CN112631185A - Control system of intelligent lens clip - Google Patents

Control system of intelligent lens clip Download PDF

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Publication number
CN112631185A
CN112631185A CN202011570600.3A CN202011570600A CN112631185A CN 112631185 A CN112631185 A CN 112631185A CN 202011570600 A CN202011570600 A CN 202011570600A CN 112631185 A CN112631185 A CN 112631185A
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China
Prior art keywords
pin
chip
resistor
module
capacitor
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CN202011570600.3A
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Chinese (zh)
Inventor
葛玉珍
吕妍楠
孙金平
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Shandong Vocational College of Science and Technology
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Shandong Vocational College of Science and Technology
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Priority to CN202011570600.3A priority Critical patent/CN112631185A/en
Publication of CN112631185A publication Critical patent/CN112631185A/en
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • G05B19/042Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
    • G05B19/0423Input/output
    • GPHYSICS
    • G02OPTICS
    • G02CSPECTACLES; SUNGLASSES OR GOGGLES INSOFAR AS THEY HAVE THE SAME FEATURES AS SPECTACLES; CONTACT LENSES
    • G02C11/00Non-optical adjuncts; Attachment thereof
    • G02C11/10Electronic devices other than hearing aids
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/25Pc structure of the system
    • G05B2219/25257Microcontroller

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Acoustics & Sound (AREA)
  • General Health & Medical Sciences (AREA)
  • Otolaryngology (AREA)
  • Ophthalmology & Optometry (AREA)
  • Optics & Photonics (AREA)
  • Photometry And Measurement Of Optical Pulse Characteristics (AREA)

Abstract

The application discloses a control system of an intelligent lens clamp, which comprises an MCU module, a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a photovoltaic charging module, a reference voltage module and a lithium battery module; the MCU module is connected with a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a reference voltage module and a photovoltaic charging module. Has the following advantages: the angle can be automatically adjusted, the lens has the functions of blocking ultraviolet rays and strong light, an ultraviolet sensor and a photosensitive sensor are installed for sensing the external ultraviolet intensity and light intensity, and when the external ultraviolet light is too strong or dazzles, the lens automatically turns over; the human angle of pronating of gyroscope perception, accurate regulation lens still have the photovoltaic function of charging, charge through the received light intensity is automatic.

Description

Control system of intelligent lens clip
Technical Field
The invention relates to the field of wearable equipment, in particular to a control system of an intelligent lens clamp.
Background
With increasingly heavy life and study, no matter adults or children wear the glasses, and ultraviolet-proof glasses appear on the market due to the fact that the eyes are greatly damaged when the purple light intensity is too high.
For example, patent No. CN201020267904.8, entitled electronic sunglasses with automatic brightness adjustment, discloses an electronic sunglasses with automatic brightness adjustment, which has the following effects:
1. the utility model discloses a can change the light and shade degree of self according to the strong and weak change of external environment light, can make the light and shade degree of glasses satisfy the demand of human sense organ again when protecting user's eyes not receive the ultraviolet ray injury.
2. The utility model discloses a still supplementary manual mode of adjusting with, on automatically regulated's basis, can satisfy the individual sense organ needs in different environment of user, consequently the utility model discloses be fit for using in various environment, all can realize the effect of preferred.
3. The utility model discloses a present sunglasses that a plurality of light and shade degrees differ of fungible to reduce user's purchase cost.
4. The utility model discloses a simple structure, the practicality is strong, possesses the control function who has intelligent electronization, except on can being applicable to sunglasses, also can be applicable to on other similar products.
As shown in the above patent, the ultraviolet sensor is used to collect light, the collection precision is low, the speed is slow, and the cost is expensive compared with the cost of the automatic adjusting glasses of the lens clip.
Disclosure of Invention
In order to solve the problems, the invention provides a control system of an intelligent lens clamp, which realizes simultaneous acquisition of ultraviolet intensity and illumination intensity, improves the precision and speed of light acquisition, and can adjust the angle of the lens clamp according to the acquired light intensity to realize the function of blocking strong light.
In order to solve the technical problems, the invention adopts the following technical scheme:
the utility model provides a control system of intelligence lens holder which characterized in that: the device comprises an MCU module, a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a photovoltaic charging module, a reference voltage module and a lithium battery module; the MCU module is connected with a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a reference voltage module and a photovoltaic charging module.
