CN209656991U - A kind of achromatopsia glasses - Google Patents

Abstract

The utility model provides a kind of achromatopsia glasses, the device is made of following major part: lens body bracket, two ambient image acquisition modules, two AR imaging display modules, primary control box and mirror pin form, wherein also comprising central processing unit, wearing detection module, colour blindness correction selecting module and power module inside primary control box；According to the selection of wearer's colour blindness type, suitable colour blindness corrects gear, it is detected whether by the wearing detection module of AR achromatopsia glasses in wearing state, the ambient image in front of wearer is obtained by ambient image acquisition module, it is handled by image algorithm, obtain color identification information result, color to be treated, which is corresponded to, according to selected colour blindness correction gear compensates and corrects processing, display module is imaged by the AR of AR achromatopsia glasses by color compensating treated ambient image and carries out AR imaging display, so that wearer observes complete color identifying amendment image, and then reduce the inconvenience of colour blindness bring itself and risk, obtain safer living environment and better quality of the life.

Description

A kind of achromatopsia glasses

Technical field

The utility model relates to colour blindness, anomalous trichromatism correcting technology field, and in particular to a kind of achromatopsia glasses.

Background technique

Have in the world group they not to the correct identification capacity of color, be commonly called as colour blindness.Colour blindness is a kind of heredity Physiological defect, colour blindness Producing reason are because the cone in eyes for distinguishing between colors goes wrong.The cone cannot be light Wavelength divides into specific color, but is defined as roughly the same color.

In terms of the correction of colour blindness, Chinese patent 88200988 discloses a kind of protanopia anerythrochloropsia glasses, 87214130 disclosures A kind of anomaloscope, used colour blindness correcting technology use on optical mirror slip through plated film or paste different colours The mode of film certain colors are strengthened to realize, this kind of plated film or paste the achromatopsia glasses of film there are light transmittances Low, the inaesthetic defect of appearance.

Summary of the invention

In view of the deficiencies of the prior art, the utility model provides a kind of achromatopsia glasses, using AR technology and image procossing skill Art obtains the ambient image in front of wearer by ambient image acquisition module, is handled by image algorithm, obtains color identification Information result corrects gear according to selected colour blindness, compensates and corrects place to colour blindness correction gear color to be treated Reason is imaged display module by the AR of AR achromatopsia glasses by color compensating treated ambient image and carries out AR imaging display, So that wearer observes complete color identifying amendment image, and then the inconvenience of colour blindness bring itself and risk are reduced, obtained Safer living environment and better quality of the life.

The utility model provides a kind of achromatopsia glasses, comprising:

Lens body bracket, ambient image acquisition module, AR imaging display module, primary control box and mirror pin composition；

The lens body bracket is the main support structure of AR achromatopsia glasses, including mirror holder framework, AR show eyeglass and Mirror pin forms whole integral structure, for installing all modules of fixed AR achromatopsia glasses；

The ambient image acquisition module is practical to contain at least two image capture module, is being mounted on lens body bracket just Front left eyeglass top center position and right eyeglass top center position, for simulating the environment around the acquisition of human eye binocular vision Image；

The practical AR imaging display module includes two imaging display modules, is mounted on the achromatopsia glasses both sides, point Not Wei Yu the upper left position of left eyeglass and the upper right corner of right eyeglass, AR the to be carried out image shown is projected the AR and is shown The tilting mirrors of a high reflectance inside eyeglass will carry out the image that AR is shown and project eye after the mirror-reflection by described It is shown in eyeball retina；

