CN211206987U

CN211206987U - Self-induction switch type intelligent color-changing sunglasses

Info

Publication number: CN211206987U
Application number: CN201922424236.9U
Authority: CN
Inventors: 韩苗磊
Original assignee: Handan Fuya Electronics Technology Co ltd
Current assignee: Handan Fuya Electronics Technology Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-08-07
Anticipated expiration: 2029-12-30

Abstract

The utility model provides a this sunglasses that discolours of self-induction switch formula intelligence, includes spectacle frame, two liquid crystal lenses and battery, the spectacle frame is including spectacle frame and two spectacle legs, has the bridge of the nose part of the two mirror rings of intermediate junction of two mirror rings, spectacle frame on the spectacle frame to and the nose holds in the palm, characterized by: the sunglasses also comprise a manual/automatic function touch interface, a night meeting function touch interface, a magnetic type charging interface and a FPC integrated circuit board, wherein two pieces of conducting electromagnets are arranged in the magnetic type charging interface, the nose bridge part is a shell structure with a cavity inside and comprises a base and a bottom cover, and the FPC integrated circuit board is arranged in the inner cavity of the base of the nose bridge part. The intelligent color-changing sunglasses have the advantages that the size of a circuit system can be made very small, and therefore the intelligent color-changing sunglasses with exquisite and beautiful appearance can be designed.

Description

Self-induction switch type intelligent color-changing sunglasses

Technical Field

The utility model relates to an intelligence sunglasses that discolours, especially a self-induction switch formula intelligence sunglasses that discolours.

Background

At present, the existing intelligent color-changing sunglasses are divided into two types, one type is the intelligent color-changing sunglasses driven by a solar cell, the circuit system of the intelligent color-changing sunglasses can be very small, but the intelligent color-changing sunglasses are driven by the solar cell, so that a plurality of application occasions are limited, for example: when the intelligent color-changing sunglasses are driven in a vehicle, the sunlight in front is dazzling, and the lenses need to change the color of the lenses to be black, but the conversion rate of the solar battery is low due to insufficient light intensity in the vehicle, so that the circuit and the color-changing lenses are not driven enough, and the function of color change of the intelligent color-changing sunglasses cannot be realized actually;

second type intelligence sunglasses that discolours adopts ordinary rechargeable battery drive, this kind of intelligence that adopts ordinary rechargeable battery drive sunglasses that discolours has solved solar cell restricted external light environment's problem, but when adopting this kind of ordinary battery drive, circuitry and rechargeable battery, all can occupy certain space, and occupation space is very big, and the place that can put down circuitry and rechargeable battery is also the glasses leg, will cause the glasses leg to be wider like this, thick, the whole very heavy that shows of glasses, it is not exquisite, thereby lead to not being approved and accept by many consumers. The above is the deficiency of the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the utility model provides a self-induction switch formula intelligence sunglasses that discolours, this intelligence sunglasses that discolours can do the circuit system volume very little, realizes that circuit system and rechargeable battery are whole to concentrate on the middle part of spectacle-frame to can design out the intelligent sunglasses that discolours of exquisite, beautiful appearance.

The purpose of the utility model can be realized by the following technical scheme:

this sunglasses discolours from inductive switch formula intelligence, including spectacle frame, two liquid crystal lenses and battery, the spectacle frame is including spectacle frame and two spectacle legs, has the bridge of the nose part of two mirror rings of intermediate connection of two mirror rings, spectacle frame on the spectacle frame to and the nose holds in the palm, characterized by: the sunglasses comprise a manual/automatic function touch interface, a night meeting function touch interface, a magnetic type charging interface and an FPC integrated circuit board, wherein two pieces of electromagnetic conducting stones are arranged in the magnetic type charging interface, the left edge part and the right edge part of the sunglasses frame are provided with two touch induction parts, the manual/automatic function touch interface is arranged in one touch induction part, the night meeting function touch interface is arranged in the other touch induction part, the manual/automatic function touch interface and the night meeting function touch interface are electrically connected with the FPC integrated circuit board, and two liquid crystal lenses and a battery are electrically connected with the FPC integrated circuit board; the nose bridge part is a shell structure with a cavity inside and comprises a base and a bottom cover, wherein a photosensitive hole is formed in the base, the cavity and a plurality of bottom cover mounting screw positioning holes I are formed in the base, two magnet mounting holes, two nose support mounting screw holes I, a spring hole and a plurality of bottom cover mounting screw positioning holes II which correspond to the bottom cover mounting screw positioning holes I respectively are formed in the bottom cover; the FPC integrated circuit board is arranged in the inner cavity of the base, a photosensitive element and a touch IC bonding pad are arranged on the FPC integrated circuit board, the photosensitive part of the photosensitive element corresponds to the photosensitive hole on the base, two conductive magnets are arranged at two magnet mounting holes on the bottom cover, and the lower end of the conductive magnets is electrically connected with the FPC integrated circuit board; the conductive part of the nose support passes through the spring hole on the bottom cover through a spring or a spring thimble and is connected to the touch IC bonding pad of the FPC integrated circuit board.