Further, the MCU module comprises a chip U1 and a chip U2, the model of the chip U1 is PIC16F877A-E/ML, the model of the chip U2 is ADC0809, the 7 pins and the 8 pins of the chip U1, pins 28 and 29 are connected with VCC, pin 9 of chip U1 is connected with pin 21 of chip U2, pin 10 of chip U1 is connected with pin 20 of chip U2, pin 11 of chip U1 is connected with pin 19 of chip U2, pin 12 of chip U1 is connected with pin 18 of chip U2, pin 14 of chip U1 is connected with pin 8 of chip U2, pin 15 of chip U1 is connected with pin 15 of chip U2, pin 16 of chip U1 is connected with pin 14 of chip U2, pin 17 of chip U1 is connected with pin 17 of chip U2, pin 19 of chip U1 is connected with pin 7 of chip U2, pin 21 of chip U1 is connected with pin 25 of chip U2, pin 22 of chip U1 is connected with pin 24 of chip U2, and pin 23 of chip U1 is connected with pin 23 of chip U2; the 32 feet of the chip U1 are connected with one end of a crystal oscillator T1 and one end of a capacitor C20, the 33 foot of the chip U1 is connected with the other end of the crystal oscillator T1 and one end of a capacitor C21, the other end of the capacitor C20 and the other end of the capacitor C21 are grounded, the 18 feet of the chip U1 are connected with one end of a resistor R20, the other end of the resistor R20 is connected with VCC, and the 6 feet, the 30 feet and the 31 feet of the chip U1 are grounded.
Further, the ultraviolet sensing module comprises an operational amplifier U3A, the model of the operational amplifier U3A is LM324, a pin 1 of the operational amplifier U3A is connected with a pin 28 of a chip U2 and one end of a capacitor C5, a pin 2 of the operational amplifier U3A is connected with a resistance regulator of a sliding resistor Rp1, a pin 3 of the operational amplifier U3A is connected with one end of a resistor R4 and one end of an adjustable resistor R5, one end of the sliding resistor Rp1, one end of the resistor R4 and a pin 4 of the operational amplifier U3A are connected with VCC, and the other end of the adjustable resistor R5, the other end of the sliding resistor Rp1, the other end of the capacitor C5 and a pin 11 of the operational amplifier U3A are grounded.
Further, the photosensitive sensing module comprises an operational amplifier U4A, the model of the operational amplifier U4A is LM324, a pin 1 of the operational amplifier U4A is connected with a pin 27 of a chip U2 and one end of a capacitor C6, a pin 2 of the operational amplifier U4A is connected with a resistance regulator of a sliding resistor Rp2, a pin 3 of the operational amplifier U4A is connected with one end of a resistor R6 and one end of an adjustable resistor R7, one end of the sliding resistor Rp2, one end of the resistor R6 and a pin 4 of the operational amplifier U4A are connected with VCC, and the other end of the adjustable resistor R7, the other end of the sliding resistor Rp2, the other end of the capacitor C6 and a pin 11 of the operational amplifier U4A are grounded.
Further, the photovoltaic charging module includes triode Q1 and triode Q2, the model of triode Q1 and triode Q2 is S8050, the collector of triode Q1 is connected with resistance R2 one end, the resistance R2 other end is connected with diode D1 one end and resistance R1 one end, the resistance R1 other end is connected with the collector of triode Q2, the emitter of triode Q2 is connected with 1 pin of battery BAT and resistance R3 one end and connects VCC, the other end of resistance R3 is connected with 26 pin of chip 2 and capacitance C2 one end, the other end of diode D1 is connected with one end of solar cell panel T1 and one end of capacitance C1, the emitter of triode Q1, 2 pin of battery BAT, the other end of capacitance C2 and the other end of capacitance C1 are grounded.
Further, the reference voltage module comprises a chip U5, the model of the chip U5 is MC1403, a pin 1 of the chip U5 is connected with VCC, a pin 2 of the chip U5 is connected with a capacitor C10, a capacitor C11 and a pin 12 of the chip U2, and a pin 3 of the chip U5, the other end of the capacitor C10 and the capacitor C11 are grounded; the buzzer module comprises a loudspeaker B1, wherein a pin 1 of the loudspeaker B1 is connected with a collector of a triode Q3, an emitter of the triode Q3 is connected with VCC, a base of the triode Q3 is connected with one end of a resistor R12, and the other end of the resistor R12 is connected with a pin 27 of a chip U1.
Further, the gyroscope sensor module comprises a chip U7 and an operational amplifier U8A, wherein the model of the chip U7 is ENC-03, the model of the operational amplifier U8A is LM324, the 3 pin of the chip U7 is connected with VCC, the 2 pin of the chip U7 is grounded, the 4 pin of the chip U7 is connected with one end of a capacitor C12, the other end of the capacitor C12 is connected with one end of a resistor R13 and the 3 pin of the operational amplifier U8A, the 1 pin of the chip U7 is connected with one end of a capacitor C13, the other end of a capacitor C13, the other end of a resistor R13 and one end of a resistor R14 are grounded, the other end of a resistor R14 is connected with the 2 pin of the operational amplifier U8A, one end of a resistor R15 and one end of a capacitor C14, the other end of a capacitor C14, the other end of a resistor R15 and the 1 pin of the operational amplifier U8 15 are connected with the 1 pin of the chip U36.
