DE202024100460U1 - Belt-type wearable computer - Google Patents

Abstract

A belt-type wearable computer comprising palm-keyboard devices, a neck-hanging smart glasses, a belt-type computer and an automatic magnetic connection device, characterized in that:the palm-keyboard devices include a left-hand keyboard and a right-hand keyboard -Hand-held keyboard, both held in the palms of the left and right hands and the back of which is attached to the palms by fasteners; the keys of the left-hand keyboard and the right-hand keyboard are arranged in rows and columns, where the number of rows on each keyboard is not less than five and the number of columns is not less than five; the 26 letters of the English alphabet of the keys are arranged in three rows in accordance with the QWERTY keyboard layout, which are arranged in the second, third and fourth rows of the five rows, and they are sequentially in this order on the left-hand keyboard and the right-hand keyboard arranged together into a set; the neck-hanging smart glasses are capable of at least rectangular videos with the same or different viewing angle for both eyes with transparent or opaque back in a transparent real field of view of the glasses for both eyes and variable size and position as in personal computers and smartphones, the degree of transparency or opacity being modulated by a layer of electrochromic lenses provided external to the optics displaying the superimposed videos; the belt-type computer includes an auxiliary power supply and a split -Belt with a computer system unit that can be separated or used in conjunction; the automatic magnetic connection device automatically connects the neck-hanging smart glasses to the auxiliary power supply of the belt-type shared computer and/or to the data transmission line of the computer system unit, the Connection point of the automatic magnetic connection device is located on the user's neck.

Description

Technical area

The present invention relates to the technical field of intelligent wearable devices, particularly to a belt-type wearable computer.

State of the art

In today's world, the two major computing platforms, the PC, which has existed for more than 40 years, and the smartphone, which has existed for 18 years, have reached the frontier of innovation and development, and the next generation computing platforms are stronger than the two of them are on the verge of a breakthrough.

The next generation of computing platforms recognized by most companies today is AR (Augmented Reality) technology. This technology is an image information technology that overlays transparent, brighter images on the objects in the real field of view of the AR glasses to improve the recognition of the objects. The disadvantage of this AR technology is that the range of information it obtains belongs to a relatively specific niche area of advanced cognitive information, which is why it has been invented for 20 years and so far only to business people (to B), but not to the general public (to C) could face. The industry should extend its development and innovation to image information technology that superimposes transparent and opaque images that are brighter or darker than the superimposed objects, or superimposes bright and dark images on the objects in the field of view of the smart glasses, and enables the detection of objects in the field of view or of objects outside the field of view that the wearer wants to know about. This expanded access information is universal, mass compatible, To-C ready and cognitively enhanced. The vast majority of the mass information provided by the two major computing platforms is exactly the kind of cognitively enhanced image information that users want and need, mostly out of their immediate field of vision and with an opaque backing.