The nose holds in the palm including holding in the palm the blade, two conductive facing and the conductive connection piece of connecting two conductive facing, hold in the palm the blade and be insulating plastic material, by a left side, two blades on the right side constitute with the connecting blade that is located between two blades, two conductive facing set up respectively in two blades that hold in the palm the blade, wrap up by two blades that hold in the palm the blade, conductive connection piece installs in the upper end that holds in the palm the blade, on the connecting blade between two blades, conductive connection piece passes the spring hole on the bridge of the nose part bottom through spring or spring thimble, be connected to FPC integrated circuit board's touch IC pad on, all be equipped with on connecting blade and the conductive connection piece with bridge of the nose part bottom two corresponding nose support installation screw holes I respectively two nose support installation screw holes II.

Two conductive linings to and the conductive connection piece of connecting two conductive linings are the sheetmetal.

Two conductive linings to and the conductive connection piece of connecting two conductive linings are iron sheet or steel sheet.

The utility model discloses a FPC integrated circuit board comprises charge controller circuit, power regulator circuit, mode switching controller circuit, touch IC pad, sensitization controller circuit and low-power consumption MCU, there are charge management chip IC2, resistance R21 ~ R23, emitting diode D1 and electric capacity C21 and C22 in the charge controller circuit; a linear voltage regulator IC3 and capacitors C31 and C32 are arranged in the power supply voltage regulator circuit; the mode switching controller circuit is internally provided with a touch chip IC5, resistors R51 and R52 and capacitors C51 and C52; the photosensitive controller circuit is internally provided with a resistor R44 and a photosensitive element, and the photosensitive element is a photosensitive diode D41; the low-power consumption MCU is internally provided with a low-power consumption microcontroller IC1, resistors R12 and R14, a diode D3 and a capacitor C11;

the circuit connection relationship is as follows: in the charge controller circuit, a 1 st pin of a charge management chip IC2 is connected with one end of a resistor R23 and one end of a capacitor C22, the other end of the resistor R23 is connected with the anode of a light-emitting diode D1, the cathode of a light-emitting diode D1 is connected with a 3 rd pin of a charge management chip IC2, the 4 th pin and the 5 th pin of the charge management chip IC2 are both grounded, the 6 th pin, the 7 th pin and the 8 th pin of the charge management chip IC2 are respectively connected with one ends of a resistor R22, a resistor R21 and a capacitor C21, the other ends of the resistor R22 and the R21 are grounded after being short-circuited, and the other ends of the capacitors C21 and C22 are also grounded after; in the power supply voltage stabilizer circuit, a 1 st pin of a linear voltage stabilizer IC3 is connected with one end of a capacitor C31 and outputs a stabilized power supply voltage VCC, a 2 nd pin is connected with the other end of the capacitor C31 and is grounded, a 4 th pin is connected with one end of a capacitor C32, and the other end of the capacitor C32 is grounded; in the mode switching controller circuit,

pins

1 and 2 of a touch chip IC5 are respectively connected with one ends of resistors R51 and R52, the other ends of the resistors R51 and R52 are both connected with a stabilized supply voltage VCC, a pin 3 of the touch chip IC5 is connected with one end of a capacitor C51 and grounded, the other end of the capacitor C51 is connected with a pin 4 of the touch chip IC5, a pin 5 of the touch chip IC5 is connected with the stabilized supply voltage VCC and is simultaneously connected with one end of the capacitor C52, the other end of the capacitor C52 is grounded, and a pin 8 of the touch chip IC5 is connected with a pad of the touch chip IC; the manual/automatic function touch interface and the night meeting function touch interface are both connected to the 7 th pin of a touch chip IC5 in the mode switching controller circuit; in the low-power-consumption MCU, a 7 th pin of a low-power-consumption microcontroller IC1 is connected with the anode of a diode D3, the cathode of a diode D3 is grounded,