Further, the stepping motor module comprises a chip U9, the model of the chip U9 is ULN2003A, a pin 1 of the chip U9 is connected with one end of a resistor R34, the other end of the resistor R34 is connected with a pin 4 of a photoelectric coupler Y1, a pin 2 of the photoelectric coupler Y1 is connected with VCC, a pin 1 of the photoelectric coupler Y1 is connected with 5V, a pin 3 of the photoelectric coupler Y1 is connected with one end of a resistor R30, and the other end of the resistor R30 is connected with a pin 34 of the chip U1; a pin 2 of the chip U9 is connected with one end of a resistor R35, the other end of the resistor R35 is connected with a pin 4 of a photoelectric coupler Y2, a pin 2 of the photoelectric coupler Y2 is connected with VCC, a pin 3 of the photoelectric coupler Y2 is connected with one end of a resistor R31, and the other end of the resistor R31 is connected with a pin 35 of the chip U1; a pin 3 of the chip U9 is connected with one end of a resistor R36, the other end of the resistor R36 is connected with a pin 4 of a photoelectric coupler Y3, a pin 2 of the photoelectric coupler Y3 is connected with VCC, a pin 3 of the photoelectric coupler Y3 is connected with one end of a resistor R32, and the other end of the resistor R32 is connected with a pin 36 of the chip U1; a pin 4 of the chip U9 is connected with one end of a resistor R37, the other end of the resistor R37 is connected with a pin 4 of a photoelectric coupler Y4, a pin 2 of the photoelectric coupler Y4 is connected with VCC, a pin 3 of the photoelectric coupler Y4 is connected with one end of a resistor R33, and the other end of the resistor R33 is connected with a pin 37 of the chip U1; the 16 pin of the chip U9 is connected with the 1 pin of the connector J1, the 15 pin of the chip U9 is connected with the 2 pin of the connector J1, the 14 pin of the chip U9 is connected with the 3 pin of the connector J1, the 13 pin of the chip U9 is connected with the 4 pin of the connector J1, and the 5 pin and the 6 pin of the connector J1 are connected with VCC.
Further, the button switch module includes a resistor R41, one end of the resistor R41 is connected to VCC, the VCC is further connected to one end of a resistor R42, one end of a resistor R43, one end of a resistor R44, one end of a resistor R45, one end of a resistor R46, one end of a resistor R47 and one end of a resistor R48, the other end of the resistor R41 is connected to pin 19 of the chip U1, the other end of the resistor R42 is connected to pin 20 of the chip U1, the other end of the resistor R43 is connected to pin 21 of the chip U1, the other end of the resistor R44 is connected to pin 22 of the chip U1, the other end of the resistor R45 is connected to pin 23 of the chip U1, and the other end of the resistor; the button switch module further comprises a resistor R51, one end of the resistor R51 is connected to VCC, the power supply VCC is further connected with one end of a resistor R51, one end of the resistor R51 and one end of the resistor R51, the other end of the resistor R51 is connected with one end of a switch S51 and a pin 38 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 39 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 40 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 41 of the chip U51, the other end of the resistor R51 is connected with a pin 2 of the chip U51, the other end of the resistor R51 is connected with a pin 3 of the chip U51, the other end of the resistor R51 is connected with a pin 4 of the chip U51, the other end of the switch.
Further, the lithium battery module includes chip U6, and the model of chip U6 is 7805, and chip U6's 1 foot connects the VCC, and chip U6's 3 foot is connected with electric capacity C3 one end and electric capacity C4 one end, and connect the VCC, the electric capacity C3 other end, the electric capacity C4 other end and chip U6's 2 foot ground connection.
By adopting the technical scheme, compared with the prior art, the invention has the following technical effects: the invention relates to a device arranged on glasses, which can automatically adjust the angle, has the functions of blocking ultraviolet rays and strong light, is provided with an ultraviolet sensor and a photosensitive sensor for sensing the external ultraviolet intensity and light intensity, and automatically turns over a lens when the external ultraviolet light is too strong or dazzles; the gyroscope senses the prone angle of the human body and accurately adjusts the angle of the lens; the equipment has the characteristics of strong anti-interference capability, high stability, strong industrial control capability and the like, has a photovoltaic charging function, and is charged through received light intensity.
Drawings
In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.
