KR20170009658A - Smart eyeglasses - Google Patents

Abstract

The present invention relates to a smart eyeglass having a computer function by incorporating various sensors and electronic elements in eyeglasses, and is capable of checking the health of the user at all times and is capable of checking various kinds of electronic information such as a computer, a smart phone, a smart car, And can communicate with the device through information exchange, thereby providing various convenience to the user.

Description

Smart glasses {SMART EYEGLASSES}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to smart glasses and systems for informing human health management, information processing, and risk situations and for efficient learning. More specifically, the present invention relates to a pressure sensor, a temperature sensor, a memory, The health status of the user is measured at regular intervals and compared with the previously inputted data and stored through the Internet cloud system. In case of the uniqueness, the function has the function of notifying the information, position, etc. of the user to the designated hospital, 119 fire station, If necessary, notify the user of emergency situations or nearby hospital information, and automatically monitor the nearest hospital, town or village via the front monitor of Smart Eyewear or a monitor or navigation system of smartphones, smart watches or smart cars connected wirelessly and / First Aid Center It has the function of guiding the way, and also relates to smart glasses and related smart electronic systems and drive method that can be performed daily health check function.

The smart glasses known so far are all about the smart glasses own system, including the camera, the clock and the display function to display specific information.

However, users want to control or communicate with each other using various information obtained from smart glasses, and want new service or convenience by using them. In addition, through new devices and functions that have never been seen before, we want to enrich the lives of future humans.

1. Korean Patent Laid-Open Publication No. 1020140097742 (Apr. 31, 2014): illuminance sensor using smart glasses 2. Japanese Patent Registration No. 5036177 (Jul. 13, 2012): Information Display Device 3. US Published Patent 20130242262 (2013.09.19): ENHANCED OPTICAL AND PERCEPTUAL DIGITAL EYEWEAR

In order to solve the above-mentioned problems, the present invention intends to establish a new information system which has not been known so far through smart glasses and to give convenience to the user. To this end, the smart glasses of the present invention can be applied to various kinds of sensors such as a pressure sensor, a temperature sensor, a sweat sensor, a fingerprint sensor, an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, a motion sensor, a geomagnetism sensor, , An infrared camera, a memory, a microprocessor, a speaker (earphone), a microphone, a battery, a wired / wireless charging device, a communication module, and / or a display screen, And to provide convenience of human life through the provision of new types of electronic devices and new types of services through the new type of electronic devices.

It is another object of the present invention to provide a method and apparatus for transmitting information to a neural cell or a nerve circuit through a display screen of smart glasses, a sensor and / or a memory and / And storage devices, so that they can learn new information and technologies in a short time.

Another object of the present invention is to provide smart glasses having control and driving functions of all electronic devices connectable through the Internet such as smart cars, smart phones, computers, smart TVs, Voice and / or video calls can be performed through the voice recognition function.

It is still another object of the present invention to provide a lens unit (display unit) of smart glasses that has a function of adjusting a transmittance of a lens and / or a focus of a lens, and can function as a sunglass if necessary, It also has the function of recognizing a distant object which is unknown to the naked eye.

In order to achieve the above object, the smart glasses according to the present invention may include a frame unit having a display screen and / or a lens unit, a pressure sensor, a temperature sensor, a sweat sensor, a memory, a microprocessor, a speaker (earphone), a battery, And / or a spectacle leg having a communication module, wherein the pressure sensor measures a user's blood pressure and / or pulse, the sweat sensor analyzes a user's sweat, the temperature sensor measures a user's body temperature, (Earphone) and / or a display screen, and also analyzes the health state of the user according to the difference compared with a reference value previously input to the memory, stores the analyzed state in a memory, and informs the user. The measured values may be stored in the Internet cloud system through the communication module and may be reported to the designated hospital management system so that the doctor may listen to the doctor's opinion through the speaker or view the image through the display screen . Wherein the pressure sensor is embedded in the eyeglass leg extending from the frame of the smart glasses and should be located near the blood vessel through which the metastatic artery passes to measure blood pressure and / or pulse. Since the metastatic artery is usually located near the beginning of the human auricle, the pressure sensor is located within a distance of 10 cm forward of the upper part of the auricle and is located near the metastatic artery. Since the temperature sensor needs to measure the temperature of the user, the temperature sensor is preferably in contact with the skin, and is located at a position in contact with the skin within a range of 10 cm around the position where the pressure sensor is located. Since the sweat sensor also needs to analyze the sweat component of the user, it is in a position to contact the skin as much as possible, and is in a position in contact with the skin within a range of 10 cm around the position where the pressure sensor is located. Also, the memory and microprocessor may be an integrated chipset, but may be separate. The memory and the process may generate heat to the place where all the data of the smart glasses is processed and stored, so that it is preferable that the memory and the process do not contact with the user's body if possible. Therefore, it is preferable that the memory and / or the process are located in a region having a relatively large area on the front side (frame side) of the eyeglass leg portion or in the vicinity of the corner where the eyeglass leg portion and the frame portion meet.