The primary control box is mounted below mirror holder framework and mirror pin link position, achromatopsia glasses side, in the primary control box Portion also includes central processing unit, wears detection module, colour blindness correction selecting module and power module；The CPU module Using multi-core technology, efficient operational performance is provided, is used for software algorithm processing routine；The wearing detection module uses low coverage From infrared induction technology, for detecting the correct wear condition of user；The colour blindness correction selecting module needs to rectify for selecting Positive anomalous trichromatism color, according to the colour blindness of medical-ophthalmologic standard, anomalous trichromatism classify, i.e., red-bindness, deuteranopia, tetartanopia, red color weakness, Deuteranomalia, blue yellow are weak, according to different colour blindness, the specific subdivision of anomalous trichromatism crowd, colour blindness correction selection mould described in the utility model Block can provide a variety of correction selection gears；The power module uses large capacity rechargeable battery, for the achromatopsia glasses Power supply；

The ambient image acquisition module, power module, colour blindness correction selecting module, wears inspection at AR imaging display module Module is surveyed to connect with CPU module by conducting wire.

Wearer wears the AR achromatopsia glasses by correct way, is rectified according to itself colour blindness illness feature in the colour blindness Corresponding colour blindness correction gear is selected in positive selection module, the wearing detection module detecting real-time perceives wear condition, passes through Ambient image acquisition module obtains the ambient image in front of wearer, is handled by image algorithm, obtains color identification information knot Fruit corresponds to color to be treated according to selected colour blindness correction gear and compensates and corrects processing, handles by color compensating Ambient image afterwards is imaged display module by the AR and projects to the AR display eyeglass progress AR imaging display, so that wearing Person can really perceive the amendment image with true environment solid colour.

Ambient enviroment really complete color point can be observed by the AR achromatopsia glasses of wearing the utility model in wearer It distinguishes amendment image, and then reduces the inconvenience of colour blindness bring itself and risk, obtain safer living environment and preferably life Quality.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of technical solutions of the utility model；

Fig. 2 is the working-flow figure of technical solutions of the utility model；

Fig. 3 is the hardware block diagram of technical solutions of the utility model.

Specific embodiment

In order to be better understood by the technical solution of the utility model and principle, with reference to the accompanying drawing to the tool of the utility model Body embodiment is described further:

As shown in Figure 1, being a kind of achromatopsia glasses provided by the utility model, comprising:

Lens body bracket 101, ambient image acquisition module 102, AR imaging display module 103, primary control box 104 and mirror pin 105 compositions；

The lens body bracket 101 is the main support structure of AR achromatopsia glasses, including mirror holder framework 1011, AR are shown Eyeglass 1012 and mirror pin 105, form whole integral structure, for installing all modules of fixed AR achromatopsia glasses；

The ambient image acquisition module 102 actually contains at least two image capture module, is mounted on lens body branch 101 front left eyeglass top center position of frame and right eyeglass top center position, for simulating human eye binocular vision acquisition week The ambient image enclosed；

The practical AR imaging display module 103 includes two imaging display modules, is mounted on the achromatopsia glasses both sides, It is located at the upper left position of left eyeglass and the upper right corner of right eyeglass, AR the to be carried out image shown is projected the AR and is shown The tilting mirrors for showing 1,012 one high reflectance in inside of eyeglass, by the image throwing that carry out AR and show after the mirror-reflection It is mapped in eye retina and is shown；

The primary control box 104 is mounted below mirror holder framework 1011 and 105 link position of mirror pin, achromatopsia glasses side, institute It states inside primary control box 104 also comprising central processing unit 1041, wearing detection module 1042, colour blindness correction selecting module 1043 and electricity Source module 1044；The CPU module 1041 uses multi-core technology, provides efficient operational performance, is used for software algorithm Processing routine；The wearing detection module 1042 uses short distance infrared induction technology, correctly wears feelings for detecting user Condition；The anomalous trichromatism color that colour blindness correction selecting module 1043 is used to that needs select to correct, according to the colour blindness of medical-ophthalmologic standard, Anomalous trichromatism classification, i.e. red-bindness, deuteranopia, tetartanopia, red color weakness, deuteranomalia, blue yellow are weak, according to different colour blindness, anomalous trichromatism people The specific subdivision of group, colour blindness correction selecting module described in the utility model can provide a variety of correction selection gears；The power supply mould Block 1044 uses large capacity rechargeable battery, for powering to the achromatopsia glasses；

The ambient image acquisition module 102, AR imaging display module 103, power module 1044, colour blindness correction selection mould Block 1043, wearing detection module 1042 are connect with CPU module 1041 by conducting wire.