FIG. 1 is a block diagram of the control system of the present invention;
fig. 2 to 11 are schematic circuit diagrams of the control system of the present invention.
Detailed Description
In an embodiment, as shown in fig. 1, an intelligent glasses clip comprises an MCU module, a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a photovoltaic charging module, a reference voltage module, and a lithium battery module; the MCU module is connected with a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a reference voltage module and a photovoltaic charging module.
As shown in FIG. 2, the MCU module comprises a chip U1 and a chip U2, the model of the chip U1 is PIC16F877A-E/ML, the model of the chip U2 is ADC0809, the 7 pins and the 8 pins of the chip U1, pins 28 and 29 are connected to VCC, pin 9 of chip U1 is connected to pin 21 of chip U2, pin 10 of chip U1 is connected to pin 20 of chip U2, pin 11 of chip U1 is connected to pin 19 of chip U2, pin 12 of chip U1 is connected to pin 18 of chip U2, pin 14 of chip U1 is connected to pin 8 of chip U2, pin 15 of chip U1 is connected to pin 15 of chip U2, pin 16 of chip U1 is connected to pin 14 of chip U2, pin 17 of chip U1 is connected to pin 17 of chip U2, pin 19 of chip U1 is connected to pin 7 of chip U2, pin 21 of chip U1 is connected to pin 25 of chip U2, pin 22 of chip U1 is connected to pin 24 of chip U2, and pin 23 of chip U1 is connected to pin 23 of chip U2.
The 32 feet of the chip U1 are connected with one end of a crystal oscillator T1 and one end of a capacitor C20, the 33 foot of the chip U1 is connected with the other end of the crystal oscillator T1 and one end of a capacitor C21, the other end of the capacitor C20 and the other end of the capacitor C21 are grounded, the 18 feet of the chip U1 are connected with one end of a resistor R20, the other end of the resistor R20 is connected with VCC, and the 6 feet, the 30 feet and the 31 feet of the chip U1 are grounded.
As shown in fig. 3, the ultraviolet sensing module includes an operational amplifier U3A, the model of the operational amplifier U3A is LM324, pin 1 of the operational amplifier U3A is connected to pin 28 of the chip U2 and one end of a capacitor C5, pin 2 of the operational amplifier U3A is connected to a resistance adjuster of a sliding resistor Rp1, pin 3 of the operational amplifier U3A is connected to one end of a resistor R4 and one end of an adjustable resistor R5, one end of the sliding resistor Rp1, one end of a resistor R4 and 4 pins of the operational amplifier U3A are connected to VCC, and the other end of the adjustable resistor R5, the other end of the sliding resistor Rp1, the other end of the capacitor C5 and 11 pins of the operational amplifier U3A are grounded.
As shown in fig. 4, the photosensitive sensing module includes an operational amplifier U4A, the model of the operational amplifier U4A is LM324, pin 1 of the operational amplifier U4A is connected to pin 27 of the chip U2 and one end of a capacitor C6, pin 2 of the operational amplifier U4A is connected to a resistance adjuster of a sliding resistor Rp2, pin 3 of the operational amplifier U4A is connected to one end of a resistor R6 and one end of an adjustable resistor R7, one end of the sliding resistor Rp2, one end of a resistor R6 and 4 pins of the operational amplifier U4A are connected to VCC, and the other end of the adjustable resistor R7, the other end of the sliding resistor Rp2, the other end of the capacitor C6 and 11 pins of the operational amplifier U4A are grounded.
As shown in fig. 5, the photovoltaic charging module includes a triode Q1 and a triode Q2, the models of the triode Q1 and the triode Q2 are S8050, the collector of the triode Q1 is connected with one end of a resistor R2, the other end of the resistor R2 is connected with one end of a diode D1 and one end of a resistor R1, the other end of the resistor R1 is connected with the collector of a triode Q2, the emitter of the triode Q2 is connected with pin 1 of a battery BAT and one end of a resistor R3 and is connected with VCC in parallel, the other end of the resistor R3 is connected with pin 26 of a chip U2 and one end of a capacitor C2, the other end of the diode D1 is connected with one end of a solar panel T1 and one end of a capacitor C1, and the emitter of the transistor Q1, pin 2 of the.
As shown in fig. 6, the reference voltage module includes a chip U5, the model of the chip U5 is MC1403, pin 1 of the chip U5 is connected to VCC, pin 2 of the chip U5 is connected to a capacitor C10, a capacitor C11 and pin 12 of the chip U2, and pin 3 of the chip U5, the other end of the capacitor C10 and the capacitor C11 are grounded.
