CN218243675U

CN218243675U - Infrared panoramic observation mirror

Info

Publication number: CN218243675U
Application number: CN202222832430.2U
Authority: CN
Inventors: 陈枫; 王欢; 李�杰; 李岩; 刘伟; 朱兴胜
Original assignee: Chongqing Zhujiang Photoelectric Technology Co ltd
Current assignee: Chongqing Zhujiang Photoelectric Technology Co ltd
Priority date: 2022-10-26
Filing date: 2022-10-26
Publication date: 2023-01-06
Anticipated expiration: 2032-10-26

Abstract

The utility model relates to an inspection glass technical field, concretely relates to infrared panorama inspection glass, including panorama infrared image acquisition device, infrared camera lens, image processing subassembly, power and image distribution board group, inflation valve and casing for 360 degrees environment infrared image information around gathering the vehicle place, the video signal to the display in the output was gathered. The observer can obtain the surrounding real-time environment situation in the closed vehicle environment, and the establishment of the environment situation of the personnel is assisted. The personnel can feel the external environment and deal with the emergency. The infrared panoramic observation mirror adopts a single lens to realize image acquisition and processing within the range of 360 degrees in azimuth and 60-40 degrees in height, and is small, exquisite, light, convenient to install, and wide in application and use range.

Description

Infrared panoramic observation mirror

Technical Field

The utility model relates to a sight glass technical field, concretely relates to infrared panorama sight glass.

Background

At present, most panoramic observation mirrors are provided with turntable cameras or multi-lens cameras, and have large volume and high cost; the installation and the use are inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infrared panorama sight glass aims at solving the inconvenient problem of current equipment fixing use.

In order to achieve the purpose, the utility model provides an infrared panoramic observation mirror, which comprises a panoramic infrared image acquisition device, an infrared lens, an image processing component, a power supply and image distribution plate group, an inflation valve and a shell;

the infrared camera lens with panorama infrared image acquisition device connects to be located in the panorama infrared image acquisition device, the casing with panorama infrared image acquisition device fixed connection, and with infrared camera lens connects, the inflation valve with casing fixed connection, and be located one side of casing, the image processing subassembly with casing fixed connection, and be located in the casing, power and image distribution board group with the casing is connected, and is located the casing is close to the below of image processing subassembly.

The infrared panoramic observation mirror further comprises a power supply and an image distribution plate set, wherein the power supply and image distribution plate set comprises a mounting seat, a power supply module and an SDI distribution plate, the mounting seat is fixedly connected with the shell and is positioned in the shell, the power supply module is fixedly connected with the mounting seat and is positioned in the mounting seat, and the SDI distribution plate is fixedly connected with the mounting seat and is positioned on one side of the mounting seat.

The image processing assembly further comprises a sensor plate, a transition plate and an image correction plate, the sensor plate is connected with the infrared lens and located on one side of the infrared lens, the transition plate is connected with the shell and located in the shell, and the image correction plate is arranged between the sensor plate and the transition plate.

Wherein, the inflation valve is including aerifing valve barrel, valve gap, valve inside, clamping ring and preforming, aerify the valve barrel with the casing is connected, and is located one side of casing, the valve gap with aerify valve barrel threaded connection, and be located aerify one side of valve barrel, the valve inside with aerify the valve barrel and connect, and be located aerify the valve barrel and be close to one side of valve gap, the clamping ring with valve gap connects, and is located one side of valve gap, the preforming with valve inside threaded connection, and with the clamping ring is connected.