pins

17 and 18 of the low-power-consumption microcontroller IC1 are respectively connected with one ends of a resistor R12 and a resistor R14, the other ends of the resistor R12 and the resistor R14 are connected with a 16 th pin of the low-power-consumption microcontroller IC1 after being mutually short-circuited, a 21 st pin of a low-power-consumption microcontroller IC1 is connected with a stabilized supply voltage VCC and is simultaneously connected with one end of a capacitor C11, and the other end of the capacitor C11 is connected with a 22 nd pin of the low-power-consumption microcontroller IC 1; between the magnetic attraction type charging interface and the charging controller circuit, the lower end of one electromagnetic conducting stone is an N pole or an S pole, is the anode of the magnetic attraction type charging interface, is connected to the 1 st pin of the charging management chip IC2 through a bonding pad on the FPC integrated circuit board, and the lower end of the other electromagnetic conducting stone is an S pole or an N pole, is the cathode of the magnetic attraction type charging interface, and is connected with the ground; between the battery and the charging controller circuit and the power voltage stabilizer circuit, the 1 st pin of the battery, namely the positive pole of the battery, is connected with the 8 th pin of the charging management chip IC2 and the 4 th pin of the linear voltage stabilizer IC3 through a welding disc on the FPC integrated circuit board, and the 2 nd pin of the battery, namely the negative pole of the battery, is grounded; between the photosensitive controller circuit and the low-power consumption MCU, the cathode of the photodiode D41 is connected to the 11 th pin of the low-power consumption microcontroller IC 1; between the mode switching controller circuit and the low-power consumption MCU, the 2 nd pin and the 1 st pin of the touch chip IC5 are respectively connected to the 14 th pin and the 15 th pin of the low-power consumption microcontroller IC 1; between the two liquid crystal lenses and the low-power consumption MCU, the COM electrode and the SEG electrode of each liquid crystal lens are respectively connected with the 18 th pin and the 17 th pin of the low-power consumption microcontroller IC 1.

The FPC integrated circuit board of the utility model has a structure that a single-sided flexible substrate is attached with a reinforcing plate in a main body area part with precision components, and has a single-sided flexible substrate structure in an area part without precision components; the manual/automatic function touch interface and the night meeting function touch interface are respectively connected to a 7 th pin of a touch chip IC5 in the mode switching controller circuit through 2 single-sided flexible substrates of the FPC integrated circuit board; the COM electrode and the SEG electrode of each liquid crystal lens are respectively connected with the 18 th pin and the 17 th pin of the low-power consumption microcontroller IC1 through a single-sided flexible substrate of the FPC integrated circuit board.

FPC integrated circuit board is 0.1mm steel sheet at the reinforcing plate that has attached of the regional part of main part that has accurate components and parts.

The battery is a lithium ion battery.

The utility model has the advantages that: 1) the self-induction switch type intelligent color-changing sunglasses can make the volume of a circuit system very small, and adopt the FPC integrated circuit board, thereby greatly reducing the volume of the circuit board, realizing that the circuit system and the rechargeable battery are all concentrated at the middle part of the spectacle frame (namely, the middle of the spectacle frame is connected with the nose bridge part of two spectacle rings), and further being capable of designing the intelligent color-changing sunglasses with exquisite and beautiful appearance; 2) the nose support is used as a part of the sunglasses, which plays a supporting role on the bridge of the nose, and is also used as a human body contact induction switch, so that the product structure is simplified, and the use is more convenient; 3) the two touch function switches, namely a manual/automatic function touch interface and a night meeting function touch interface, are arranged inside two touch induction parts at the left edge and the right edge of the glasses frame, and different functions can be realized by touching the two touch induction parts at the left edge and the right edge of the glasses frame with hands, so that the operation is convenient; 4) the conductive magnet is used as the positive electrode and the negative electrode of the charging port, so that the charging is convenient and the space is not occupied; 5) the FPC integrated circuit board is in a structure that a single-sided flexible substrate is attached with a reinforcing plate in a main body area part with a precision component, and is in a structure that a single-sided flexible substrate is in an area part without the precision component, so that the length, width and thickness of the whole circuit board are greatly reduced, and the miniaturization of products is facilitated.

Drawings

FIG. 1 is a schematic view of a self-induction switch type intelligent color-changing sunglass;

FIG. 2 is a schematic view of the bottom view of the self-induction switch type intelligent color-changing sunglasses;

FIG. 3 is a schematic left view of the self-induction switch type intelligent color-changing sunglasses;

FIG. 4 is a rear view exploded perspective view of the eyeglass frame with the nose pads removed from the self-induction switch type intelligent color-changing sunglasses;

FIG. 5 is a schematic view of the nose pad of the self-induction switch type intelligent color-changing sunglasses;

FIG. 6 is a schematic diagram of a top view of a nose pad of the self-induction switch type intelligent color-changing sunglasses;

FIG. 7 is a block circuit diagram of a self-induction switching intelligent color-changing sunglass;

fig. 8 is a circuit schematic diagram of the self-induction switch type intelligent color-changing sunglasses.