Wearer wears the AR achromatopsia glasses by correct way, is rectified according to itself colour blindness illness feature in the colour blindness Corresponding colour blindness correction gear is selected in positive selection module 1043, feelings are worn in 1042 detecting real-time of the wearing detection module perception Condition obtains the ambient image in front of wearer by ambient image acquisition module 102, is handled by image algorithm, obtains color Identification information compensates and corrects processing as a result, correcting gear according to selected colour blindness and corresponding to color to be treated, by face Colorimetric compensation treated ambient image is imaged display module by the AR and projects to the AR to show that eyeglass carries out AR imaging aobvious Show, wearer is enabled really to perceive the amendment image with true environment solid colour.

As shown in Fig. 2, being a kind of working-flow of achromatopsia glasses of the utility model, comprising the following steps:

1), system initialization, setting colour blindness correct gear；

2) it, is detected whether by the wearing detection module of AR achromatopsia glasses in wearing state；

3), ambient image acquisition module captures ambient image, is handled by image algorithm, obtains ambient image color letter Breath；

4) colour blindness color compensating correcting process, is carried out according to selected colour blindness color correction gear；

5), the ambient image after compensation deals is imaged display module by AR and carries out AR imaging display.

Claims (2)

1. a kind of achromatopsia glasses, which is characterized in that

It include: lens body bracket, ambient image acquisition module, AR imaging display module, primary control box and mirror pin composition；

The lens body bracket is the main support structure of AR achromatopsia glasses, including mirror holder framework, AR show eyeglass and mirror pin, Whole integral structure is formed, for installing all modules of fixed AR achromatopsia glasses；

The ambient image acquisition module is practical to contain at least two image capture module, is mounted on immediately ahead of lens body bracket Left eyeglass top center position and right eyeglass top center position, for simulating the environment map around the acquisition of human eye binocular vision Picture；

The practical AR imaging display module includes two imaging display modules, is mounted on the achromatopsia glasses both sides, respectively position In the upper left position of left eyeglass and the upper right corner of right eyeglass, AR the to be carried out image shown is projected the AR and shows eyeglass The tilting mirrors of an internal high reflectance will carry out the image that AR is shown and project eyes view after the mirror-reflection by described It is shown in nethike embrane；

The primary control box is mounted below mirror holder framework and mirror pin link position, achromatopsia glasses side, inside the primary control box also Comprising central processing unit, wear detection module, colour blindness correction selecting module and power module；The wearing detection module is using close Apart from infrared induction technology, for detecting the correct wear condition of user；The colour blindness correction selecting module is needed for selecting Power module described in the anomalous trichromatism color of correction uses large capacity rechargeable battery, for powering to the achromatopsia glasses；

The ambient image acquisition module, power module, colour blindness correction selecting module, wears detection mould at AR imaging display module Block is connect with CPU module by conducting wire.

2. achromatopsia glasses according to claim 1, it is further characterized in that,

Wearer wears the AR achromatopsia glasses by correct way, is corrected and is selected in the colour blindness according to itself colour blindness illness feature It selects and selects corresponding colour blindness correction gear in module, the wearing detection module detecting real-time perceives wear condition, passes through environment Image capture module obtains the ambient image in front of wearer, is handled by image algorithm, obtains color identification information as a result, root It corresponds to color to be treated according to selected colour blindness correction gear and compensates and corrects processing, by color compensating treated ring Border image is imaged display module by the AR and projects to the AR display eyeglass progress AR imaging display, enables wearer true The amendment image with true environment solid colour is perceived in fact.