• zur Überwindung der Nachteile von PCs ist es notwendig, sie in den Bereich der mobilen Wearables einzuführen; es ist auch notwendig, die Bildinformationen, die auf der Rückseite undurchsichtig sind wie ein PC, die in der realen Welt fotografiert wurden, mit einer natürlichen Mischung aus Licht und Dunkelheit, und die Bildinformationen der Allgemeinheit, die zu jeder Zeit und an jedem Ort für alle technologischen Computing-, Lebens- und Unterhaltungsdienste von so universellem Umfang benötigt werden, und die Technologie, die sie auf den intelligenten Brillen der Wearable Computers anzeigt und ausgibt, innovativ über die Objekte im realistischen Sichtfeld der heutigen AR-Brillen zu legen. Dies erfordert die Lösung der Probleme der folgenden Technologien, die den Dimensionsdurchbruch ausmachen, und der entsprechenden Schlüsseltechnologien:
  1. 1. die Schlüsseltechnologie der Befehlseingabe für mobile Mensch-Computer-Interaktion: eine Kombination von Tastatur und Maus mit der mobilen Feineingabe der PC-Technologie-Productivity-Computing, Finger-Touch-Eingabe von Smartphones und der besseren Sprach-Technologie für Mensch-Computer-Interaktion;
  2. 2. eine der Schlüsseltechnologien für die Ausgabeanzeige bei der mobilen Mensch-Computer-Interaktion: die Anzeigetechnologie für intelligente Brillen mit innovativ erweitertem AR-Informationsbereich ist eine Bildinformationsanzeigetechnologie, die in der Lage ist, transparente oder undurchsichtige, hellere oder dunklere als die überlagerte Objekte oder helle und dunkle Bilder auf Objekte im realen Sichtfeld der intelligenten Brille zu überlagern und die Wahrnehmung dieses Objekts (im Sichtfeld) oder eines Objekts außerhalb des Sichtfelds, das der Nutzer der Brille wissen möchte, zu verbessern; der Stand der Technik, die chinesische Patentanmeldung CN111077679A , ist eine der Antworten, die weiter verbessert werden muss;
  3. 3. die zweite Schlüsseltechnologie für die Ausgabeanzeige bei der mobilen Mensch-Computer-Interaktion: in der Split-Intelligente-Brille-Display-Technologie sind der Batteriehalter und die intelligente Brille in einem geteilten Gerät getrennt, um das Gewicht der Brille zu reduzieren, aber die Batterie und der Halter haben Verbindungsprobleme mit der Datenleitung und beim Tragen der Brille wird die Bewegung des Kopfes durch das Ziehen der Datenleitung gestört; viele Menschen freuen sich auf die Einführung von intelligenten Brillen, die die gleichen Vorteile wie integrierte intelligente Brillen haben, ohne störende Drähte und einfach aufzusetzen und zu benutzen sind, und die die Nachfrage nach einer langlebigen Ausgabeanzeige wie geteilte intelligente Brillen erfüllen können; allerdings ist die Branche seit vielen Jahren von technischen Problemen geplagt, für die es vor der Einführung neuer tragbarer Batterien mit hoher spezifischer Energie im Grunde keine Lösung gibt;
  4. 4. durch die Kombination der Funktionen von zwei Computerplattformen, PC und Smartphone, um die Vorteile eines Hybrids zu nutzen, wird eine Industriedesignlösung der größere Computerplattform der nächsten Generation geschaffen;
  5. 5. PC- und Smartphone-Betriebssysteme, Anwendungssoftware-Ökosysteme und Rechenleistung in der Cloud trennen und Eingabesteuerung und Anzeigeausgabe für die Mensch-Computer-Interaktion in mobile Endgeräte integrieren;
     • die oben genannte Technologie kann die Geburt des neuen persönlichen Terminals EyePhonePC für mobile intelligente Brillen, Smartphones und Cloud-Computer geben, ihre Smartphones brauchen keine Low-NM-High-End-Chips zu verwenden und haben mehr mobile Cloud-Computing-Leistung als PCs und Smartphones; sie kann auch verschiedene Betriebssysteme von PCs und Smartphones ohne Änderung verwenden und verschiedene Betriebssysteme und riesige ökologische Ressourcen der traditionellen Anwendungssoftware erben, und sie hat die Fähigkeit, die beiden großen Computerplattformen zu aktualisieren und zu ersetzen, die leistungsfähiger sind als die beiden großen Computerplattformen heute in allen Aspekten;
  6. 6. die Technologie von PCs, die an festen Orten verwendet werden, und die Technologie von Mobiltelefonen, die zwar tragbar sind, aber aus der Tasche genommen und angeschaut werden müssen, mit kleinen Bildschirmen und schlechter Akkulaufzeit, zu einer Technologie zu kombinieren und weiterzuentwickeln, die an den Augen, dem Mund und den Ohren getragen wird und unterwegs jederzeit und an jedem Ort verwendet werden kann, und zwar mit einem verbesserten Durchbruch in Bezug auf Zeit und Raum; mit der Unterstützung von mobilem 5G, Big Data, Cloud Computing, AGI, Lot und vielen neuen Technologien werden sich Menschen zu iSmartern entwickeln, die alles vorantreiben;
  7. 7. die Technologie, die die Zwei-Dimensionale-Ebene-Anzeige von PCs und Smartphones zu einem mobilen dreidimensionalen Anzeige umfassend aufwertet, die Augmented Reality XR Mixed-Reality-Informationstechnologie gesehen und überlagert sowie die dreidimensionale Welt der Realität werden nahtlos überlagert, so dass die Menschen von der zweidimensionalen Internet-Ära in die dreidimensionale Internet-Ära gelangen.