Detailed Description

As shown in fig. 1-8, the self-induction switch type intelligent color-changing sunglasses comprises a spectacle frame, two liquid crystal lenses 5 and a battery 23, wherein the spectacle frame comprises a spectacle frame 1 and two spectacle legs 7, the spectacle frame 1 is provided with two spectacle rings, a nose bridge part 3 for connecting the two spectacle rings is arranged in the middle of the spectacle frame 1, and a nose support 6, and the self-induction switch type intelligent color-changing sunglasses is characterized in that: the nose support 6 is used as a part of the sunglasses which plays a supporting role on the bridge of the nose, and is also used as a human body contact induction switch, the sunglasses are internally provided with a conductive part, and further comprise a manual/automatic function touch interface 25, a night meeting function touch interface 24, a magnetic type charging interface 26 and an FPC (flexible printed circuit) integrated circuit board 8, wherein the magnetic type charging interface 26 is internally provided with two conductive electromagnets 14, the left edge part and the right edge part of the glasses frame 1 are provided with two touch induction parts 4, the manual/automatic function touch interface 25 is arranged inside one touch induction part 4, the night meeting function touch interface 24 is arranged inside the other touch induction part 4, the manual/automatic function touch interface 25 and the night meeting function touch interface 24 are both electrically connected with the FPC integrated circuit board 8, and the two liquid crystal lenses 5 and the battery 23 are both electrically connected with the FPC integrated circuit board 8; the nose bridge part 3 is of a shell structure with a cavity inside and comprises a base 9 and a bottom cover 13, the base 9 is provided with a photosensitive hole 2, the inside of the base 9 is provided with the cavity and a plurality of bottom cover mounting screw positioning holes I10, the bottom cover 13 is provided with two magnet mounting holes, two nose support mounting screw holes I17, a spring hole 15 and a plurality of bottom cover mounting screw positioning holes II 16 corresponding to the bottom cover mounting screw positioning holes I10 respectively; the FPC integrated circuit board 8 is arranged in an inner cavity of the base 9, a photosensitive element 12 and a touch IC bonding pad 11 are arranged on the FPC integrated circuit board 8, the photosensitive part of the photosensitive element 12 corresponds to the photosensitive hole 2 on the base 9, two electromagnetic conducting stones 14 are arranged at two magnet mounting holes on the bottom cover 13, and the lower ends of the two electromagnetic conducting stones are electrically connected with the FPC integrated circuit board 8; the conductive parts of the nose pads 6 are connected to the touch IC pads 11 of the FPC IC 8 through spring holes 15 in the bottom cover 13 by springs or pogo pins.

As shown in fig. 1, 2, and 4 to 7, the nose pad 6 includes a blade holder, two conductive pads 20 and a conductive connecting piece 18 connecting the two conductive pads 20, the blade holder is made of insulating plastic material and is composed of a left blade 19, a right blade 19 and a connecting blade 21 between the two blades 19, the two conductive pads 20 are respectively disposed in the two blades 19 of the blade holder and are wrapped by the two blades 19 of the blade holder, the conductive connecting piece 18 is mounted at the upper end of the blade holder, the connecting blade 21 between the two blades 19 is provided, the conductive connecting piece 18 passes through a spring hole 15 on a bottom cover 13 of the nose bridge member 3 through a spring or a spring thimble and is connected to a touch IC pad 11 of the FPC integrated circuit board 8, the connecting blade 21 and the conductive connecting sheet 18 are respectively provided with two nose support mounting screw holes II 22 corresponding to the two nose support mounting screw holes I17 on the bottom cover 13 of the nose bridge part 3. The two conductive linings 20 and the conductive connection tab 18 connecting the two conductive linings 20 are each a metal sheet, which may be an iron sheet or a steel sheet, for example.

As shown in fig. 7 and 8, the FPC integrated circuit 8 is composed of a charge controller circuit 27, a power regulator circuit 28, a mode switching controller circuit 29, a touch IC pad 11, a light sensing controller circuit 30, and a low power consumption MCU31, wherein the charge controller circuit 27 includes a charge management chip IC2, resistors R21 to R23, a light emitting diode D1, and capacitors C21 and C22; the power supply voltage regulator circuit 28 is internally provided with a linear voltage regulator IC3 and capacitors C31 and C32; the mode switching controller circuit 29 has therein a touch chip IC5, resistors R51 and R52, and capacitors C51 and C52; the photosensitive controller circuit 30 is internally provided with a resistor R44 and a photosensitive element 12, wherein the photosensitive element 12 is a photosensitive diode D41; the low-power consumption MCU31 is internally provided with a low-power consumption microcontroller IC1, resistors R12 and R14, a diode D3 and a capacitor C11;