 It is another object of the present invention to provide a method and apparatus for transmitting information to a neural cell or a nerve circuit through a display screen of smart glasses, a sensor and / or a memory and / And storage devices, so that they can learn new information and technologies in a short time. To this end, the smart glasses of the present invention can be applied to a variety of applications such as a frame unit having a display screen and / or a lens unit, a pressure sensor, a temperature sensor, a fingerprint sensor, an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, And a spectacle leg having at least one of a touch sensor, a voice recognition sensor, a camera, an infrared camera, a memory, a microprocessor, a speaker (earphone), a battery, a wired / wireless charger, and / or a communication module. A sensor, a memory chip, and a biochip embedded in a user's ear or skin or a body nerve circuit, and controlling a nerve cell or learning to manage a person's memory by various sensors and / or memories built in the smart glasses It is intended to transmit information and knowledge to the neural circuit and transmit it to the brain's memory cells or to help human memory and / or learning ability by communicating with brain functions responsible for learning or recognition.

Another object of the present invention is to provide smart glasses having control and driving functions of all electronic devices connectable through the Internet such as smart cars, smart phones, computers, smart TVs, Voice and / or video calls can be performed through the voice recognition function. To this end, the smart glasses of the present invention can be applied to a variety of applications such as a frame unit having a display screen and / or a lens unit, a pressure sensor, a sweat sensor, a temperature sensor, a fingerprint sensor, an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, And an eyeglass leg having at least one of a light intensity sensor, a touch sensor, a voice recognition sensor, a camera, an infrared camera, a memory, a microprocessor, a speaker (earphone), a battery, a wired and wireless charger, and / or a communication module. The electronic equipment stored and registered in the memory of the smart glasses can be controlled and driven through wired or wireless wired or wireless communication so that the necessary tasks can be performed whenever the smart glasses of the present invention are carried at any time.

It is still another object of the present invention to provide a lens unit (display unit) of smart glasses that has a function of adjusting a transmittance of a lens and / or a focus of a lens, and can function as a sunglass if necessary, It also has the function of recognizing the distant object which can not be recognized visually. To this end, the lens unit of the smart glasses of the present invention includes an optical filter function and has a function of selectively transmitting or reflecting a part of ultraviolet rays and / or visible rays. In addition, the lens may include a liquid lens or a flexible lens capable of adjusting the thickness, and includes a focus adjustment function by measuring the distance of an object to be observed, thereby recognizing and recognizing a distant object, do. In addition, a small object in the short distance can be magnified like a magnifying glass, photographed and photographed, and stored in a memory. At the same time, it can be stored in an internet clouding system or a computer connected thereto, You have the ability to receive feedback. The distance measurement may be performed by measuring the distance using an infrared laser or the like built in a part of the smart glasses frame or by using a satellite communication module using a satellite.

According to another aspect of the present invention, a hologram projected through a mini projector mounted on a display screen or a frame part of the smart part of the smart glasses, or a laser projected on the frame part, It also has the function of virtual playing or communicating with the phone function and communicating with each other through the three-dimensional hologram of the other party. The display screen of the lens unit may be formed using an organic light emitting diode pixel, a nano light emitting element, or a micro light emitting element pixel made of a transparent material.

