CN106444079A - Smart glasses - Google Patents

Abstract

The invention discloses a pair of smart glasses, and relates to the technical field of wearable devices of a human body. The smart glasses comprise a glasses frame and eyeglasses, wherein the glasses frame is internally provided with an intelligent control module; the intelligent control module comprises a microprocessor; a human body sensing module is embedded at the inner side of the glasses frame, and is connected with a signal input end of the microprocessor; a first light intensity measurement module is used for sensing environmental light intensity; a second light intensity measurement module is used for sensing whether the smart glasses are in the daytime or at night according to the light intensity; LCD eyeglasses are used as the eyeglasses; a signal output end of the microprocessor is connected with signal input ends of the LCD eyeglasses by a voltage regulation module; the LCD eyeglasses can change the transmittance of light under the control of the microprocessor. The smart glasses can be automatically turned on and off, and can automatically adjust the transmittance of light of the eyeglasses according to the light intensity, thus being more convenient to use.

Description

Intelligent glasses

Technical field

The present invention relates to the wearable device technical field of human body, more particularly, to one kind can automatic switchings and light intensity is entered The intelligent glasses of row sensing.

Background technology

Glasses are for correcting defects of vision or protect eyes and the simple optics that makes, being made up of eyeglass, mirror holder.Existing The intelligent glasses occurring in technology need to carry out switching on and shutting down manually, there is following shortcoming：1) but forget to close make and break when idle Guan Shi, electricity can waste, and life of product is beaten greatly, detains.2) need manual response when driving, there is potential safety hazard.3) cannot root Automatically adjust the transmittance of eyeglass according to the intensity of illumination of environment.

Content of the invention

The technical problem to be solved is how to provide a kind of achievable automatic switching can be strong according to illumination Degree automatically adjusts the intelligent glasses of eyeglass transmittance.

For solving above-mentioned technical problem, the technical solution used in the present invention is：A kind of intelligent glasses, including picture frame and mirror Piece it is characterised in that：It is provided with intelligent control module, described intelligent control module includes microprocessor, people's body-sensing in described picture frame Answer module to be embedded on the inner side of described picture frame, be connected with the signal input part of described microprocessor, for whether sensing glasses Worn；First luminous intensity measurement module is embedded in the outside of described picture frame, is connected with the signal input part of described microprocessor, Light intensity for induced environment；Second luminous intensity measurement module is embedded in the outside of described picture frame, with described microprocessor Signal input part connects, for being in daytime or night by intensity of illumination induced intelligent glasses；Described eyeglass uses LCD Eyeglass, the signal output part of described microprocessor is connected with the signal input part of described LCD eyeglass through VRM Voltage Regulator Module, described LCD eyeglass can change transmittance under control of the microprocessor；The power input of battery module is connected with charging inlet, battery The power output end of module is divided into the power input of the module needing in two-way, the first via and described intelligent control module to power Connect, for providing working power for it, the second tunnel is connected with the sampling input of battery voltage sensing module, described battery electricity The outfan of pressure detection module is connected with the signal input part of described microprocessor, for detecting the electricity of battery module.

Further technical scheme is：Described intelligent control module also includes acousto-optic hint module, described acousto-optic hint Module is connected with the signal output part of described microprocessor, for sending sound, light cue under control of the microprocessor.

Further technical scheme is：Described acousto-optic hint module includes light emitting diode and speaker.

Further technical scheme is：Described microprocessor uses PIC16F1503 type single-chip microcomputer.

Further technical scheme is：Described first luminous intensity measurement module includes optical sensor U1, optical sensor U1 1 foot be described first luminous intensity measurement module signal output part, resistance R5 and electric capacity C7 one end ground connection, its other end It is connected with the signal output part of the first luminous intensity measurement module；The 2 foot ground connection of optical sensor U1；3 feet of optical sensor U1 connect electricity It is parallel with filter capacitor C11 and electric capacity C30 between source VDD, and power vd D and ground；4 feet of optical sensor U1 are hanging；Light sensing 5 feet of device U1 and 6 feet meet power vd D.

Further technical scheme is：Described optical sensor U1 uses bh1603fvc-e.