The utility model discloses an infrared panoramic observation mirror adopts single infrared camera to carry out 360 degrees panoramic image collection, has overcome many camera lenses in the past and has observed the mirror with high costs, the real-time poor, have the blind area not enough shortcoming. The distortion problem of the oversized visual field of the lens is solved through a 360-degree image correction mode, a 'curved surface effect' is eliminated, so that the distortion problem meets the requirement of human vision, 360-degree information acquisition processing around a vehicle body is realized through vertically upward mounting of an infrared panoramic observation mirror, thus targets in a 360-degree range can be imaged in an infrared sensor, the formed image is processed through an image correction plate, and one path of SDI video image meeting the requirement of the human vision is output. And two paths of SDI video signals are output by the power supply and the image distribution plate group and are respectively provided for a control computer and an operation control computer for use, and the infrared panoramic observation mirror adopts a wide-angle reflection technology, so that images within 360 DEG and 40-12 DEG of lens panoramic view are transmitted to the image processing assembly for imaging after being reflected by light waves. And the collected image is corrected and processed by the image processing component in real time through an SOC (System on Chip) pretreatment System. The method expands the collected original image into a panoramic wide image in a space transformation and coordinate transformation mode, and can divide areas on the image to realize multi-picture division of a panoramic picture and realize 360-degree panoramic video picture collection without mechanical driving of a single lens.

Drawings

In order to more clearly illustrate the embodiments of the present application 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.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a diagram of an optical system according to the present invention.

Fig. 3 is a schematic structural diagram of the image correction processing assembly of the present invention.

Fig. 4 is a schematic diagram of a power and image distribution board assembly according to the present invention.

Fig. 5 is a schematic structural view of the inflation valve of the present invention.

Fig. 6 is a view showing an installation form of the present invention.

101-panoramic infrared image acquisition device, 102-infrared lens, 103-shell, 104-inflation valve, 105-image processing component, 106-power supply and image distribution plate set, 107-mounting seat, 108-power supply module, 109-SDI distribution plate, 110-sensor plate, 111-transition plate, 112-image correction plate, 113-inflation valve sleeve, 114-valve cover, 115-valve core, 116-pressing ring and 117-pressing sheet.

Detailed Description

The first embodiment of the present application is:

please refer to fig. 1-6, fig. 1 is a schematic structural diagram, fig. 2 is a schematic structural diagram of the optical system of the present invention, fig. 3 is a schematic structural diagram of the image correction processing assembly of the present invention, fig. 4 is a schematic structural diagram of the power supply and the image distribution plate assembly of the present invention, fig. 5 is a schematic structural diagram of the inflation valve of the present invention, and fig. 6 is a schematic structural diagram of the installation form of the present invention.

The utility model discloses an infrared panorama sight glass:

for the specific embodiment, the infrared lens is connected with the panoramic infrared image acquisition device 101 and is located in the panoramic infrared image acquisition device 101, the shell 103 is fixedly connected with the panoramic infrared image acquisition device 101 and is connected with the infrared lens, the inflation valve 104 is fixedly connected with the shell 103 and is located at one side of the shell 103, the image processing assembly 105 is fixedly connected with the shell 103 and is located in the shell 103, the power supply and image distribution plate assembly 106 is connected with the shell 103 and is located at one side of the shell 103 close to the image processing assembly 105, a single infrared lens is adopted to carry out 360-degree panoramic image acquisition, the defects of high cost, poor real-time performance and insufficient blind areas of the conventional multi-lens camera observation lens are overcome, the distortion problem of the lens view field is solved through a 360-degree image correction mode, the 'oversized curved surface effect' is eliminated so that the lens conforms to the requirement of human eye vision, the 360-degree information acquisition processing around the vehicle body is realized through vertically upward panoramic installation through the infrared observation lens, and thus a target in a 360-degree range can be imaged in the infrared sensor, the image is processed through the image 112, and a path of the human eye video image is output as a SDI video correction requirement. And then the two paths of SDI video signals are output by the power supply and image distribution plate group 106 and are respectively provided for a control computer and an operation control computer for use.