As shown in fig. 7, the buzzer module includes a horn B1, a pin 1 of the horn B1 is connected to a collector of a transistor Q3, an emitter of the transistor Q3 is connected to VCC, a base of the transistor Q3 is connected to one end of a resistor R12, and the other end of the resistor R12 is connected to a pin 27 of a chip U1.
As shown in fig. 8, the gyro sensor module includes a chip U7 and an operational amplifier U8A, the model of the chip U7 is ENC-03, the model of the operational amplifier U8A is LM324, pin 3 of the chip U7 is connected to VCC, pin 2 of the chip U7 is grounded, pin 4 of the chip U7 is connected to one end of a capacitor C12, the other end of the capacitor C12 is connected to one end of a resistor R13 and pin 3 of the operational amplifier U8A, pin 1 of the chip U7 is connected to one end of a capacitor C13, the other end of a capacitor C13, the other end of a resistor R13 and one end of a resistor R14 are grounded, the other end of a resistor R14 is connected to pin 2 of the operational amplifier U8A, one end of a resistor R15 and one end of a capacitor C14, the other end of a capacitor C14, the other end of a resistor R15 and pin 1 of the operational amplifier U8 15 are connected to pin 1 of the chip U15, pin 11 of.
As shown in fig. 9, the stepping motor module includes a chip U9, the model of the chip U9 is ULN2003A, pin 1 of the chip U9 is connected with one end of a resistor R34, the other end of the resistor R34 is connected with pin 4 of a photocoupler Y1, pin 2 of the photocoupler Y1 is connected with VCC, pin 1 of the photocoupler Y1 is connected with 5V, pin 3 of the photocoupler Y1 is connected with one end of a resistor R30, and the other end of the resistor R30 is connected with pin 34 of the chip U1; a pin 2 of the chip U9 is connected with one end of a resistor R35, the other end of the resistor R35 is connected with a pin 4 of a photoelectric coupler Y2, a pin 2 of the photoelectric coupler Y2 is connected with VCC, a pin 3 of the photoelectric coupler Y2 is connected with one end of a resistor R31, and the other end of the resistor R31 is connected with a pin 35 of the chip U1; a pin 3 of the chip U9 is connected with one end of a resistor R36, the other end of the resistor R36 is connected with a pin 4 of a photoelectric coupler Y3, a pin 2 of the photoelectric coupler Y3 is connected with VCC, a pin 3 of the photoelectric coupler Y3 is connected with one end of a resistor R32, and the other end of the resistor R32 is connected with a pin 36 of the chip U1; a pin 4 of the chip U9 is connected with one end of a resistor R37, the other end of the resistor R37 is connected with a pin 4 of a photoelectric coupler Y4, a pin 2 of the photoelectric coupler Y4 is connected with VCC, a pin 3 of the photoelectric coupler Y4 is connected with one end of a resistor R33, and the other end of the resistor R33 is connected with a pin 37 of the chip U1; the 16 pin of the chip U9 is connected with the 1 pin of the connector J1, the 15 pin of the chip U9 is connected with the 2 pin of the connector J1, the 14 pin of the chip U9 is connected with the 3 pin of the connector J1, the 13 pin of the chip U9 is connected with the 4 pin of the connector J1, and the 5 pin and the 6 pin of the connector J1 are connected with VCC.
As shown in fig. 10, the push button switch module includes a resistor R41, one end of the resistor R41 is connected to VCC, the VCC is further connected to one end of a resistor R42, one end of a resistor R43, one end of a resistor R44, one end of a resistor R45, one end of a resistor R46, one end of a resistor R47 and one end of a resistor R48, the other end of the resistor R41 is connected to pin 19 of the chip U1, the other end of the resistor R42 is connected to pin 20 of the chip U1, the other end of the resistor R43 is connected to pin 21 of the chip U1, the other end of the resistor R44 is connected to pin 22 of the chip U1, the other end of the resistor R6384 is connected to pin 23 of the chip U1, and the.
The button switch module further comprises a resistor R51, one end of the resistor R51 is connected to VCC, the power supply VCC is further connected with one end of a resistor R51, one end of the resistor R51 and one end of the resistor R51, the other end of the resistor R51 is connected with one end of a switch S51 and a pin 38 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 39 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 40 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 41 of the chip U51, the other end of the resistor R51 is connected with a pin 2 of the chip U51, the other end of the resistor R51 is connected with a pin 3 of the chip U51, the other end of the resistor R51 is connected with a pin 4 of the chip U51, the other end of the switch.
As shown in fig. 11, the lithium battery module includes a chip U6, the model of the chip U6 is 7805, pin 1 of the chip U6 is connected to VCC, pin 3 of the chip U6 is connected to one end of a capacitor C3 and one end of a capacitor C4, and is connected to VCC in parallel, and the other end of the capacitor C3, the other end of the capacitor C4, and pin 2 of the chip U6 are grounded.