Further technical scheme is：Human body induction module includes human body sensor U6 and signal processing chip U5, the signal output part of human body sensor U6 is connected with one end of resistance R33, and the other end of resistance R33 is divided into two-way, the One tunnel is grounded through electric capacity C16, and the second tunnel is connected with 3 feet of described signal processing chip U5,1 foot of described signal processing chip U5 It is divided into two-way, the first via is the signal output part of described human body induction module, the second tunnel is connected with power vd D after resistance R21； The 2 foot ground connection of signal processing chip U5；4 feet of signal processing chip U5 are divided at two-way, the first via and signal after resistance R6 5 feet of reason chip U5 connect, and the second tunnel is grounded after electric capacity C13；5 feet of signal processing chip U5 meet power vd D；Signal processing 6 feet of chip U5 are grounded through resistance R1.

Further technical scheme is：Described VRM Voltage Regulator Module includes voltage-regulation chip U2, voltage-regulation chip 1 foot of U2 is hanging；2 feet of voltage-regulation chip U2 connect the SCL pin of described microprocessor；3 feet of voltage-regulation chip U2 connect The SDA pin of described microprocessor；The 4 foot ground connection of voltage-regulation chip U2；5 feet of voltage-regulation chip U2 are divided into two-way, the One tunnel ground connection, the second tunnel is connected with 7 feet of voltage-regulation chip U2 through electric capacity C15, and 6 feet of voltage-regulation chip U2 are described electricity The voltage output end of pressure adjustment module, 6 feet of voltage-regulation chip U2 are connected with the power input of LCD eyeglass, electric capacity C14's One end is grounded, and the other end is connected with 6 feet of voltage-regulation chip U2, and 7 feet of voltage-regulation chip U2 meet power supply VCC, and voltage is adjusted 8 feet of section chip U2 meet VDD.

Have the beneficial effects that using produced by technique scheme：Start：When the user dons the glasses, the position of human body (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket surrounding, cheekbone, zygomatic arch, temporalis, temporal bone, forehead, the position after ear, finger) and glasses Part (nose support, leg of spectacles, spectacle-frame) near or contact, now capacitance type touch key IC (human body induction module) inspection Measure after faradism capacitance changes, starting-up signal will be exported, enter power on mode, LED flicker simultaneously is once or speaker Send corresponding prompt tone, when the position of above-mentioned human body and the feature contacts state of above-mentioned glasses or apart from constant when, then protect Hold working condition.

Shutdown：When user takes off one's glasses, (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket surrounding, cheekbone, cheekbone at the position of human body Bow, temporalis, temporal bone, forehead, the position after ear, finger) with the part (nose support, leg of spectacles, spectacle-frame) of glasses be in not in contact with When state or distance change, now capacitance type touch key IC (human body induction module) sends out faradism capacitance is detected After raw change, if within this time, the position of above-mentioned human body is not close with the part of glasses or contacts, output is closed Machine signal, enters shutdown mode, and twice or speaker sends corresponding prompt tone for LED flicker simultaneously.

Intelligent switch machine pattern：When user takes off one's spectacles, (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket four at the position of human body Week, cheekbone, zygomatic arch, temporalis, temporal bone, forehead, the position after ear, finger) part (nose support, leg of spectacles, spectacle-frame) with glasses It is in when changing not in contact with state or distance, now capacitance type touch key IC (human body induction module) is detecting sense After answering capacitance to change, delay certain time shutdown, if the position of above-mentioned human body and above-mentioned glasses within this time When part is close or contacts, open state will be kept.