the circuit connection relationship is as follows: in the charge controller circuit 27, the 1 st pin of the charge management chip IC2 is connected with one end of a resistor R23 and one end of a capacitor C22, the other end of the resistor R23 is connected with the anode of a light-emitting diode D1, the cathode of the light-emitting diode D1 is connected with the 3 rd pin of a charge management chip IC2, the 4 th pin and the 5 th pin of the charge management chip IC2 are both grounded, the 6 th pin, the 7 th pin and the 8 th pin of the charge management chip IC2 are respectively connected with one ends of a resistor R22, a resistor R21 and a capacitor C21, the other ends of the resistors R22 and R21 are grounded after being short-circuited, and the other ends of the capacitors C21 and C22 are also grounded after being; in the power regulator circuit 28, a 1 st pin of a linear regulator IC3 is connected to one end of a capacitor C31 and outputs a regulated supply voltage VCC, a 2 nd pin is connected to the other end of the capacitor C31 and grounded, a 4 th pin is connected to one end of a capacitor C32, and the other end of the capacitor C32 is grounded; in the mode switching controller circuit 29, the 1 st and 2 nd pins of the touch chip IC5 are respectively connected to one ends of resistors R51 and R52, the other ends of the resistors R51 and R52 are both connected to a regulated supply voltage VCC, the 3 rd pin of the touch chip IC5 is connected to one end of a capacitor C51 and grounded, the other end of the capacitor C51 is connected to the 4 th pin of the touch chip IC5, the 5 th pin of the touch chip IC5 is connected to the regulated supply voltage VCC and simultaneously connected to one end of the capacitor C52, the other end of the capacitor C52 is grounded, and the 8 th pin of the touch chip IC5 is connected to the touch IC pad 11; the manual/automatic function touch interface 25 and the night meeting function touch interface 24 are both connected to the 7 th pin of the touch chip IC5 in the mode switching controller circuit 29; in the low-power consumption MCU31, a 7 th pin of a low-power consumption microcontroller IC1 is connected with the anode of a diode D3, the cathode of the diode D3 is grounded, 17 th and 18 th pins of the low-power consumption microcontroller IC1 are respectively connected with one ends of a resistor R12 and a resistor R14, the other ends of the resistor R12 and the resistor R14 are connected with a 16 th pin of a low-power consumption microcontroller IC1 after being short-circuited with each other, a 21 st pin of the low-power consumption microcontroller IC1 is connected with a stabilized supply voltage VCC and is simultaneously connected with one end of a capacitor C11, and the other end of the capacitor C11 is connected with a 22 nd pin of the low-power consumption microcontroller IC1 and is; between the magnetic attraction type charging interface 26 and the charging controller circuit 27, the lower end of one electromagnet 14 is an N pole or an S pole, which is the positive pole of the magnetic attraction type charging interface and is connected to the 1 st pin of the charging management chip IC2 through a bonding pad on the FPC integrated circuit board 8, and the lower end of the other electromagnet 14 is an S pole or an N pole, which is the negative pole of the magnetic attraction type charging interface and is connected to the ground; between the battery 23 and the charge controller circuit 27 and the power regulator circuit 28, the 1 st pin of the battery 23, that is, the positive pole of the battery 23 is connected with the 8 th pin of the charge management chip IC2 and the 4 th pin of the linear regulator IC3 through a bonding pad on the FPC integrated circuit board 8, and the 2 nd pin of the battery 23, that is, the negative pole of the battery 23 is grounded; between the photosensitive controller circuit 30 and the low-power consumption MCU31, the cathode of the photosensitive diode D41 is connected to the 11 th pin of the low-power consumption microcontroller IC 1; between the mode switching controller circuit 29 and the low power consumption MCU31, the 2 nd and 1 st pins of the touch chip IC5 are respectively connected to the 14 th and 15 th pins of the low power consumption microcontroller IC 1; between the two liquid crystal lenses 5 and the low-power consumption MCU31, the COM electrode and the SEG electrode of each liquid crystal lens 5 are respectively connected with the 18 th pin and the 17 th pin of the low-power consumption microcontroller IC 1. The battery 23 is a lithium ion battery.

As shown in fig. 7 and 8, the FPC integrated circuit 8 has a structure in which a reinforcing plate is attached to a single-sided flexible substrate in a main body region portion having a precision component, and has a structure in which a single-sided flexible substrate is attached to a region portion not having a precision component; the manual/automatic function touch interface 25 and the night meeting function touch interface 24 are respectively connected to the 7 th pin of the touch chip IC5 in the mode switching controller circuit 29 through 2 single-sided flexible substrates of the FPC integrated circuit board 8; the COM electrode and SEG electrode of each liquid crystal lens 5 are respectively connected with the 18 th and 17 th pins of the low power consumption microcontroller IC1 through the single-sided flexible substrate of the FPC integrated circuit board 8. The reinforcing plate attached to the main body area part of the FPC integrated circuit board 8 with the precision components is a 0.1mm steel plate.

