CN216016951U - Gigabit network AI intelligent camera - Google Patents

Abstract

The utility model discloses a gigabit-capable AI intelligent camera, which comprises a front shell and a rear cover which are connected with each other, wherein an AI control panel for carrying out AI intelligent algorithm processing, an image acquisition panel for carrying out image acquisition, a main control panel for carrying out image and data processing and an IO interface board for connecting with external equipment are arranged in the front shell; a first heat conducting pad is connected between the AI control panel and the inner side surface of the front shell in a butting manner, a plurality of second heat conducting pads are connected between the main control panel and the inner side surface of the rear cover in a butting manner, a silica gel dustproof pad is additionally arranged between the image acquisition panel and the inner side surface of the front shell, and the IO interface board is connected with a threaded socket; the main control board comprises two gigabit network ports, and the two gigabit network ports are respectively used for outputting the image data processed by the main control board and the image data output by the AI control board. The technical scheme of the utility model improves the structure of the existing intelligent camera and improves the stability and the heat dissipation effect of the intelligent camera.

Description

Gigabit network AI intelligent camera

Technical Field

The utility model relates to the technical field of industrial cameras, in particular to a gigabit-capable AI intelligent camera.

Background

With the development of industrial technology and artificial intelligence, industrial cameras have been widely used in the fields of robot vision, positioning detection, product defect detection, 3D scanning, barcode recognition, intelligent transportation, iris recognition, and the like. Along with the range of application is wider and wider, also has higher requirement to the function and the structure of industrial camera, increases greatly to the intelligent industrial camera demand that the integrated level is high, and the conventional basic algorithm that the intelligent camera adopted in the market has certain limitation, and the AI algorithm is partial to the problem of handling complicacy, and current intelligent camera algorithm has great limitation, and interference killing feature and stability are relatively poor, and overall structure design is complicated, and the radiating effect is poor.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a gigabit-capable AI intelligent camera, aiming at improving the structure of the existing intelligent camera and improving the stability and the heat dissipation effect of the intelligent camera.

In order to achieve the above purpose, the gigabit-capable AI intelligent camera provided by the utility model comprises a front shell and a rear cover which are connected with each other, wherein an AI control board for carrying out AI intelligent algorithm processing, an image acquisition board for carrying out image acquisition, a main control board for carrying out image and data processing, and an IO interface board for connecting with external equipment are installed in the front shell; a first heat conducting pad is connected between the AI control panel and the inner side surface of the front shell in a butting manner, a plurality of second heat conducting pads are connected between the main control panel and the inner side surface of the rear cover in a butting manner, a silica gel dustproof pad is additionally arranged between the image acquisition panel and the inner side surface of the front shell, and the IO interface board is connected with a threaded socket; the main control board comprises two gigabit network ports, and the two gigabit network ports are respectively used for outputting the image data processed by the main control board and the image data output by the AI control board.

Preferably, the main control board further includes an MCU processing unit for performing control, an FPGA processing unit for performing image processing, and a DDR storage unit for performing data storage.

Preferably, the optical filter further comprises an optical filter, and the optical filter is mounted on the front shell through a fixed cover plate.

Preferably, a dust cover is further mounted on the outer side of the front shell, and the dust cover is connected with the front shell through a threaded structure.

Preferably, the AI control board and the image acquisition board are respectively connected with the main control board through connectors, the IO interface board is connected with the main control board through a pin header and box header structure, and the threaded socket is welded with the IO interface board.

Preferably, the threaded socket is provided as an M12 thread formation.

Preferably, a plurality of heat dissipation grooves are additionally arranged on the outer side surfaces of the front shell and the rear cover.

Compared with the prior art, the utility model has the beneficial effects that: the structure of the existing intelligent camera is improved, the stability and the heat dissipation performance of the intelligent camera are improved, meanwhile, two kilomega network ports are arranged, one is output of conventional algorithm data, and the other is output of AI algorithm data results. The two algorithms can be operated independently, and can also be operated by the traditional algorithm and the AI algorithm, the ISP image processing is realized, an integrated artificial intelligence solution is provided, and the camera setting is adjusted correspondingly, so that the excellent shooting effect is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is an exploded view of the overall structure of the smart camera of the present invention;

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

Referring to fig. 1, a gigabit-capable AI intelligent camera according to this embodiment includes a front shell 1 and a rear cover 2 connected to each other, where an AI control board 3 for performing AI intelligent algorithm processing, an image acquisition board 4 for performing image acquisition, a main control board 5 for performing image and data processing, and an IO interface board 6 for connecting to external devices are installed in the front shell 1; a first heat conducting pad 7 is abutted between the AI control board 3 and the inner side surface of the front shell 1, a plurality of second heat conducting pads 8 are abutted between the main control board 5 and the inner side surface of the rear cover 2, a silica gel dustproof pad 9 is additionally arranged between the image acquisition board 4 and the inner side surface of the front shell 1, and the IO interface board 6 is connected with a threaded socket 10; the main control board 5 includes two gigabit ports, and the two gigabit ports are respectively used for outputting the image data processed by the main control board 5 and the image data output by the AI control board 3.