After wearing upper described intelligent glasses, human body induction module can detect the change of body capacitance, to microprocessor one Individual signal, wake module microprocessor work, battery voltage sensing module detection battery mould can be first passed through after microprocessor work The voltage of block, if the voltage of battery module is less than the running voltage of system, LED flash prompting user's (or speaker Send corresponding prompt tone), then shut down.If voltage battery module is detected is more than the running voltage of system, microprocessor Device can detect the signal of the second luminous intensity measurement module immediately, and judgement is daytime or evening, if detecting is daytime, immediately Enter day mode, if detecting is to found entrance evening pattern evening.Then microprocessor can detect the first light intensity immediately The output signal strength of degree measurement module, then microprocessor is defeated according to the ambient light intensity adjustment VRM Voltage Regulator Module detecting The magnitude of voltage going out, by adjusting the magnitude of voltage of VRM Voltage Regulator Module output, changes the running voltage of LCD eyeglass, thus changing LCD The color of eyeglass, and then change the transmittance of LCD eyeglass.If the microprocessor detects that the letter of the second intensity of illumination measurement module The use time number judging glasses is evening, then enter evening pattern, now, if the first intensity of illumination measurement module detects The intensity of artificial light has injury to human eye, and microprocessor can send instructions to VRM Voltage Regulator Module, VRM Voltage Regulator Module meeting immediately Export a corresponding magnitude of voltage to LCD eyeglass, change the color of LCD eyeglass, and then the transmittance of change LCD eyeglass, thus Avoid the injury to glasses for other side's car light when driving meeting, reduce the danger of evening driving.

To sum up, described intelligent glasses can achieve automatic switching and can automatically adjust eyeglass transmittance according to intensity of illumination, Make it using more convenient.

Brief description

The present invention is further detailed explanation with reference to the accompanying drawings and detailed description.

Fig. 1 is the structural representation of intelligent glasses described in the embodiment of the present invention；

Fig. 2 is the theory diagram of intelligent control module described in the embodiment of the present invention；

Fig. 3 is the circuit theory diagrams of the first luminous intensity measurement module described in the embodiment of the present invention；

Fig. 4 is the circuit theory diagrams of human body induction module described in the embodiment of the present invention；

Fig. 5 is the circuit theory diagrams of VRM Voltage Regulator Module described in the embodiment of the present invention；

Fig. 6 a-6b is the control flow chart of intelligent glasses described in the embodiment of the present invention；

Wherein：1st, picture frame 2, eyeglass 3, intelligent control module.

Specific embodiment

With reference to the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Ground description is it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of not making creative work Embodiment, broadly falls into the scope of protection of the invention.

Elaborate a lot of details in the following description in order to fully understand the present invention, but the present invention is acceptable To be implemented different from alternate manner described here using other, those skilled in the art can be without prejudice to intension of the present invention In the case of do similar popularization, therefore the present invention is not limited by following public specific embodiment.

As shown in figure 1, the invention discloses a kind of intelligent glasses, including picture frame and eyeglass, being provided with intelligence in described picture frame Control module.As shown in Fig. 2 described intelligent control module includes microprocessor, human body induction module is embedded in described picture frame On inner side, it is connected with the signal input part of described microprocessor, for sensing whether glasses are worn；First luminous intensity measurement mould Block is embedded in the outside of described picture frame, is connected with the signal input part of described microprocessor, for the light intensity of induced environment；The Two luminous intensity measurement modules are embedded in the outside of described picture frame, are connected with the signal input part of described microprocessor, are used for passing through Intensity of illumination induced intelligent glasses are in daytime or night；Described eyeglass uses LCD eyeglass, the signal of described microprocessor Outfan is connected with the signal input part of described LCD eyeglass through VRM Voltage Regulator Module, and described LCD eyeglass is in the control of microprocessor Under can change transmittance；The power input of battery module is connected with charging inlet, and the power output end of battery module is divided into two Road, the first via is connected with the power input needing the module powered in described intelligent control module, for providing work for it Power supply, the second tunnel is connected with the sampling input of battery voltage sensing module, the outfan of described battery voltage sensing module with The signal input part of described microprocessor connects, for detecting the electricity of battery module.

Further, output prompting for convenience or alarm signal, described intelligent control module also includes acousto-optic hint Module, described acousto-optic hint module is connected with the signal output part of described microprocessor, for sending out under control of the microprocessor Speak, light cue.Preferably, described acousto-optic hint module includes light emitting diode and speaker.

Preferably, described microprocessor uses PIC16F1503 type single-chip microcomputer.It should be noted that above microprocessor Concrete model is merely illustrative, and microprocessor those skilled in the art of which kind of model specifically used can be according to actual needs Carry out suitable type selecting, to meet the needs of the application.