The working principle of the invention is as follows: according to the device, a small polycrystalline silicon photovoltaic panel is embedded, automatic charging is carried out according to received light intensity, when the voltage of the analog quantity sampling ADC1 is reduced, the MCU controls the RE0 pin to close the triode Q1, the PWM controls the triode Q2, and intelligent charging is carried out according to pressure difference; the lithium battery carried by the equipment is communicated with a 7805 input end, and a 7805 economical linear voltage stabilization source is adopted to provide a stable power supply for the equipment; sensing the external ultraviolet intensity and light intensity by using ultraviolet sensing and photosensitive sensing, converting the external ultraviolet intensity and light intensity into analog voltage signals through a bridge circuit, amplifying the analog voltage signals to voltage signals which can be collected by an MCU (microprogrammed control unit) through an operational amplifier circuit, converting analog quantity into digital quantity through the MCU for calculation processing, wherein the analog quantity sampling adopts AC-DC conversion; the MC1403 main chip provides sampling reference voltage for the digital-to-analog conversion module, and the exclusion chip provides pull-up driving capability for the MCU; the button is a micro button carried by the equipment and has a function of selecting and setting; the limit switch is a microswitch and provides bidirectional limit input for the equipment stepping motor, a buzzer, a gyroscope sensor and the stepping motor are installed in the invention, the gyroscope sensor provides a pitching angle reference for the equipment, a chip of the gyroscope sensor outputs an analog signal which is amplified by an LM324 to a voltage signal which can be collected by an MCU, when the MCU detects that external ultraviolet light is too strong or dazzles, the MCU controls the four-wire stepping motor, the optical coupler isolates signal power, the ULN2003 increases driving capability, and a lens automatically turns over; the gyroscope senses the prone angle of the human body and accurately adjusts the lenses.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (10)

1. The utility model provides a control system of intelligence lens holder which characterized in that: the device comprises an MCU module, a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a photovoltaic charging module, a reference voltage module and a lithium battery module; the MCU module is connected with a photosensitive sensing module, an ultraviolet sensing module, a gyroscope sensor module, a stepping motor module, a button switch module, a buzzer module, a reference voltage module and a photovoltaic charging module.
2. The control system of an intelligent lens holder as claimed in claim 1, wherein: the MCU module comprises a chip U1 and a chip U2, the model of the chip U1 is PIC16F877A-E/ML, the model of the chip U2 is ADC0809, the 7, 8, 28 and 29 pins of the chip U1 are connected with VCC, the 9 pin of the chip U1 is connected with the 21 pin of the chip U2, the 10 pin of the chip U1 is connected with the 20 pin of the chip U2, the 11 pin of the chip U2 is connected with the 19 pin of the chip U2, the 12 pin of the chip U2 is connected with the 18 pin of the chip U2, the 14 pin of the chip U2 is connected with the 8 pin of the chip U2, the 15 pin of the chip U2 is connected with the 15 pin of the chip U2, the 16 pin of the chip U2 is connected with the 14 pin of the chip U2, the 17 pin of the chip U2 is connected with the 17 pin of the chip U2, the 19 pin of the chip U2 is connected with the 7 pin of the chip U2, the pin of the chip U2 is connected with the chip U2, the pin of the chip U2, and the pin of the chip U3623 of the; the 32 feet of the chip U1 are connected with one end of a crystal oscillator T1 and one end of a capacitor C20, the 33 foot of the chip U1 is connected with the other end of the crystal oscillator T1 and one end of a capacitor C21, the other end of the capacitor C20 and the other end of the capacitor C21 are grounded, the 18 feet of the chip U1 are connected with one end of a resistor R20, the other end of the resistor R20 is connected with VCC, and the 6 feet, the 30 feet and the 31 feet of the chip U1 are grounded.
3. The control system of an intelligent lens holder as claimed in claim 1, wherein: the ultraviolet sensing module comprises an operational amplifier U3A, wherein the model of the operational amplifier U3A is LM324, a pin 1 of the operational amplifier U3A is connected with a pin 28 of a chip U2 and one end of a capacitor C5, a pin 2 of the operational amplifier U3A is connected with a resistance regulator of a sliding resistor Rp1, a pin 3 of the operational amplifier U3A is connected with one end of a resistor R4 and one end of an adjustable resistor R5, one end of the sliding resistor Rp1, one end of the resistor R4 and a pin 4 of the operational amplifier U3A are connected with VCC, and the other end of the adjustable resistor R5, the other end of the sliding resistor Rp1, the other end of the capacitor C5 and a pin 11 of the operational amplifier U3A are grounded.
