a screw, a rivet, or other components capable of rotating and connecting at the same time;

the opening 23211 is disposed on the front spherical shell 2321, and since the opening 23211 is disposed on the front spherical shell 2321, the lens of the image capturing module 3 can pass through the opening 23211 and the axial through hole 221 of the cover 22 in sequence to capture images.

For adjustment convenience, as shown in the structure of fig. 1 and 4, a portion of the front spherical shell 2321 of the rotary spherical shell 232 protrudes from the axial through hole 221. After the camera device 1 is installed, since a part of the front spherical shell 2321 protrudes out of the axial through hole 221 of the cover 22, a user can drive the front spherical shell 2321 to rotate in various ways, and in the process of rotating the front spherical shell 2321, the rotation of the rotary spherical shell 232 is realized, so as to drive the camera module 3 installed on the rotary spherical shell 232 to rotate, and the adjustment of the shooting angle of the camera device 1 can be directly and quickly realized.

As shown in the structure of fig. 2, the first axis O1 is perpendicular to the second axis O2, wherein:

the extending direction of the first axis O1 is a horizontal direction, and the extending direction of the second axis O2 is a vertical direction; or,

the extending direction of the first axis O1 is a vertical direction, and the extending direction of the second axis O2 is a horizontal direction.

Since the first axis O1 is perpendicular to the second axis O2, and one of the axes is horizontal and the other axis is vertical, in the process of adjusting the shooting angle of the image capturing apparatus 1, the rotation of the image capturing module 3 in the up-down direction can be realized by one of the first axis O1 and the second axis O2 in the horizontal direction, meanwhile, the rotation of the image capturing module 3 in the horizontal direction can also be realized by the other one of the first axis O1 and the second axis O2 in the vertical direction, and the rotation of the image capturing module 3 relative to the housing 2 can be realized by the rotation of the rotating member 231 and the rotating spherical shell 232 respectively around different axes. In the actual use process, the rotation angle of the rotating mechanism 23 in the horizontal direction is 0-70 degrees, that is, in the horizontal direction, the camera module 3 can rotate 0-35 degrees from the central axis of the camera device 1 to the left and right sides; the rotating angle of the rotating mechanism 23 in the vertical direction is 0 to 70 °, that is, in the vertical direction, the camera module 3 can rotate 0 to 35 ° from the central axis of the camera device 1 toward the upper and lower sides.

In order to improve the application of the image pickup apparatus 1, as shown in fig. 3 and 4, the mounting portion may include a mounting seat 211 detachably connected to the base 21, the mounting seat 211 and the base 21 are connected by snap-fitting, when the mounting seat 211 and the base 21 are connected by snap-fitting, referring to fig. 3 and 4, a protruding fixture block 2113 is provided on the mounting seat 211, and a slot 212 corresponding to the fixture block 2113 is provided on the base 21, when mounting, the mounting seat may be mounted on a predetermined position such as a wall, and then the base 21 is mounted on the mounting seat 211 by snap-fitting of the fixture block 2113 and the slot 212, so as to complete the mounting of the image pickup apparatus 1;

the mounting seat 211 is provided with a mounting hole 2111 penetrating the thickness thereof, and an adhesive portion 2112 is provided on a side surface of the mounting seat 211 facing away from the base 21. As shown in the structure of fig. 3, the mounting seat 211 is provided with three mounting holes 2111 uniformly distributed along the axial direction, and in the actual production process, the number and positions of the mounting holes 2111 may be set according to the actual situation, not limited to three as shown in the figure, but also one, two, four or more lamps may be set; the bonding portion 2112 may be a bonding tape, or may be an adhesive applied to the surface of the mounting seat 211, as long as the bonding function is achieved, and similarly, the bonding portion 2112 may be set to the entire side surface of the mounting seat 211, or may be set to a multi-stage bonding structure that is uniformly distributed or randomly distributed on the side surface.

Since the mounting seat 211 is provided with the mounting hole 2111 and/or the adhesive portion 2112, in the mounting process of the image pickup apparatus 1, the mounting seat 211 may be mounted on a predetermined position such as a wall by using a fastener such as a screw, a nail, or a rivet that can pass through the mounting hole 2111, or the mounting seat may be directly adhered to a predetermined position such as a wall, glass, or a tile by the adhesive portion 2112, and then the mounting of the entire image pickup apparatus 1 is completed by mounting the components such as the base 21 on the mounting seat 211; since the mounting seat 211 can be mounted by two methods, different mounting methods can be used for different situations, for example, when mounting on a position where holes are not easily formed such as glass or tile, the mounting can be directly bonded by the bonding portion 2112, and when holes are easily formed in a general wall or when mounting strength is to be increased, the mounting can be performed by inserting a fastener through the mounting hole 2111. Therefore, the mount 211 enables the imaging device 1 to be mounted at any position, and not only the mounting range of the imaging device 1 is expanded, but also the mounting strength of the imaging device 1 is improved, and the safety and reliability of the imaging device 1 are improved.

