CN212992407U - 180 degrees panorama high definition monitoring device of many meshes concatenation - Google Patents

Abstract

The utility model relates to a 180 degrees panorama high definition monitoring device of many meshes concatenation, this panorama monitoring device mainly include mechanism, internally mounted support, 4 groups visible light image acquisition device, 4 infrared light filling banks spares of group, handle mainboard, PoE & DC12V power supply board. In the main body mechanism of the panoramic monitoring device, 4 groups of visible light image acquisition devices close to the front cover form a ring and are arranged on the ring-shaped fixed support; the 4 groups of infrared light supplement lamp assemblies form an annular shape around the infrared lamp fixing support and are fixed on the upper cover of the mechanism main body of the panoramic monitoring device. The utility model discloses with 4 groups of visible light collection system's image concatenation output, the monitoring area scope is wideer, for the district square, places such as shopping square provide better video monitoring scheme.

Description

180 degrees panorama high definition monitoring device of many meshes concatenation

Technical Field

The utility model relates to a video image handles and security protection control technical field, especially 180 degrees panorama high definition monitoring devices of many meshes concatenation.

Background

The traditional monitoring camera cannot realize 180-degree panorama due to the field angle of the lens. In places such as shopping squares, a plurality of cameras need to be installed in order to achieve 180-degree panoramic monitoring coverage, and the installation workload is large, the cost is high, and the maintenance is complicated.

Although the high-speed ball deployment mode can achieve the purpose of 180-degree panoramic monitoring coverage, the high-speed ball deployment mode needs a cruise mode to scan a monitoring area and cannot meet the requirement of real-time comprehensive monitoring of a specified area.

Disclosure of Invention

The embodiment of the utility model discloses 180 degrees panorama high definition monitoring devices of many meshes concatenation to it is big to solve traditional monitoring mode engineering installation work load, and is with high costs, maintains numerous and diverse, the poor problem of real-time synchronous monitoring effect. The specific technical scheme is as follows:

the utility model provides a 180 degrees panorama high definition monitoring devices of many meshes concatenation which characterized in that: comprising a housing mechanism and an electrical assembly. The shell mechanism comprises a shell base, a base waterproof ring, a visible light image acquisition device fixing support, an infrared lamp fixing support, a lens, infrared light transmitting glass, an infrared light transmitting glass waterproof ring, an upper cover, a main body mounting support and a sun shade. The electrical components comprise a visible light image acquisition device, an infrared supplementary lighting assembly, a coding processing board, an interface board and a PoE & DC12V power supply board.

The mechanism main body base front side is opened respectively has first through-hole and second through-hole, 4 respectively.

The visible light image acquisition device is provided with 4 mounting holes of the first through hole arranged on the base of the mechanism body.

The infrared light supplement lamp assembly is provided with 4 mounting holes of the second through hole arranged on the base of the mechanism body.

The camera lens and the infrared light transmitting glass are sleeved with the infrared light transmitting glass waterproof ring and then arranged and installed on 4 installation holes of each group of first through holes and second through holes on the base of the mechanism body.

The waterproof ring of base sets up and installs in the waterproof rubber ring recess in the mechanism main part.

The visible light image acquisition device fixing support is arranged and installed at the position, close to the front side, of the mechanism main body; the visible light image acquisition device is arranged on the visible light image acquisition device fixing support to form a ring shape.

The infrared lamp fixing bracket is arranged and installed at the position, close to the front, of the upper cover of the mechanism main body; the infrared light supplementing lamp assembly is arranged on the infrared lamp fixing support to form a ring shape.

The coding processing board and the interface board are arranged and installed on the base of the mechanism main body after being combined through the BTB connector.

The PoE & DC12V power supply board is arranged and installed on the upper cover of the mechanism main body.

The 180-degree panoramic high-definition monitoring device with the multi-purpose splicing function further comprises a tail wire which is connected with an interface board and is electrically connected with the outside.

According to the 180-degree panoramic high-definition monitoring device adopting multi-view splicing, compared with the traditional monitoring mode of a single-lens camera, the problems of large workload of engineering installation, high cost, complex maintenance and poor real-time synchronous monitoring effect can be effectively solved, and an effective application scheme is provided for a scene needing 180-degree panoramic monitoring.

Drawings

Fig. 1 is a schematic diagram of a front face structure of a multi-view spliced 180-degree panoramic high-definition monitoring device provided in an embodiment of the present invention;

fig. 2 is a schematic side view of a multi-view spliced 180-degree panoramic high-definition monitoring device according to an embodiment of the present invention;

the symbols of fig. 1 to 2 are represented as:

firstly, 4 groups of visible light image acquisition devices; ② -4 groups of infrared light supplement lamp assemblies; ③ a mechanism sunshade; fourthly, a photosensitive diode; fifthly, covering the mechanism; sixthly, a mechanism main body; seventhly-mechanism mounting support

Detailed Description

In order to make the present invention clearer, the following embodiments are described with reference to the accompanying drawings.

Referring to fig. 1 and 2, the utility model relates to a 180 degrees panorama high definition monitoring device of many meshes concatenation, including 4 groups visible light image acquisition device, 4 infrared light filling banks spares, processing mainboard, PoE & DC12V power supply boards to and the main part mechanism, the inside installation support that rely on.