The working principle of the self-induction switch type intelligent color-changing sunglasses is as follows: when a wearer wears sunglasses, the nose pad 6 contacts the skin of the human body to generate a capacitance signal, the signal triggers the touch chip IC5 in the mode switching controller circuit 29, the touch chip IC5 sends a low-level signal to the low-power-consumption microcontroller IC1 in the low-power-consumption MCU31 after detecting the signal, the low-power-consumption microcontroller IC1 exits from a sleep state to judge the external interface information, for example, the signal states of the left and right touch sensing parts 4 of the spectacle frame 1, the manual/automatic function touch interface 25 and the night meeting function touch interface 24, the voltage state of the photosensitive element 12 in the photosensitive controller circuit 30, namely the photosensitive diode D41, and then the low-power-consumption microcontroller IC1 enters a corresponding working state according to the judged external interface information; at this time, when the manual/automatic function touch interface 25 is touched by a human hand at the touch sensing portion 4, the manual/automatic function touch interface 25 sends a mode switching command signal (capacitance signal) to the touch chip IC5 in the mode switching controller circuit 29, the touch chip IC5 converts the received capacitance signal sent by the manual/automatic function touch interface 25 into a level signal and outputs the level signal to the low-power-consumption microcontroller IC1 in the low-power-consumption MCU31, and the low-power-consumption microcontroller IC1 performs corresponding mode switching control according to the level signal to control the sunglasses to switch between two function modes, namely, a "manual operation mode" and an "automatic operation mode"; when the sunglasses are in the "manual operating mode" function mode, if the sunglasses are to be switched between the "outdoor mode" and the "in-vehicle mode", the sunglasses are required to be switched between the "outdoor mode" and the "in-vehicle mode", if the working mode of the sunglasses is to be adjusted, the human hand is required to touch the touch sensing portion 4 where the night meeting function touch interface 24 is located, the night meeting function touch interface 24 sends a mode switching instruction signal (capacitance signal) to the touch chip IC5 in the mode switching controller circuit 29, the touch chip IC5 converts the received capacitance signal sent by the night meeting function touch interface 24 into a level signal, and outputs the level signal to the low-power-consumption microcontroller IC1 in the low-power-consumption MCU31, the low-power-consumption microcontroller IC1 performs corresponding mode switching control according to the level signal to control the sunglasses to be switched between the "outdoor mode" and the "in-vehicle mode", and the photosensitive element 12 in the controller circuit 30, the photodiode D41 receives a voltage signal converted from the light intensity, and outputs the voltage signal to the low-power microcontroller IC1 in the low-power microcontroller MCU31, and the low-power microcontroller IC1 performs operation and analysis according to a certain working mode (an "outdoor mode" or an "in-vehicle mode") and outputs the voltage signal to appropriate voltage values corresponding to the two liquid crystal lenses 5, thereby intelligently adjusting the blackness of the two liquid crystal lenses 5; when the sunglasses are in the functional mode of the "automatic working mode", the sunglasses are operated and analyzed by the low-power microcontroller IC1 in the low-power consumption MCU31 according to the magnitude of the voltage signal converted from the received light intensity of the photosensitive element 12 in the photosensitive controller circuit 30, i.e., the photodiode D41, in the environment, and output the voltage signal to the two liquid crystal lenses 5 according to the appropriate voltage value, so that the blackness of the two liquid crystal lenses 5 can be intelligently adjusted.

This self-induction switch formula intelligence sunglasses that discolours when needs charge for its inside battery 23, on 3 bottoms 13 of bridge of the nose part, two are led the upper end position of electromagnetism stone 14, and the external magnetism is inhaled the formula charger of going up, can charge for battery 23.