Wherein, the mount pad 107 with casing 103 fixed connection, and be located in the casing 103, power module 108 with mount pad 107 fixed connection, and be located in the mount pad 107, SDI distribution board 109 with mount pad 107 fixed connection, and be located one side of mount pad 107, panoramic observation mirror pass through the cable external input 26V power warp power module 108 converts the 12V direct current into and does image processing subassembly 105 and SDI distribution board 109 power supply work.

The sensor board 110 is connected to the infrared lens and located at one side of the infrared lens, the transition board 111 is connected to the housing 103 and located in the housing 103, the image correction board 112 is disposed between the sensor board 110 and the transition board 111, the infrared panoramic observation mirror employs a wide-angle reflection technology, an image in a range of 360 ° and 40 ° to 12 ° around the lens is transmitted to the sensor board 110 after being reflected by an optical wave, and the acquired image is corrected and processed by the image correction board 112 in real time through an SOC (System on Chip) pre-processing System, the acquired original image is widened into a panoramic wide image through spatial transformation and coordinate transformation, and areas can be divided on the image to realize multi-picture division of the panoramic image.

Thirdly, the inflation valve sleeve 114 is connected with the casing 103 and located on one side of the casing 103, the valve cover 114 is in threaded connection with the inflation valve sleeve 114 and located on one side of the inflation valve sleeve 114, the valve core 115 is connected with the inflation valve sleeve 114 and located on one side of the inflation valve sleeve 114 close to the valve cover 114, the pressing ring 116 is connected with the valve cover 114 and located on one side of the valve cover 114, the pressing sheet 117 is in threaded connection with the valve core 115 and connected with the pressing ring 116, nitrogen filling of the product is achieved through the two inflation valves 104, and the optical lens is protected from mildewing and water vapor generation is prevented when the temperature difference is large.

The infrared panoramic observation mirror adopts the single infrared lens to collect panoramic images of 360 degrees, and overcomes the defects of high cost, poor real-time performance and insufficient blind areas of the traditional multi-lens camera observation mirror. The distortion problem of a lens ultra-large field of view is solved through a 360-degree image correction mode, a curved surface effect is eliminated to enable the lens ultra-large field of view to meet the requirement of human vision, 360-degree information acquisition and processing around a vehicle body are achieved through vertical upward installation of an infrared panoramic observation mirror, a target within the range of 360 degrees can be imaged in an infrared sensor, and an image is processed through an image correction plate 112 to output an SDI video image which meets the requirement of human vision. And then two paths of SDI video signals are output by the SDI distributing plate 109 group and are respectively provided for a control computer and an operation control computer for use, the infrared panoramic observation mirror adopts a wide-angle reflection technology, and images within 360 DEG and 40-12 DEG of lens panoramic vision are transmitted to the image processing assembly 105 for imaging after being reflected by light waves. The collected image is corrected and processed by the image processing component 105 in real time through an SOC (System on Chip) preprocessing System. The method expands the acquired original image into a panoramic wide image in a space transformation and coordinate transformation mode, and can divide the image into areas so as to realize multi-picture segmentation of a panoramic picture and realize the acquisition of a single-lens panoramic 360-degree video picture without mechanical drive.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims

1. An infrared panoramic observation mirror is characterized in that,

the panoramic infrared image acquisition device comprises a panoramic infrared image acquisition device, an infrared lens, a shell, an inflation valve, an image processing assembly, a power supply and an image distribution plate group;

2. The infrared panoramic viewer of claim 1,

3. The infrared panoramic viewer of claim 2,

4. The infrared panoramic viewer of claim 3,

the inflation valve is including aerifing valve barrel, valve gap, valve inside, clamping ring and preforming, aerify the valve barrel with the casing is connected, and is located one side of casing, the valve gap with aerify valve barrel threaded connection, and be located one side of aerifing the valve barrel, the valve inside with aerify the valve barrel and connect, and be located it is close to aerify the valve barrel one side of valve gap, the clamping ring with valve gap connects, and is located one side of valve gap, the preforming with valve inside threaded connection, and with the clamping ring is connected.