According to the present invention, the health of the user can be checked at any time by using various sensors and communication functions built in the smart glasses of the present invention, and a function of automatically notifying a predetermined hospital or nearest hospital when a health problem occurs have. In addition, the smart glasses of the present invention can control and control various electronic devices and also include a function of a next generation smart phone. In addition, the smart glasses of the present invention can be used to support functions such as human brain memory and learning by connecting with electronic systems and / or cranial nerve cells such as various sensors built in the user's body. In addition, the smart glasses of the present invention have an automatic focus adjustment function, so that it is possible to easily recognize distant objects which can not be seen by the naked eye. Also, a microscopic object in a close range can be magnified to functions like a magnifying glass. It can be photographed, stored in an internet clouding system, and analyzed by a computer. In addition, the smart glasses of the present invention include functions such as a project, so that they can be enlarged by projecting images or include a hologram function, so that they can perform virtual playing or communication through piano playing or stereoscopic projection of objects.

FIG. 1 is a schematic view of the smart glasses of the present invention,
2 is a detailed view of the smart glasses of the present invention.

Hereinafter, the configuration of the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings. One embodiment of the invention is intended to illustrate the invention and may be practiced by those skilled in the art without departing from the scope and spirit of the invention. It is also to be understood that the words and terms used in the present invention are representative terms and words for describing the present invention and may be replaced by other terms and words having the same or similar meanings and if they are the same as or similar to those of the present invention, . The smart glasses used in the present invention include at least one sensor and a communication function. The smart glasses operate by using electricity or a battery, and are connected to a wired / wireless Internet and / or include a memory function. 'Means that' and ',' or 'can optionally be used. It is also to be understood that the terms 'front', 'front', 'rear', 'rear', 'upper', 'upper', 'lower', 'lower', 'upper' ',' First half ',' latter half 'and the like can be interpreted to a level that can be understood by a person having ordinary knowledge based on the user. In the present invention, the same symbols in the drawings have the same meanings, and the sign may be omitted or omitted from description at a level that can be understood by a person having ordinary skill in the art.

The smart glasses of the present invention are constituted by a frame portion including a lens portion and a spectacle leg portion including at least one sensor, and the frame portion includes a lens portion including a display screen, a microphone for transmitting a user's voice, A temperature sensor, a sweat sensor, a fingerprint sensor, an infrared ray sensor, an infrared ray camera for detecting a body temperature of a person, and a distance-side applied laser, A sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, a motion sensor, a geomagnetic sensor, an illuminance sensor, a touch sensor, a voice recognition sensor, a camera, an infrared camera, a memory, a microprocessor, a speaker, Or a communication module, and the pressure sensor includes at least three of a frame part of the smart glasses And the temperature sensor is located within a range of 10 cm forward from the center line of the auricle in order to measure blood pressure and / or pulse, and the temperature sensor measures a temperature at which the pressure sensor is positioned And the sweat sensor is located at a position in contact with the skin within a range of 10 cm around the position of the pressure sensor for analyzing the sweat component of the user. The smart glasses may further include at least one of a memory, a microprocessor, and a communication unit, and the microprocessor is located at a place where the user does not contact the user's skin for heat radiation. The lens of the smart glasses includes an automatic focus adjustment function for recognizing distant or near objects that can not be distinguished by the naked eye. It is also possible to transmit and receive voices and / or texts through the Internet and / The smart glasses include a function of displaying an image displayed on a display by projecting the image as a two-dimensional image or a three-dimensional image through a project function, and displaying the image as a hologram through a built-in laser .

1 is a schematic view of the smart glasses according to the present invention and a perspective view of the wearing state.

