CN212628185U - Spectrum camera system based on intelligent glasses - Google Patents

Abstract

The utility model discloses a spectrum camera system based on intelligent glasses relates to the spectrum technique of making a video recording. The technical scheme is provided for solving the problem that eyes are easily exposed to ultraviolet irradiation in the prior art, and comprises a spectrum camera and intelligent glasses, wherein the spectrum camera is in signal connection with the intelligent glasses; the intelligent glasses are provided with a video display unit, and the video display unit is used for displaying the spectral image shot by the spectral camera. The device has the advantages that an operator can conveniently observe the image shot by the spectrometer during shooting, the photographer can be ensured to observe the surrounding environment, a shooting target is searched, and the damage of ultraviolet light to eyes is avoided.

Description

Spectrum camera system based on intelligent glasses

Technical Field

The utility model relates to a spectrum camera technology especially relates to spectrum camera system based on intelligent glasses.

Background

The traditional imaging technology only records the light intensity information of the radiation of the shot target, and loses the spectral information capable of reflecting the characteristics of the target substance. The spectral imaging technology simultaneously records the light intensity information and the spectral information of target radiation, and can perform qualitative, quantitative and positioning analysis on the target, so that the method is widely applied to detection of various objects and analysis of material properties. The hyperspectral imaging can perform spectral analysis on each pixel point in an image, can realize wide-range measurement, and the hyperspectral camera is widely applied to medical treatment, industry, space and environment detection.

The method is widely applied to searching fingerprints and spots on site by using spectral imaging. By imaging the spectrums with different wavelengths, images which cannot be shot and covered during white light shooting can be shot, and fingerprints and spots which cannot be seen by naked eyes and are hidden under a complex background are found. Therefore, the utility model is widely popular and applied to case handling personnel in public security institutions and the like.

When an ultraviolet spectrum is used for shooting a target, an ultraviolet light source is often used for lighting, so that the brightness of the target is increased, and the shooting effect is improved. Ultraviolet light is harmful to human bodies and requires operators to wear protective clothing and gloves for operation, but images must be observed and photographed objects must be found with eyes when photographing, and thus the eyes are easily exposed to the irradiation of the ultraviolet light and may be damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spectrum camera system based on intelligent glasses to solve the problem that eyes are shone by the ultraviolet ray.

The utility model discloses a spectrum camera system based on intelligent glasses, including spectrum camera and intelligent glasses, the spectrum camera with intelligent glasses signal connection; the intelligent glasses are provided with a video display unit, and the video display unit is used for displaying the spectral image shot by the spectral camera.

Spectrum camera system based on intelligent glasses, its advantage lies in, can both make things convenient for in the image that the operator observed the spectrum appearance and shoot when shooing, guarantee again that the shooter observes the environment on every side, look for and shoot the target, avoid the injury of ultraviolet ray to eyes.

The intelligent glasses are provided with cameras, and videos shot by the cameras are transmitted to the video display unit.

The spectrum camera and the intelligent glasses are arranged in a split mode and are in wireless communication connection with each other.

The spectrum camera is a handheld spectrum camera adopting a pixel film coating chip.

The video display unit comprises a left screen and a right screen; the left screen and the right screen are respectively connected with the same or different data sources.

The spectrum camera and the intelligent glasses are arranged in an integrated mode.

The device also comprises a data processing unit; the data processing unit is in communication connection with the intelligent glasses.

The intelligent glasses comprise a pair of glasses, and are characterized by further comprising a remote controller, wherein the remote controller is in communication connection with the intelligent glasses.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the spectral camera system of the present invention.

Fig. 2 is a schematic structural diagram of a second embodiment of the spectral camera system of the present invention.

Fig. 3 is a schematic structural diagram of a third embodiment of the spectral camera system of the present invention.

Reference numerals: 11-intelligent glasses, 12-right screen, 13-left screen and 14-camera; 21-spectral camera; 31-remote control, 32-data processing unit.

Detailed Description

Example one

As shown in FIG. 1, the spectrum camera system based on the intelligent glasses comprises the intelligent glasses and the spectrum camera which are arranged in a split mode. The intelligent glasses and the spectrum camera are respectively internally provided with a wireless transmission module for wireless communication, and the wireless transmission module can be a WiFi module, a Bluetooth module and the like.

After the intelligent glasses are worn on a human body, ultraviolet light which enters eyes can be shielded, and the eyes are prevented from being exposed in a dangerous environment. The intelligent glasses are provided with a video display unit consisting of a left screen and a right screen, and the intelligent glasses are also provided with a camera.