Today's two major computing platforms have wide audiences and vast ecological resources for applications. However, PCs can be used for technological productivity computing but not for mobile and entertainment services, and smartphones can be used for entertainment services but are only suitable for portable use, unsafe for mobile use, with a small screen, short battery life, missing technological productivity computing, and to use it you have to put your head down and take the device out of your pocket, so the two platforms have not been able to achieve the fusion of these functions. In order to become the next generation of computing platforms, it must be more powerful than the two current computing platforms in all aspects and overcome their disadvantages mentioned above. Therefore, it is necessary to overcome the main technical shortcomings of command input and output display for mobile human-computer interaction, design and develop mobile portable computing devices with excellent industrial design programs based on the current situation of basic materials and components and to incorporate various sophisticated high-tech technologies. Today, to advance the modernization of computing platforms, priority should be given to solving the following practical technical problems:

• to overcome the disadvantages of PCs, it is necessary to introduce them into the field of mobile wearables; It is also necessary to have the image information that is opaque on the back like a PC photographed in the real world, with a natural mix of light and darkness, and the image information of the general public that can be used at any time and any place for all technological computing, life and entertainment services of such universal scope are needed, and to innovatively overlay the technology that displays and outputs them on the smart glasses of wearable computers over the objects in the realistic field of view of today's AR glasses. This requires solving the problems of the following technologies that constitute the dimensional breakthrough and the corresponding key technologies:
  1. 1. the key technology of command input for mobile human-computer interaction: a combination of keyboard and mouse with the mobile fine input of PC technology productivity computing, finger touch input of smartphones and the better human-computer voice technology -Interaction;
  2. 2. One of the key output display technologies in mobile human-computer interaction: the smart glasses display technology with innovative expanded AR information area is an image information display technology that is capable of displaying transparent or opaque, brighter or darker than the superimposed objects or to overlay light and dark images on objects in the real field of view of the smart glasses and the perception of that object (in the field of view) or one object outside the field of view that the user of the glasses wants to know; the state of the art, the Chinese patent application CN111077679A , is one of the answers that needs further improvement;
  3. 3. the second key output display technology in mobile human-computer interaction: in the split smart glasses display technology, the battery holder and the smart glasses are separated in a split device to reduce the weight of the glasses, but the battery and holder have connection problems with the data line and when wearing the glasses, the movement of the head is disturbed by pulling the data line; many people are looking forward to the introduction of smart glasses, which have the same advantages as integrated smart glasses, without annoying wires and are easy to put on and use, and can meet the demand for long-lasting output display like split smart glasses; however, the industry has been plagued for many years by technical problems for which there is essentially no solution until the introduction of new portable batteries with high specific energy;
  4. 4. By combining the functions of two computing platforms, PC and smartphone, to take advantage of a hybrid, an industrial design solution of the next generation larger computing platform is created;
  5. 5. Separate PC and smartphone operating systems, application software ecosystems and computing power in the cloud, and integrate input control and display output for human-computer interaction into mobile devices;
     • The above technology can give birth to the new EyePhonePC personal terminal for mobile smart glasses, smartphones and cloud computers, their smartphones do not need to use low-NM high-end chips and have more mobile cloud computing power than PCs and smartphones; it can also use various operating systems of PCs and smartphones without modification, and inherit various operating systems and huge ecological resources of traditional application software, and it has the ability to upgrade and replace the two major computer platforms, which are more powerful than the two major computer platforms in today all aspects;
  6. 6. combine and develop the technology of personal computers used in fixed locations and the technology of mobile phones, which are portable but have to be taken out of the pocket and looked at, with small screens and poor battery life, into one technology, which is worn on the eyes, mouth and ears and can be used on the go at any time and in any place, with an improved breakthrough in time and space; with the support of mobile 5G, big data, cloud computing, AGI, Lot and many new technologies, people will evolve into iSmarters who drive everything forward;
  7. 7. the technology that comprehensively upgrades the two-dimensional plane display of PCs and smartphones into a mobile three-dimensional display, the augmented reality XR mixed reality information technology seen and superimposed, and the three-dimensional world of reality are seamlessly superimposed, so that people move from the two-dimensional Internet era to the three-dimensional Internet era.