Claims

1. The utility model provides a sunglasses that discolours of self-induction switch formula intelligence, includes spectacle frame, two liquid crystal lenses (5) and battery (23), the spectacle frame is including spectacle frame (1) and two spectacle legs (7), has bridge of the nose part (3) of two mirror rings of intermediate junction of two mirror rings, spectacle frame (1) on spectacle frame (1) to and nose holds in the palm (6), characterized by: the sunglasses are characterized in that the nose support (6) is used as a part for supporting the spectacle frame of the sunglasses on the bridge of the nose and is also used as a human body contact induction switch, a conductive part is arranged in the nose support, the sunglasses further comprise a manual/automatic function touch interface (25), a night meeting function touch interface (24), a magnetic suction type charging interface (26) and an FPC integrated circuit board (8), two pieces of electromagnetic conducting stones (14) are arranged in the magnetic suction type charging interface (26), two touch induction parts (4) are arranged at the left edge part and the right edge part of the spectacle frame (1), the manual/automatic function touch interface (25) is arranged in one touch induction part (4), the night meeting function touch interface (24) is arranged in the other touch induction part (4), the manual/automatic function touch interface (25) and the night meeting function touch interface (24) are both electrically connected with the FPC integrated circuit board (8), the two liquid crystal lenses (5) and the battery (23) are electrically connected with the FPC integrated circuit board (8); the nose bridge part (3) is of a shell structure with a cavity inside and comprises a base (9) and a bottom cover (13), a light sensing hole (2) is formed in the base (9), the cavity and a plurality of bottom cover mounting screw positioning holes I (10) are formed in the base (9), two magnet mounting holes, two nose support mounting screw holes I (17), a spring hole (15) and a plurality of bottom cover mounting screw positioning holes II (16) corresponding to the bottom cover mounting screw positioning holes I (10) respectively are formed in the bottom cover (13); the FPC integrated circuit board (8) is arranged in an inner cavity of the base (9), a photosensitive element (12) and a touch IC bonding pad (11) are arranged on the FPC integrated circuit board (8), the photosensitive part of the photosensitive element (12) corresponds to the photosensitive hole (2) on the base (9), two pieces of electromagnetic conducting stones (14) are arranged at two magnet mounting holes on the bottom cover (13), and the lower ends of the two pieces of electromagnetic conducting stones are electrically connected with the FPC integrated circuit board (8); the conductive part of the nose support (6) passes through a spring hole (15) on the bottom cover (13) through a spring or a spring thimble and is connected to a touch IC pad (11) of the FPC integrated circuit board (8).

2. The self-induction switching intelligent sunglasses according to claim 1, characterized in that: the nose support (6) comprises a support blade, two conductive linings (20) and a conductive connecting sheet (18) for connecting the two conductive linings (20), the support blade is made of insulating plastic materials and consists of a left support blade (19), a right support blade (19) and a connecting blade (21) positioned between the two support blades (19), the two conductive linings (20) are respectively arranged in the two support blades (19) of the support blade and are wrapped by the two support blades (19) of the support blade, the conductive connecting sheet (18) is arranged at the upper end of the support blade, the connecting blade (21) between the two support blades (19) is provided with a connecting sheet (18), the conductive connecting sheet (18) penetrates through a spring hole (15) in a bottom cover (13) of the nose bridge part (3) through a spring or a spring thimble and is connected to a touch IC pad (11) of the FPC integrated circuit board (8), and the connecting blade (21) and the conductive connecting sheet (18) are respectively provided with two nose support mounting holes (17) in the bottom cover (13) of the nose bridge part ( Screw holes II (22) are arranged on the two corresponding nose supports.

3. The self-induction switching intelligent color-changing sunglasses according to claim 2, characterized in that: the two conductive linings (20) and the conductive connecting sheet (18) connecting the two conductive linings (20) are both metal sheets.

4. The self-induction switching intelligent sunglasses according to claim 3, characterized by: the two conductive linings (20) and the conductive connecting piece (18) connecting the two conductive linings (20) are both iron sheets or steel sheets.

5. The self-induction switching intelligent color-changing sunglasses according to any one of claims 1 to 4, wherein: the FPC integrated circuit board (8) is composed of a charging controller circuit (27), a power supply voltage stabilizer circuit (28), a mode switching controller circuit (29), a touch IC bonding pad (11), a photosensitive controller circuit (30) and a low-power consumption MCU (31), wherein a charging management chip IC2, resistors R21-R23, a light-emitting diode D1, capacitors C21 and C22 are arranged in the charging controller circuit (27); a linear voltage regulator IC3 and capacitors C31 and C32 are arranged in the power supply voltage regulator circuit (28); the mode switching controller circuit (29) is internally provided with a touch chip IC5, resistors R51 and R52 and capacitors C51 and C52; the light sensing controller circuit (30) is internally provided with a resistor R44 and a light sensing element (12), and the light sensing element (12) is a light sensitive diode D41; the low-power consumption MCU (31) is internally provided with a low-power consumption microcontroller IC1, resistors R12 and R14, a diode D3 and a capacitor C11;