The video display unit displays the spectral image shot by the spectral camera according to the requirement of an operator and can also display the video shot by the camera according to the requirement. The display mode can be that the left screen is correspondingly connected with a data source of the spectrum camera and the right screen is correspondingly connected with a data source of the camera. The data source can be switched left and right at any time according to the requirements of an operator; the left screen and the right screen can be connected with a camera or a spectrum camera to serve as the same data source. The screen can display images for eyes by adopting a flat panel display lens mode such as an LCD, an OLED and the like or an LCOS (liquid Crystal on silicon) and DLP (digital light processing) projection mode.

When the device is used, the camera feeds back the environmental conditions around an operator in real time, the focusing condition of the spectrum camera can be synchronously displayed, and spectrum camera shooting operation can be carried out under the condition that eyes are not exposed to ultraviolet.

Example two

As shown in fig. 2, the overall structure and operation principle of the present embodiment are substantially the same as those of the first embodiment, and the main difference is that the spectral camera is a handheld spectral camera. The spectrum camera is internally provided with a pixel film coating chip and a scanning platform for driving the pixel film coating chip to move precisely. The specific structure and working principle of a spectral camera with a built-in pixel coating chip are described in patent document 202010778427X entitled "Portable hyperspectral imager based on pixel coating technology and its shooting method".

Compared with the first embodiment, the handheld spectrum camera has the advantage of being more convenient to operate, the handheld spectrum camera can be further provided with an operation panel, the spectrum camera is operated by fingers when being handheld, and operations such as startup and shutdown and imaging spectrum switching are achieved. The intelligent glasses can be operated through the operation panel, the operation instruction is transmitted to the intelligent glasses through the wireless transmission module, and the operation of switching the images or switching the images is achieved.

EXAMPLE III

As shown in FIG. 3, spectrum camera system based on intelligent glasses includes intelligent glasses and the spectrum appearance of making a video recording that the integral type set up, still includes the remote controller and the data processing unit of external intelligent glasses. The intelligent glasses are internally provided with a wireless transmission module for wireless communication, and are also provided with a video display unit consisting of a left screen and a right screen, and the intelligent glasses are provided with a camera and/or a spectrum camera. The spectrum camera can realize miniaturization through a built-in pixel film coating chip, so that the problem of integration is solved, and the shot spectrum image can be directly displayed on a video display unit of the intelligent glasses. The spectrum image shot by the spectrum camera can be stored, processed and displayed by the intelligent glasses, and can also be sent to the data processing unit for storage, processing and display by utilizing the wireless transmission function of the intelligent glasses. The data processing unit can be a smart phone, a computer bar, a cloud server and the like.

The remote controller and the data processing unit are respectively in communication connection with the intelligent glasses. The intelligent glasses can be matched with spectral data analysis software for application, specific targets are searched by analyzing spectral images shot by the spectral camera, and position indication or information display of the specific targets is carried out by the video display unit in an AR or VR mode. The intelligent glasses can receive control signals sent by a handheld remote controller and respond to corresponding actions, such as shooting or shooting, switching of a filter (optical filter) and the like.

Under the technical guidance of the present invention, those skilled in the art can clearly understand that the first and second embodiments can be operated by a remote controller.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (8)

1. The spectrum camera system based on the intelligent glasses is characterized by comprising a spectrum camera and the intelligent glasses, wherein the spectrum camera is in signal connection with the intelligent glasses; the intelligent glasses are provided with a video display unit, and the video display unit is used for displaying the spectral image shot by the spectral camera.

2. The smart-glasses-based spectral camera system according to claim 1, wherein the smart glasses are provided with a camera, and a video shot by the camera is transmitted to the video display unit.

3. The system according to claim 1, wherein the spectral camera and the smart glasses are provided in a split type and are in wireless communication with each other.

4. The smart-glasses-based spectral camera system of claim 3, wherein the spectral camera is a hand-held spectral camera using a pixel coated chip.

5. The smart-glasses-based spectral camera system of claim 3, wherein said video display unit comprises a left screen and a right screen; the left screen and the right screen are respectively connected with the same or different data sources.

6. The smart-glasses-based spectral camera system of claim 1, wherein the spectral camera and the smart glasses are integrally disposed.

7. The smart-glasses-based spectral camera system of claim 6, further comprising a data processing unit; the data processing unit is in communication connection with the intelligent glasses.

8. The smart-glasses-based spectral camera system of claim 6, further comprising a remote controller, wherein the remote controller is in communication with the smart glasses.

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