Meanwhile, a lightening hole 2114 can be formed in the middle of the mounting seat 211, so that the overall weight can be lightened while materials are saved, the production cost can be reduced, and the satisfaction degree of a user can be improved; moreover, the base 21 may further be provided with an annular groove corresponding to the mounting seat 211, when the base 21 is fastened to the mounting seat 211, the mounting seat 211 is just embedded into the annular groove of the base 21, at this time, the mounting seat 211 is hidden in the annular groove of the base 21, so that the mounting seat 211 and the base 21 form an integrated structure, and only the base 21 can be seen from the outside, and the mounting seat 211 cannot be seen, so that the appearance of the housing 2 becomes simple and beautiful.

As shown in the structure of fig. 3, an outlet hole 213 is provided at an end of the base 21 away from the cover 22 for allowing the cable connected to the camera module 3 to enter the inside of the housing 2 from the outside of the housing 2, and the outlet hole 213 may be provided at a peripheral position such as a bottom, a top, a side, etc. of the end of the base 21, which is not limited in detail herein, nor is it limited to the position shown in the figure.

According to a second aspect of the embodiments of the present application, there is provided an image pickup apparatus 1, as shown in fig. 1 and fig. 2, the image pickup apparatus 1 includes an image pickup module 3, and further includes any one of the housings 2 provided in the above embodiments;

the camera module 3 is mounted on the rotating mechanism 23, and the light incident side of the camera module 3 is opposite to the axial through hole 221.

The camera module 3 in the camera device 1 is mounted on the rotating mechanism 23, and the shooting angle of the camera device 1 is adjusted by rotating the rotating mechanism 23, so that the camera device 1 is convenient to adjust, the shooting range of the camera device 1 can be enlarged, and the utilization rate of the camera device 1 can be improved.

In addition to the above embodiments, the image capturing apparatus 1 further includes a circuit board 4 installed between the base 21 and the rotating mechanism 23, and the circuit board 4 is in signal connection with the image capturing module 3. As shown in fig. 2 and fig. 5, the circuit board 4 may adopt a plate-shaped structure with a via hole 41 arranged in the middle, the outer shape of the circuit board 4 is adapted to the shape of the inner cavity of the base 21, in order to facilitate positioning and installation of the circuit board 4, a through groove 42 matched with the supporting column 214 of the base 21 in shape may be further arranged on the circuit board 4, the cross-sectional shape of the supporting column 214 may be rectangular, circular, trapezoidal, or the like, and the cross-sectional shape of the through groove 42 may be adapted to the cross-sectional shape of the supporting column 214. Of course, the circuit board 4 may also be provided with a fixing structure for fixing the circuit board 4 on the base 21.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. A shell is used for a camera device and is characterized by comprising a base, a cover body and a rotating mechanism; wherein:

the cover body is fixedly connected to the base, and an accommodating cavity for accommodating a camera module of the camera device is formed between the base and the cover body; the cover body is provided with an axial through hole;

an installation part is arranged on one side of the base, which is far away from the cover body, and the installation part is used for installing the base at a preset position;

the rotating mechanism can be rotatably arranged on the base, and part of the rotating mechanism protrudes out of the axial through hole.

2. The housing of claim 1, wherein the rotating mechanism comprises a rotating member mounted to the base and a rotating spherical shell mounted to the rotating member;

the rotating member is capable of rotating about a first axis;

the rotary spherical shell can rotate around a second axis intersected with the first axis, and an installation cavity is formed in the rotary spherical shell and is provided with an opening communicated with the installation cavity and corresponding to the axial through hole.

3. The housing of claim 2, wherein the rotating spherical shell comprises a front spherical shell and a rear spherical shell which are fixedly connected, and the front spherical shell and the rear spherical shell are mounted to the rotating member through a rotating shaft;

the opening is arranged on the front spherical shell.

4. The housing of claim 3, wherein a portion of the front spherical shell protrudes through the axial through bore.

5. The housing of claim 2, wherein the first axis is perpendicular to the second axis, wherein:

the extending direction of the first axis is a horizontal direction, and the extending direction of the second axis is a vertical direction; or,

the extending direction of the first axis is a vertical direction, and the extending direction of the second axis is a horizontal direction.

6. The housing of claim 2, wherein the rotating member is an annular member and the inner diameter of the rotating member is greater than the outer diameter of the rotating spherical shell.

7. The housing according to any one of claims 1 to 6, wherein the mounting portion comprises a mounting seat detachably connected to the base, the mounting seat is provided with a mounting hole penetrating through the thickness of the mounting seat, and an adhesive portion is provided on a side surface of the mounting seat away from the base.

8. The housing of claim 7, wherein the mounting block is snap-fit to the base.

9. A camera device comprising a camera module, characterized by a housing according to any one of claims 1-8;

the camera module is arranged on the rotating mechanism, and the light inlet side of the camera module is opposite to the axial through hole.

10. The camera device of claim 9, further comprising a circuit board mounted between the base and the rotation mechanism, the circuit board being in signal communication with the camera module.