As shown, the smart glasses 100 generally include a communication unit 101, a front camera 102, a microphone 103, a memory and microprocessor unit 104, a sensor unit 105, a side camera 106, A rear camera 107, a speaker and / or an earphone 108, and the like. The pressure sensor for measuring the blood pressure or the pulse of the sensor unit is configured to be positioned near the metastatic artery 109 passing the vicinity of the ear 110 of the person, and the temperature sensor for measuring the body temperature is configured to measure the temperature of the user It can be located anywhere in contact with the skin. The memory and the microprocessor are disposed apart from the temperature sensor unit so as not to contact the human body for heat dissipation. The speaker and / or the earphone may be integrally formed with the smartphone and connected to each other, or may be separately connected and wirelessly connected. In the above embodiment, the sensor unit is described based on the pressure sensor and the temperature sensor. However, the present invention is not limited to the sensor unit, and the sensor may be a sweat sensor, a fingerprint sensor, an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, , A touch sensor, a voice recognition sensor, and the like, and may be mounted on a portion other than the sensor portion according to the type and performance of the sensor. The rear camera is disposed at the rear of the smart glasses leg 112, but is not limited thereto. For example, the rear camera may be mounted on the auxiliary connection part 113 extending from the leg 112 of the smart glasses. Although not shown in FIG. 1, a battery may be mounted near the memory and the microprocessor. Further, an auxiliary battery part 114 extending over the head from the eyeglass leg may be additionally provided. The on / off of the smart glasses of the present invention is automatically turned off when the user removes the glasses and folds the glasses legs 112, and is automatically turned on when the glasses legs are unfolded.

FIG. 2 is a configuration diagram for explaining details of the smart glasses and the wearing state of the smart glasses.

As shown in the figure, the smart glasses of the present invention can be broadly divided into a smart glasses frame part 200 on the front side and a smart glasses leg part 201 extending from the frame part. The frame part is composed of a lens part (main display) made of a transparent material and a frame part surrounding the lens part, and the lens part can be composed of a main display and a display window. The frame unit may be equipped with various sensors and cameras such as a camera (CCTV, infrared camera, etc.), a sensor (infrared sensor, a voice recognition sensor, etc.), a microphone, a laser and a project, and a circuit pattern 219 It is built-in. The material of frame part is light and durable material like plastic, it is possible to protect various built-in electric circuits, easily transfer heat, excel in heat radiation effect, and can be electrically insulating material. The display and the display window may be formed of an organic light emitting diode (OLED) and / or an inorganic light emitting diode (LED) of a transparent material. The organic light emitting device of the transparent material may be formed by forming an organic light emitting device of a transparent material in a transparent material such as a glass substrate or a sapphire substrate or a transparent material of a flexible material. Examples of the inorganic light emitting device of the transparent material include a sapphire substrate, (For example, GaN: gallium nitride compound semiconductor) or an oxide (for example, ZnO: zinc oxide compound semiconductor) light emitting device formed on a substrate or a glass substrate. The organic light emitting device may include a nano-sized or micro-sized organic light emitting device corresponding to three primary colors of red (R), green (G), and blue (B) And the inorganic light emitting device may be formed in a nano size or a micro size corresponding to three primary colors of red (R), green (G), and blue (B) The inorganic light emitting device of the present invention may be attached to the lens unit in units of display pixels or may be formed by adhering or coating to a display or a display window in a flexible film form. At least one of the three RGB primary colors of the inorganic light emitting element may be a fluorescent material. For example, red (R) may be formed by coating a red (R) phosphor with a gallium nitride compound semiconductor that emits a blue (B) color, and green (G) (G) can be coated on the gallium nitride compound semiconductor. The phosphor may be an inorganic phosphor made of a nitride-based, fluorine-based, and / or an oxide-based material, or a nanopowder of a core-shell structure made of a compound semiconductor of Group 3-5 or Group 2-6 . The lens unit may be made of a fluid or a flexible material such as a liquid, and has a function of arbitrarily adjusting the shape of the lens, such as the thickness of a lens or a concave lens or a convex lens. Therefore, the lens of the smart glasses of the present invention has a function of automatically focusing according to the distance of the object to be viewed. The frame part 200 of the present invention can be detached from the leg part 201 so that the lens part can be separated from the leg part and used as a monitor. Alternatively, the leg portion near the frame portion can be extended back and forth, that is, the distance from the user's eye can be adjusted, and the leg portion of the frame portion including the lens portion can be extended forward to see various information displayed on the display. The camera incorporated in the frame part may include a CCTV, an infrared camera and the like. The front camera 214 is attached to the upper ends of the left and right frame parts, respectively, and can capture stereoscopic images of objects. The infrared sensor and camera 215 may be located near the center of the frame part and may measure the temperature of the other party or the object to be observed. For example, by using the infrared sensor and the camera 215 of the smart glasses, a person having a communicable disease accompanied by fever such as mers, flu or the like can be distinguished from a remote place, and the spread of the bottle can be easily prevented. The microphone and / or the voice recognition sensor 216 receives a user's voice and executes various electronic elements of the smart glasses, records voice of a user or external sound, or recognizes voice of a user, The device may be acknowledged for security. The laser 220 may be positioned near the center of the frame portion and may display a three-dimensional image or a hologram image from the main display portion. The project 221 can be positioned at least on one side of the frame part and has a function of projecting the image coming from the main display part on the front glass or the wall surface or the screen of the smart car.