4. The control system of an intelligent lens holder as claimed in claim 1, wherein: the photosensitive sensing module comprises an operational amplifier U4A, wherein the model of the operational amplifier U4A is LM324, a pin 1 of the operational amplifier U4A is connected with a pin 27 of a chip U2 and one end of a capacitor C6, a pin 2 of the operational amplifier U4A is connected with a resistance regulator of a sliding resistor Rp2, a pin 3 of the operational amplifier U4A is connected with one end of a resistor R6 and one end of an adjustable resistor R7, one end of the sliding resistor Rp2, one end of the resistor R6 and a pin 4 of the operational amplifier U4A are connected with VCC, and the other end of the adjustable resistor R7, the other end of the sliding resistor Rp2, the other end of the capacitor C6 and a pin 11 of the operational amplifier U4A are grounded.
5. The control system of an intelligent lens holder as claimed in claim 1, wherein: the photovoltaic charging module comprises a triode Q1 and a triode Q2, the models of the triode Q1 and the triode Q2 are S8050, the collector of the triode Q1 is connected with one end of a resistor R2, the other end of the resistor R2 is connected with one end of a diode D1 and one end of a resistor R1, the other end of the resistor R1 is connected with the collector of a triode Q2, the emitter of the triode Q2 is connected with a pin 1 of a battery BAT and one end of a resistor R3 and connected with VCC in parallel, the other end of the resistor R3 is connected with a pin 26 of a chip U2 and one end of a capacitor C2, the other end of the diode D1 is connected with one end of a solar panel T1 and one end of a capacitor C1, and the emitter of the triode Q1, the pin 2 of.
6. The control system of an intelligent lens holder as claimed in claim 1, wherein: the reference voltage module comprises a chip U5, the model of the chip U5 is MC1403, a pin 1 of the chip U5 is connected with VCC, a pin 2 of the chip U5 is connected with a capacitor C10, a capacitor C11 and a pin 12 of the chip U2, and a pin 3 of the chip U5, the other end of the capacitor C10 and a capacitor C11 are grounded; the buzzer module comprises a loudspeaker B1, wherein a pin 1 of the loudspeaker B1 is connected with a collector of a triode Q3, an emitter of the triode Q3 is connected with VCC, a base of the triode Q3 is connected with one end of a resistor R12, and the other end of the resistor R12 is connected with a pin 27 of a chip U1.
7. The control system of an intelligent lens holder as claimed in claim 1, wherein: the gyroscope sensor module comprises a chip U7 and an operational amplifier U8A, wherein the model of the chip U7 is ENC-03, the model of the operational amplifier U8A is LM324, the 3 pin of the chip U7 is connected with VCC, the 2 pin of the chip U7 is grounded, the 4 pin of the chip U7 is connected with one end of a capacitor C12, the other end of the capacitor C12 is connected with one end of a resistor R13 and the 3 pin of the operational amplifier U8A, the 1 pin of the chip U7 is connected with one end of a capacitor C13, the other end of the capacitor C13, the other end of a resistor R13 and one end of a resistor R14 are grounded, the other end of a resistor R14 is connected with the 2 pin of the operational amplifier U8A, one end of the resistor R15 and one end of a capacitor C14, the other end of the capacitor C14, the other end of the resistor R15 and the 1 pin of the operational amplifier U8 15 are connected with the 1 pin of the chip.
8. The control system of an intelligent lens holder as claimed in claim 1, wherein: the stepping motor module comprises a chip U9, the model of the chip U9 is ULN2003A, a pin 1 of the chip U9 is connected with one end of a resistor R34, the other end of the resistor R34 is connected with a pin 4 of a photoelectric coupler Y1, a pin 2 of the photoelectric coupler Y1 is connected with VCC, a pin 1 of the photoelectric coupler Y1 is connected with 5V, a pin 3 of the photoelectric coupler Y1 is connected with one end of a resistor R30, and the other end of the resistor R30 is connected with a pin 34 of the chip U1; a pin 2 of the chip U9 is connected with one end of a resistor R35, the other end of the resistor R35 is connected with a pin 4 of a photoelectric coupler Y2, a pin 2 of the photoelectric coupler Y2 is connected with VCC, a pin 3 of the photoelectric coupler Y2 is connected with one end of a resistor R31, and the other end of the resistor R31 is connected with a pin 35 of the chip U1; a pin 3 of the chip U9 is connected with one end of a resistor R36, the other end of the resistor R36 is connected with a pin 4 of a photoelectric coupler Y3, a pin 2 of the photoelectric coupler Y3 is connected with VCC, a pin 3 of the photoelectric coupler Y3 is connected with one end of a resistor R32, and the other end of the resistor R32 is connected with a pin 36 of the chip U1; a pin 4 of the chip U9 is connected with one end of a resistor R37, the other end of the resistor R37 is connected with a pin 4 of a photoelectric coupler Y4, a pin 2 of the photoelectric coupler Y4 is connected with VCC, a pin 3 of the photoelectric coupler Y4 is connected with one end of a resistor R33, and the other end of the resistor R33 is connected with a pin 37 of the chip U1; the 16 pin of the chip U9 is connected with the 1 pin of the connector J1, the 15 pin of the chip U9 is connected with the 2 pin of the connector J1, the 14 pin of the chip U9 is connected with the 3 pin of the connector J1, the 13 pin of the chip U9 is connected with the 4 pin of the connector J1, and the 5 pin and the 6 pin of the connector J1 are connected with VCC.