As Fig. 6 a-6b show described glasses control flow chart (A and B in Fig. 6 a respectively with Fig. 6 b in A and B even Whole flow process figure is constituted) after connecing.

Start：When the user dons the glasses, (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket surrounding, cheekbone, cheekbone at the position of human body Bow, temporalis, temporal bone, forehead, the position after ear, finger) with the part (nose support, leg of spectacles, spectacle-frame) of glasses near or connect Touch, now capacitance type touch key IC (human body induction module) is detecting after faradism capacitance changes, will output start Signal, enters power on mode, LED flicker simultaneously once or speaker sends corresponding prompt tone, when above-mentioned human body position with The feature contacts state of above-mentioned glasses or apart from constant when, then keep working condition.

Shutdown：When user takes off one's glasses, (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket surrounding, cheekbone, cheekbone at the position of human body Bow, temporalis, temporal bone, forehead, the position after ear, finger) with the part (nose support, leg of spectacles, spectacle-frame) of glasses be in not in contact with When state or distance change, now capacitance type touch key IC (human body induction module) sends out faradism capacitance is detected After raw change, if within this time, the position of above-mentioned human body is not close with the part of glasses or contacts, output is closed Machine signal, enters shutdown mode, and twice or speaker sends corresponding prompt tone for LED flicker simultaneously.

Intelligent switch machine pattern：When user takes off one's spectacles, (bridge of the nose, nose is convex, double eyebrows, geisoma, eye socket four at the position of human body Week, cheekbone, zygomatic arch, temporalis, temporal bone, forehead, the position after ear, finger) part (nose support, leg of spectacles, spectacle-frame) with glasses It is in when changing not in contact with state or distance, now capacitance type touch key IC (human body induction module) is detecting sense After answering capacitance to change, delay certain time shutdown, if the position of above-mentioned human body and above-mentioned glasses within this time When part is close or contacts, open state will be kept.

After wearing upper described intelligent glasses, human body induction module can detect the change of body capacitance, to microprocessor one Individual signal, wake module microprocessor work, battery voltage sensing module detection battery mould can be first passed through after microprocessor work The voltage of block, if the voltage of battery module is less than the running voltage of system, LED flash prompting user's (or speaker Send corresponding prompt tone), then shut down.If voltage battery module is detected is more than the running voltage of system, microprocessor Device can detect the signal of the second luminous intensity measurement module immediately, and judgement is daytime or evening, if detecting is daytime, immediately Enter day mode, if detecting is to found entrance evening pattern evening.Then microprocessor can detect the first light intensity immediately The output signal strength of degree measurement module, then microprocessor is defeated according to the ambient light intensity adjustment VRM Voltage Regulator Module detecting The magnitude of voltage going out, by adjusting the magnitude of voltage of VRM Voltage Regulator Module output, changes the running voltage of LCD eyeglass, thus changing LCD The color of eyeglass, and then change the transmittance of LCD eyeglass.If the microprocessor detects that the letter of the second intensity of illumination measurement module The use time number judging glasses is evening, then enter evening pattern, now, if the first intensity of illumination measurement module detects The intensity of artificial light has injury to human eye, and microprocessor can send instructions to VRM Voltage Regulator Module, VRM Voltage Regulator Module meeting immediately Export a corresponding magnitude of voltage to LCD eyeglass, change the color of LCD eyeglass, and then the transmittance of change LCD eyeglass, thus Avoid the injury to glasses for other side's car light when driving meeting, reduce the danger of evening driving.

As shown in figure 3, described first luminous intensity measurement module includes optical sensor U1,1 foot of optical sensor U1 is described The signal output part of the first luminous intensity measurement module, one end ground connection, its other end and first light intensity of resistance R5 and electric capacity C7 The signal output part of degree measurement module connects；The 2 foot ground connection of optical sensor U1；3 feet of optical sensor U1 meet power vd D, and electricity It is parallel with filter capacitor C11 and electric capacity C30 between source VDD and ground；4 feet of optical sensor U1 are hanging；5 feet of optical sensor U1 and 6 feet meet power vd D.Preferably, described optical sensor U1 uses bh1603fvc-e.