The visible light image acquisition assembly is arranged and installed at a position, close to the front face side, of the inner cavity of the mechanism body; the infrared lamp panel component II is arranged and installed on the visible light image acquisition device I; the coding processing plate and the interface plate are arranged and installed in the middle part close to the cavity of the mechanism main body; the PoE & DC12V power supply board is arranged on the inner side of the upper cover of the mechanism main body.

In the above embodiment, the 4 groups of visible light image acquisition devices are annularly mounted on the visible light image acquisition device fixing support, and a physical included angle between two adjacent visible light image acquisition devices is 43 degrees. The lens assembly of each visible light image acquisition device assembly acquires visible light signals, the image sensor processes the visible light signals to generate image data and outputs the image data, the image data is electrically connected with the coding processing board and sent to the processor for further processing, and finally spliced images are output.

Certainly, it can be imagined and understood that the lens of each visible light image acquisition device cannot be completely consistent, and has some differences, plus the consistency problem in assembly, which means that after assembly, the imaging of the camera assembly has a step difference, that is, the imaging of the target in the picture is not uniform in size or staggered; meaning that each finished product must be calibrated.

In particular, if the visible light image capturing device is disassembled or assembled for some reason, a complete machine which has been calibrated must be calibrated again.

The infrared lamp panel component is fixedly installed on the infrared lamp fixing support and arranged in an annular mode, an included angle between every two infrared lamp panel components is kept consistent with that of the lens component, and every infrared lamp panel component is electrically connected with the PoE & DC12V power supply board.

The coding processing board and the interface board are combined together through a board-to-board connector and are arranged in the inner cavity of the mechanism main body and close to the middle part. The coding processing board is also electrically connected with the visible light image acquisition device, the infrared lamp panel component and the PoE & DC12V power supply board through the interface board.

Preferably, the multi-view spliced 180-degree panoramic high-definition monitoring device supports a PoE power supply mode in addition to the DC12V power supply.

Preferably, the 180-degree panoramic high-definition monitoring device with multi-purpose splicing further comprises a tail wire electrically connected with the interface board, and abundant external interfaces are provided.

Preferably, under the darker circumstances of environment, a 180 degrees panorama high definition monitoring device of many meshes concatenation still provides infrared light filling lamp and carries out the light filling, improves the quality of monitored image.

Preferably, the 180 degree panorama high definition monitoring device of many meshes concatenation still includes the sky shade, when its deployment is in outdoor high temperature environment, plays thermal-insulated, reduces the effect of complete machine temperature.

Preferably, the mechanism main body, the lens and the infrared lamp lens of the multi-purpose spliced 180-degree panoramic high-definition monitoring device are provided with waterproof ring devices, so that a waterproof function is achieved.

According to the multi-view spliced 180-degree panoramic high-definition monitoring device, the image resolution of the visible light image acquisition assembly can be 4 2MP or 4K.

The foregoing embodiments are merely illustrative of the principles and techniques of this application and are not intended to limit the application. It will be understood by those skilled in the art that the scope of the invention herein referred to is not limited to the particular combination of features described above, but also encompasses other embodiments having any combination of features described above or equivalent features without departing from the scope of the present invention.

Claims (6)

1. 180 degrees panorama high definition monitoring device of many meshes concatenation, its characterized in that: the intelligent LED lamp comprises 4 groups of visible light image acquisition devices, 4 groups of infrared light supplement lamp assemblies, a processing main board, a PoE & DC12V power supply board, a mechanism depending on the PoE & DC12V power supply board and an internal mounting bracket; the 4 groups of visible light image acquisition devices form an annular arrangement and are arranged on the visible light image acquisition device fixing support of the internal mounting support, and the included angle between every two visible light image acquisition devices is 43 degrees.

2. The multi-purpose splicing 180-degree panoramic high-definition monitoring device according to claim 1, characterized in that: the lens of each visible light image acquisition device is the same, and the angle of field is greater than 55 degrees.

3. The multi-purpose splicing 180-degree panoramic high-definition monitoring device according to claim 1 or 2, characterized in that: the LED lamp further comprises 4 groups of infrared light supplement lamps which form an annular arrangement and are arranged on the infrared lamp fixing support of the internal mounting support.

4. The multi-purpose splicing 180-degree panoramic high-definition monitoring device according to claim 3, characterized in that: also included is a PoE & DC12V power strip that provides power to the electrical components.

5. The multi-purpose splicing 180-degree panoramic high-definition monitoring device according to claim 4, characterized in that: comprises a main body base, a coding processing board and 4 groups of visible light image acquisition devices, wherein the coding processing board and the 4 groups of visible light image acquisition devices are arranged and installed on the main body base; the main body upper cover is used for arranging and installing the infrared supplementary lighting lamp and the PoE & DC12V power panel.

6. The multi-purpose splicing 180-degree panoramic high-definition monitoring device according to claim 5, characterized in that: and splicing the visible light images of the 4 groups of visible light image acquisition devices and outputting the spliced visible light images.

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