The smart glasses leg 201 of the present invention includes various electronic elements such as sensors, batteries, memories, microprocessors, cameras, input / output terminals, etc. in a dense fashion. The sensor may include various sensors such as pressure sensor, temperature sensor, sweat sensor, fingerprint sensor, infrared sensor, gravity sensor, acceleration sensor, gyroscope sensor, motion sensor, geomagnetic sensor, illuminance sensor, touch sensor and voice recognition sensor . The pressure sensor 202 is located near the rear half of the eyeglass leg 201 extending from the lens portion. In other words, the pressure sensor 202 is for measuring the blood pressure and / or pulse of the user, and is mounted at a position where the transitional artery 204 near the toe wheel 203 passes, so that pressure and pulse information from the user's metastatic artery The user's health condition can be grasped and informed. The temperature sensor 205 measures the body temperature of the user and determines the health state of the user. The temperature sensor 205 is located at a position in contact with the skin of the eyeglass leg 201. In the present embodiment, the temperature sensor 205 is positioned to be positioned behind the pressure sensor 202, or may be located in front of the user if the user touches the user's skin. The sweat sensor 206 measures the sweat component of the user and grasps the health state of the user. The sweat sensor 206 is located at a position in contact with the skin of the legs of the glasses. In the present embodiment, the pressure sensor 202 may be located at the front side of the pressure sensor 202, but may be located at the back side of the pressure sensor 202 if the pressure sensor 202 is in contact with the user's skin. The sweat sensor 206 analyzes the amount of sweat and the component of sweat of a user to analyze the water content and the concentration of blood flow in the body. The fingerprint sensor 207 is for securing the smart glasses of the present invention and can be used as a security recognition means for authenticating the user such as user recognition, various wired / wireless communication, or data transmission. The fingerprint sensor 207 may be positioned at the edge of the upper surface of the front half of the eyeglass leg extending from the lens unit. Therefore, fingerprint recognition can be easily performed using the user's thumb or forefinger. In this embodiment, the fingerprint sensor is located at the edge of the upper surface of the front half of the eyeglass leg, but may be located at the edge of the lower surface. Various sensors such as an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, a motion sensor, a geomagnetism sensor, an illuminance sensor, a touch sensor, and a voice recognition sensor may be included in the eyeglass leg. The memory 208 and the microprocessor 209 may be located in the front half of the eyeglass legs to store or control the information of all the electronic devices and optical elements included in the smart glasses of the present invention. When the microprocessor is driven by an external rechargeable battery, it is preferable that the microprocessor is positioned so as not to be in contact with the user's body as much as possible for heat dissipation. Conversely, if the battery is charged or charged using a body temperature that generates electricity using the user's body temperature, it may be located in a place in contact with the human body. The side camera 210 is located at the front half or rear half of the eyeglass leg so that the side of the user can be observed. The rear camera 211 is positioned at the rear half of the eyeglass leg so as to observe the rear surface of the user. Alternatively, the rear camera may be mounted on an auxiliary connection portion (FIGS. 1 and 113) extending from the smart glasses leg portion 201. The speaker or earphone 212 is for transmitting sound to the user's ear and extends from the eyepiece portion and protrudes near the user's ear. The external input / output terminal 213 is connected to an external electronic device such as a memory, a microprocessor, or a battery, a computer, a smart phone, or a smart car. The external input / output terminal 213 is used for input / output of various data from a memory, And for electrical input / output for charging the battery. The battery 222 may be mounted on one side of the eyeglass leg for driving various electronic devices built in the smart glasses. An input / output terminal 217 for charging the battery may be separately installed in the vicinity of the battery. An auxiliary battery (Figs. 1 and 114) may also be additionally constructed extending over the head of the eyeglass leg.