When ambient lighting is partly gone up in optical sensor U1 photosensitive, U1 can export an electric current according to the intensity of ambient light Signal, then current signal is converted into by voltage signal by the RC circuit of resistance R5 and electric capacity C7 composition, microprocessor can not stop The magnitude of voltage that exports of detection light mouth (signal output part of the first luminous intensity measurement module), when ambient light is stronger, light The magnitude of voltage of mouth can be higher, and then microprocessor can send according to the signal intensity detecting and order accordingly to voltage-regulation mould Block, is adjusted the transmittance (being realized by the color changing LCD) of LCD glasses, makes described Brilliant Eyes by VRM Voltage Regulator Module Mirror can sense intensity of illumination, provides reliable signal for follow-up control.

As shown in figure 4, described human body induction module includes human body sensor U6 and signal processing chip U5, people's body-sensing The signal output part of induction sensor U6 is connected with one end of resistance R33, and the other end of resistance R33 is divided into two-way, and the first via is through electricity Hold C16 ground connection, the second tunnel is connected with 3 feet of described signal processing chip U5, and 1 foot of described signal processing chip U5 is divided into two Road, the first via is the signal output part of described human body induction module, and the second tunnel is connected with power vd D after resistance R21；At signal The 2 foot ground connection of reason chip U5；4 feet of signal processing chip U5 are divided into two-way, the first via and signal processing chip after resistance R6 5 feet of U5 connect, and the second tunnel is grounded after electric capacity C13；5 feet of signal processing chip U5 meet power vd D；Signal processing chip U5 6 feet through resistance R1 be grounded.

When human body sensor U6 detects human contact, human body signal can be passed to signal processing chip U5, U5 The signal that U6 transmission is come is acted upon, and when confirming that this signal is the action putting on one's glasses, U5 can be defeated by ON_OFF mouth Go out a low level signal to microprocessor, microprocessor can be started shooting after this signal is detected immediately.If human body signal disappears Lose, that is, take off one's spectacles, U5 can export a high level signal to microprocessor by ON_OFF mouth, and microprocessor detects this 3 seconds automatic shutdowns can be postponed after signal, so that described intelligent glasses is automatically booted up and control of shutting down is so as to use more Convenient.

As shown in figure 5, described VRM Voltage Regulator Module includes voltage-regulation chip U2,1 foot of voltage-regulation chip U2 is hanging； 2 feet of voltage-regulation chip U2 connect the SCL pin of described microprocessor；3 feet of voltage-regulation chip U2 connect described microprocessor SDA pin；The 4 foot ground connection of voltage-regulation chip U2；5 feet of voltage-regulation chip U2 are divided into two-way, and the first via is grounded, and second Road is connected with 7 feet of voltage-regulation chip U2 through electric capacity C15, and 6 feet of voltage-regulation chip U2 are described VRM Voltage Regulator Module Voltage output end, 6 feet of voltage-regulation chip U2 are connected with the power input of LCD eyeglass, one end ground connection of electric capacity C14, separately One end is connected with 6 feet of voltage-regulation chip U2, and 7 feet of voltage-regulation chip U2 meet power supply VCC, and the 8 of voltage-regulation chip U2 Foot meets VDD.

After U2 receives the order of microprocessor, a transformable voltage is exported to LCD according to the order of microprocessor Eyeglass, the voltage of this change can make the color of LCD eyeglass change, thus changing the light transmittance of eyeglass, voltage is higher, mirror The light transmittance of piece can be lower, and voltage more low-transmittance can be higher, enables described intelligent glasses self adaptation different illumination intensity Environment is so as to use more convenient, using effect is more preferable.