It should be noted that the heat generated by the AI control board 3 can be transmitted to the front shell 1 through the first heat conducting pad 7, and is quickly dissipated through the front shell 1, while the heat generated by the main control board 5 can be transmitted to the rear cover 2 through the second heat conducting pad 8, and is dissipated through the rear cover 2.

AI control panel 3, image acquisition board 4, main control board 5 are all fixed in the front shell 1 through screw or copper post, and the installation is convenient with the dismantlement, promote assembly efficiency, and installation stability is strong, prevents that internals from taking place to rock, influences the formation of image effect.

Further, the main control board 5 further includes an MCU processing unit for performing control, an FPGA processing unit for performing image processing, and a DDR storage unit for performing data storage. It should be noted that, the main control board 5 is a core circuit board, the image acquisition board 4 acquires an image and then sends the image to the main control board 5, the FPGA processing unit of the main control board 5 processes the image and converts the image into a network data packet, the network data packet can be transmitted to a computer through one of the gigabit network interfaces, or the network data packet is output to the AI control board 3 through the MIPI, and the AI control board 3 outputs a data result through the other gigabit network interface after processing the image, so that two gigabit network interfaces are set, one is output of conventional algorithm data, and the other is output of an AI algorithm data result. The two algorithms can be operated independently, and can also be operated by the traditional algorithm and the AI algorithm, the ISP image processing is realized, an integrated artificial intelligence solution is provided, and the camera setting is adjusted correspondingly, so that the excellent shooting effect is achieved.

Further, the optical filter device also comprises an optical filter 11, wherein the optical filter 11 is installed on the front shell 1 through a fixed cover plate 12, so that the optical filter 11 is prevented from loosening, and the imaging effect is ensured. A shield 13 is still installed in the preceding shell 1 outside, prevents that outside dust from entering inside the camera, shield 13 with connect through helicitic texture between the preceding shell 1.

Further, the AI control board 3 and the image acquisition board 4 are respectively connected with the main control board 5 through connectors, the IO interface board 6 is connected with the main control board 5 through a pin header and box header structure, and the threaded socket 10 is welded with the IO interface board 6.

Further, the threaded socket 10 is provided with an M12 thread structure.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. A gigabit-capable AI intelligent camera is characterized by comprising a front shell and a rear cover which are connected with each other, wherein an AI control panel for carrying out AI intelligent algorithm processing, an image acquisition panel for carrying out image acquisition, a main control panel for carrying out image and data processing and an IO interface board for connecting with external equipment are arranged in the front shell; a first heat conducting pad is connected between the AI control panel and the inner side surface of the front shell in a butting manner, a plurality of second heat conducting pads are connected between the main control panel and the inner side surface of the rear cover in a butting manner, a silica gel dustproof pad is additionally arranged between the image acquisition panel and the inner side surface of the front shell, and the IO interface board is connected with a threaded socket; the main control board comprises two gigabit network ports, and the two gigabit network ports are respectively used for outputting the image data processed by the main control board and the image data output by the AI control board.

2. The AI smart camera of claim 1, wherein the main control board further comprises an MCU processing unit for control, an FPGA processing unit for image processing, and a DDR storage unit for data storage.

3. The gigabit-capable AI intelligent camera of claim 1, further comprising an optical filter mounted to the front housing by a fixed cover sheet.

4. The AI smart camera of claim 1, wherein a dust cap is further installed on an outer side of the front case, and the dust cap is connected to the front case by a screw structure.

5. The AI smart camera of claim 1, wherein the AI control board and the image capture board are connected to the main control board via connectors, the IO interface board is connected to the main control board via a pin header and box header structure, and the screw socket is welded to the IO interface board.

6. The gigabit-capable AI smart camera of claim 1, wherein the threaded socket is configured as an M12 threaded structure.

7. The AI smart camera of claim 1, wherein the front housing and the back cover have heat dissipation grooves formed on the outer side thereof.

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