The communication module 218 is a communication module capable of communicating with various electronic devices built in the smart glasses of the present invention and wireless devices such as an external computer, a smart phone, a smart car, a TV, a smart home, a hospital, Module. The communication module may be located at a portion where the smart glasses frame unit 200 and the smart glasses leg unit 201 are connected, and may include an antenna.

The on / off operation of the smart glasses of the present invention is automatically turned off (off) when the user takes off the glasses and folds the glasses leg 201 to the smart glasses frame part 200, and is automatically turned on when the glasses leg parts are extended from the frame part (On).

When the smart glasses of the present invention are worn and the mobile means such as a smart bike, a smart car (passenger car, bus, train), a smart boat, or a smart airplane is used to open and lock the doors of various moving means, And can automatically perform all personal information and security checks such as the navigation function, the toll fee, and the passport information for the foreign entry and exit, as well as on / off of various moving means. The smart glasses according to the present invention can prevent security accidents caused by others by performing security recognition based on the body information, fingerprint information, and voice information of the user at all times. Accordingly, the security recognition of the money transaction such as various shopping and banking transactions can be safely performed with the smart glasses of the present invention.

The present invention relates to a smart eyeglass having a computer function by incorporating various sensors and electronic elements in eyeglasses, and is capable of checking the health of the user at all times and is capable of checking various kinds of electronic information such as a computer, a smart phone, a smart car, And can communicate with the device through information exchange, thereby providing various convenience to the user.

The smart glasses 100, the communication unit 101, the front camera 102, the microphone 103, the memory and microprocessor 104, the sensor unit 105, the side camera 106, the rear camera 107, And / or the earphone 108, the metastatic artery 109, the ear 110, the smart glasses leg 112, the auxiliary connection 113, the auxiliary battery 114, the smart glasses frame 200, The eyeglass leg 201, the pressure sensor 202, the wheel 203, the transition artery 204, the temperature sensor 205, the sweat sensor 206, the fingerprint sensor 207, the memory 208, An external input / output terminal 213, a front camera 214, an infrared sensor and a camera 215, a microphone and / or a voice recognition unit 209, a side camera 210, a rear camera 211, a speaker or earphone 212, A sensor 221, an input / output terminal 217, a communication module 218, a circuit pattern 219, a battery 222, a laser 220, a project 221,

Claims (5)

1. A smart eyewear comprising a frame portion including a lens portion, and an eyeglass leg portion including at least one sensor,
The frame unit includes at least two of a lens unit including a display screen, a microphone, a voice recognition sensor for recognizing voice, a CCTV including a camera, an infrared camera, and distance-side applied lasers,
The eyeglass foot part may include a pressure sensor, a temperature sensor, a sweat sensor, a fingerprint sensor, an infrared sensor, a gravity sensor, an acceleration sensor, a gyroscope sensor, a motion sensor, a geomagnetism sensor, A memory, a microprocessor, a speaker (earphone), a battery, a wired / wireless charger, and / or a communication module,
The pressure sensor is built in the eyeglass leg portion extending from the frame portion of the smart glasses and is located within a range of 10 cm forward of the center line of the auricle for measuring blood pressure and / or pulse,
The temperature sensor is located at a position in contact with the skin within a range of 10 cm around the position of the pressure sensor for measuring the user's body temperature,
Wherein the sweat sensor is located at a position where the sweat sensor is in contact with the skin within a range of about 10 cm centered around the position of the pressure sensor for analyzing the sweat component of the user.
2. The smart glasses according to claim 1, wherein the smart glasses further include at least one of a memory, a microprocessor, and a communication means, and the memory and the microprocessor are located at a position where they do not contact the user's skin. 2. The smart eyewear of claim 1, wherein the lens of the smart glasses comprises an auto focus adjustment function. The smart glasses according to claim 1, wherein the smart glasses include a phone function capable of transmitting and receiving a voice through the Internet and / or a communication network. The smart glasses according to claim 1, wherein the smart glasses include a projection function and / or a hologram projection function of two-dimensional or three-dimensional images.

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