the circuit connection relationship is as follows: in the charge controller circuit (27), a 1 st pin of a charge management chip IC2 is connected with one end of a resistor R23 and one end of a capacitor C22, the other end of the resistor R23 is connected with the anode of a light-emitting diode D1, the cathode of the light-emitting diode D1 is connected with a 3 rd pin of a charge management chip IC2, the 4 th pin and the 5 th pin of the charge management chip IC2 are both grounded, the 6 th pin, the 7 th pin and the 8 th pin of the charge management chip IC2 are respectively connected with one ends of a resistor R22, a resistor R21 and a capacitor C21, the other ends of the resistors R22 and R21 are grounded after being short-circuited, and the other ends of the capacitors C21 and C22 are also grounded after being short; in the power supply voltage stabilizer circuit (28), a 1 st pin of a linear voltage stabilizer IC3 is connected with one end of a capacitor C31 and outputs a stabilized power supply voltage VCC, a 2 nd pin is connected with the other end of a capacitor C31 and is grounded, a 4 th pin is connected with one end of a capacitor C32, and the other end of the capacitor C32 is grounded; in the mode switching controller circuit (29), the 1 st pin and the 2 nd pin of the touch chip IC5 are respectively connected with one ends of a resistor R51 and a resistor R52, the other ends of the resistor R51 and the resistor R52 are both connected with a stabilized supply voltage VCC, the 3 rd pin of the touch chip IC5 is connected with one end of a capacitor C51 and grounded, the other end of a capacitor C51 is connected with the 4 th pin of the touch chip IC5, the 5 th pin of the touch chip IC5 is connected with the stabilized supply voltage VCC and is simultaneously connected with one end of the capacitor C52, the other end of the capacitor C52 is grounded, and the 8 th pin of the touch chip IC5 is connected with a touch IC pad (11); the manual/automatic function touch interface (25) and the night meeting function touch interface (24) are both connected to the 7 th pin of a touch chip IC5 in the mode switching controller circuit (29); in the low-power consumption MCU (31), a 7 th pin of a low-power consumption microcontroller IC1 is connected with the anode of a diode D3, the cathode of a diode D3 is grounded, 17 th and 18 th pins of the low-power consumption microcontroller IC1 are respectively connected with one ends of a resistor R12 and a resistor R14, the other ends of the resistor R12 and the resistor R14 are connected with a 16 th pin of the low-power consumption microcontroller IC1 after being short-circuited with each other, a 21 st pin of the low-power consumption microcontroller IC1 is connected with a stabilized supply voltage VCC and is simultaneously connected with one end of a capacitor C11, and the other end of the capacitor C11 is connected with a 22 nd pin of the low-power consumption microcontroller IC1 and is grounded; between the magnetic attraction type charging interface (26) and the charging controller circuit (27), the lower end of one electromagnet conducting piece (14) is an N pole or an S pole, is the anode of the magnetic attraction type charging interface, is connected to the 1 st pin of the charging management chip IC2 through a bonding pad on the FPC integrated circuit board (8), and the lower end of the other electromagnet conducting piece (14) is an S pole or an N pole, is the cathode of the magnetic attraction type charging interface, and is connected with the ground; between the battery (23) and the charging controller circuit (27) and the power supply voltage stabilizer circuit (28), the 1 st pin of the battery (23), namely the positive pole of the battery (23), is connected with the 8 th pin of the charging management chip IC2 and the 4 th pin of the linear voltage stabilizer IC3 through a bonding pad on the FPC integrated circuit board (8), and the 2 nd pin of the battery (23), namely the negative pole of the battery (23), is grounded; between the photosensitive controller circuit (30) and the low-power consumption MCU (31), the cathode of the photosensitive diode D41 is connected to the 11 th pin of the low-power consumption microcontroller IC 1; between the mode switching controller circuit (29) and the low power consumption MCU (31), the 2 nd and 1 st pins of the touch chip IC5 are respectively connected to the 14 th and 15 th pins of the low power consumption microcontroller IC 1; between the two liquid crystal lenses (5) and the low-power consumption MCU (31), the COM electrode and the SEG electrode of each liquid crystal lens (5) are respectively connected with the 18 th pin and the 17 th pin of the low-power consumption microcontroller IC 1.

6. The self-induction switching intelligent sunglasses according to claim 5, characterized by: the FPC integrated circuit board (8) is in a structure that a single-sided flexible substrate is attached with a reinforcing plate in a main body area part with a precise component, and is in a structure that a single-sided flexible substrate is in a main body area part without the precise component; the manual/automatic function touch interface (25) and the night meeting function touch interface (24) are respectively connected to a 7 th pin of a touch chip IC5 in the mode switching controller circuit (29) through 2 single-sided flexible substrates of an FPC (flexible printed circuit) integrated circuit board (8); the COM electrode and the SEG electrode of each liquid crystal lens (5) are respectively connected with the 18 th pin and the 17 th pin of the low-power consumption microcontroller IC1 through a single-sided flexible substrate of an FPC integrated circuit board (8).

7. The self-induction switching intelligent sunglasses according to claim 6, characterized in that: and the reinforcing plate attached to the main body area part of the FPC integrated circuit board (8) with the precision components is a 0.1mm steel plate.

8. The self-induction switching intelligent sunglasses according to claim 5, characterized by: the battery (23) is a lithium ion battery.