9. The control system of an intelligent lens holder as claimed in claim 1, wherein: the button switch module comprises a resistor R41, one end of a resistor R41 is connected with VCC, the VCC is also connected with one end of a resistor R42, one end of a resistor R43, one end of a resistor R44, one end of a resistor R45, one end of a resistor R46, one end of a resistor R47 and one end of a resistor R48, the other end of the resistor R41 is connected with a pin 19 of a chip U1, the other end of the resistor R42 is connected with a pin 20 of a chip U1, the other end of the resistor R43 is connected with a pin 21 of a chip U1, the other end of the resistor R44 is connected with a pin 22 of the chip U1, the other end of the resistor R45 is connected with a pin 23 of the chip U1; the button switch module further comprises a resistor R51, one end of the resistor R51 is connected to VCC, the power supply VCC is further connected with one end of a resistor R51, one end of the resistor R51 and one end of the resistor R51, the other end of the resistor R51 is connected with one end of a switch S51 and a pin 38 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 39 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 40 of the chip U51, the other end of the resistor R51 is connected with one end of the switch S51 and a pin 41 of the chip U51, the other end of the resistor R51 is connected with a pin 2 of the chip U51, the other end of the resistor R51 is connected with a pin 3 of the chip U51, the other end of the resistor R51 is connected with a pin 4 of the chip U51, the other end of the switch.
10. The control system of an intelligent lens holder as claimed in claim 1, wherein: the lithium battery module comprises a chip U6, the model of the chip U6 is 7805, 1 pin of the chip U6 is connected with VCC, 3 pins of the chip U6 are connected with one end of a capacitor C3 and one end of a capacitor C4, the capacitor C6 is connected with VCC in a parallel mode, and the other end of the capacitor C3, the other end of the capacitor C4 and 2 pins of the chip U6 are grounded.
CN202011570600.3A 2020-12-26 2020-12-26 Control system of intelligent lens clip Pending CN112631185A (en)

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CN201054049Y (en) * 2007-05-18 2008-04-30 陈魁 Dazzle-proof dimmer
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CN207396885U (en) * 2017-11-21 2018-05-22 江西服装学院 A kind of 3D glasses and three-dimensional display system
CN110262076A (en) * 2019-05-06 2019-09-20 上海安视眼镜有限公司 A kind of anti glare anti static coatings glasses
CN209895104U (en) * 2019-07-04 2020-01-03 刘东光 SMD spectacle lens holder
CN111679436A (en) * 2020-07-10 2020-09-18 温州明澈眼镜科技有限公司 VR glasses lens angular adjustment structure

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW592318U (en) * 2003-04-08 2004-06-11 Lih-Chyi Jang Improved sunglasses structure with rotatable lens
CN201054049Y (en) * 2007-05-18 2008-04-30 陈魁 Dazzle-proof dimmer
CN201604584U (en) * 2009-12-08 2010-10-13 上海久真汽车配件有限公司 Automatically anti-glare inner rear view mirror
CN202437458U (en) * 2011-12-16 2012-09-19 上海市第一中学 An electric welding goggle
CN204050007U (en) * 2014-07-14 2014-12-31 宁波吉欧光电科技有限公司 Intelligent digitalized automatic beam change welding filter
CN207396885U (en) * 2017-11-21 2018-05-22 江西服装学院 A kind of 3D glasses and three-dimensional display system
CN110262076A (en) * 2019-05-06 2019-09-20 上海安视眼镜有限公司 A kind of anti glare anti static coatings glasses
CN209895104U (en) * 2019-07-04 2020-01-03 刘东光 SMD spectacle lens holder
CN111679436A (en) * 2020-07-10 2020-09-18 温州明澈眼镜科技有限公司 VR glasses lens angular adjustment structure

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