Claims (8)

1. a kind of intelligent glasses, including picture frame and eyeglass it is characterised in that：It is provided with intelligent control module in described picture frame, described Intelligent control module includes microprocessor, and human body induction module is embedded on the inner side of described picture frame, with described microprocessor Signal input part connects, for sensing whether glasses are worn；First luminous intensity measurement module is embedded in the outside of described picture frame, It is connected with the signal input part of described microprocessor, for the light intensity of induced environment；Second luminous intensity measurement module is embedded in The outside of described picture frame, is connected with the signal input part of described microprocessor, for by intensity of illumination induced intelligent glasses being It is in daytime or night；Described eyeglass uses LCD eyeglass, the signal output part of described microprocessor through VRM Voltage Regulator Module with The signal input part of described LCD eyeglass connects, and described LCD eyeglass can change transmittance under control of the microprocessor；Battery mould The power input of block is connected with charging inlet, and the power output end of battery module is divided into two-way, and the first via is controlled with described intelligence The power input needing the module powered in molding block connects, for providing working power, the second tunnel and cell voltage for it The sampling input of detection module connects, the signal input of the outfan of described battery voltage sensing module and described microprocessor End connects, for detecting the electricity of battery module.

2. intelligent glasses as claimed in claim 1 it is characterised in that：Described intelligent control module also includes acousto-optic hint mould Block, described acousto-optic hint module is connected with the signal output part of described microprocessor, for sending under control of the microprocessor Sound, light cue.

3. intelligent glasses as claimed in claim 2 it is characterised in that：Described acousto-optic hint module includes light emitting diode and raises Sound device.

4. intelligent glasses as claimed in claim 1 it is characterised in that：Described microprocessor uses PIC16F1503 type monolithic Machine.

5. intelligent glasses as claimed in claim 1 it is characterised in that：Described first luminous intensity measurement module includes optical sensor 1 foot of U1, optical sensor U1 is the signal output part of described first luminous intensity measurement module, one end of resistance R5 and electric capacity C7 Ground connection, its other end is connected with the signal output part of the first luminous intensity measurement module；The 2 foot ground connection of optical sensor U1；Light sensing 3 feet of device U1 meet power vd D, and are parallel with filter capacitor C11 and electric capacity C30 between power vd D and ground；The 4 of optical sensor U1 Foot is hanging；5 feet of optical sensor U1 and 6 feet meet power vd D.

6. intelligent glasses as claimed in claim 5 it is characterised in that：Described optical sensor U1 uses bh1603fvc-e.

7. intelligent glasses as claimed in claim 1 it is characterised in that：Human body induction module include human body sensor U6 and Signal processing chip U5, the signal output part of human body sensor U6 is connected with one end of resistance R33, and resistance R33's is another End is divided into two-way, and the first via is grounded through electric capacity C16, and the second tunnel is connected with 3 feet of described signal processing chip U5, at described signal 1 foot of reason chip U5 is divided into two-way, and the first via is the signal output part of described human body induction module, and the second tunnel is after resistance R21 It is connected with power vd D；The 2 foot ground connection of signal processing chip U5；4 feet of signal processing chip U5 are divided into two-way after resistance R6, The first via is connected with 5 feet of signal processing chip U5, and the second tunnel is grounded after electric capacity C13；5 feet of signal processing chip U5 connect electricity Source VDD；6 feet of signal processing chip U5 are grounded through resistance R1.

8. intelligent glasses as claimed in claim 1 it is characterised in that：Described VRM Voltage Regulator Module includes voltage-regulation chip U2,1 foot of voltage-regulation chip U2 is hanging；2 feet of voltage-regulation chip U2 connect the SCL pin of described microprocessor；Voltage is adjusted 3 feet of section chip U2 connect the SDA pin of described microprocessor；The 4 foot ground connection of voltage-regulation chip U2；Voltage-regulation chip U2's 5 feet are divided into two-way, and the first via is grounded, and the second tunnel is connected with 7 feet of voltage-regulation chip U2 through electric capacity C15, voltage-regulation chip 6 feet of U2 are the voltage output end of described VRM Voltage Regulator Module, 6 feet of voltage-regulation chip U2 and the power input of LCD eyeglass End connects, one end ground connection of electric capacity C14, and the other end is connected with 6 feet of voltage-regulation chip U2,7 feet of voltage-regulation chip U2 Meet power supply VCC, 8 feet of voltage-regulation chip U2 meet VDD.