Therefore, the lack of a belt-type wearable computer and its usage method has become an urgent problem to be solved.

Content of the invention

In order to solve the above-mentioned problems in the prior art, the present invention provides a belt-type wearable computer.

In order to achieve the above purpose, the present invention provides a technical solution as follows: a belt-type wearable computer comprising palm-keyboard devices, neck-hanging smart glasses, a belt-type computer and an automatic magnetic connection device; the palm keyboard devices include a left-hand keyboard and a right-hand keyboard and both are held in the palms of the left and right hands, respectively, and the back thereof is attached to the palms by fasteners; the keys of the left-hand keyboard and the right-hand keyboard are arranged in rows and columns, where the number of rows on each keyboard is not less than five and the number of columns is not less than five; the 26 letters of the English alphabet of the keys are arranged in three rows in accordance with the QWERTY keyboard layout, which are arranged in the second, third and fourth rows of the five rows, and they are sequentially in this order on the left-hand keyboard and the right-hand keyboard arranged together to form a sentence;
the neck-hanging smart glasses are capable of overlaying in a transparent real field of view of the glasses for both eyes at least rectangular videos with the same or different viewing angle for both eyes with transparent or opaque back and variable size and position like PCs and smartphones, wherein the degree of transparency or opacity is modulated by a layer of electrochromic lenses provided external to the optics displaying the superimposed videos;
the belt type computer includes an auxiliary power supply and a split belt with a computer system unit that can be separated or used in conjunction;
the automatic magnetic connection device automatically connects the neck-hanging smart glasses to the auxiliary power supply of the belt-type shared computer and/or to the data transmission line of the computer system unit, wherein the connection point of the automatic magnetic connection device is arranged at the user's neck.

Further, the rows containing letters in QWERTYUIOP in the three letter rows of the keys on the left-hand keyboard and the right-hand keyboard are arranged in the palm of the user's hands in a position closer to the wrist; the user can touch the keys with the fingertip of the finger by stretching and bending the finger to complete the operation input of the mobile human-computer interaction command information and at the same time transmit and output the command information through wireless communication.

Further, the left-hand keyboard and the right-hand keyboard both include a keypad with a capacitive touch screen or a resistive touch screen, a circuit board containing a microprocessor, keyboard batteries, a keyboard case, a connector for attaching the keyboard to the hand, a vibration motor for sending vibration feedback signals upon key-touching and a buzzer for sending sound feedback signals upon key-touching; the connecting elements are elastic snaps or elastic bands, and the palm-keyboard devices are also provided with a three-position selector switch for vibration, beep or vibration-free mute; the keypads, the vibration motors, the buzzers and the selector switches are each communicatively connected to the microprocessors of the circuit boards.

Further, the palm keyboard devices are further provided with a function switching key, the function switching key switching the keyboard input function of the keypad to a gliding mouse function or a writing board function; when the keypad is switched to one of the glide mouse function or the tablet function, the left-hand keyboard and the right-hand keyboard each switch a different one of the two functions for simultaneous use; the palm keyboard devices are further provided with a mode indicator light, the mode indicator light being communicatively coupled to the microprocessor of the circuit board, and the mode indicator light including a handwriting mode light, a keyboard mode light and a mouse Mode light includes; the circuit board is provided with a wireless connection module unit capable of inputting human-computer interaction control commands to the belt-type computer system unit.

Furthermore, the neck-hanging smart glasses are provided with a neck cord of the glasses between the two temples, which connects the two temples; an upper transmission line is hidden within the lanyard of the glasses; the upper transmission line is inserted into the lanyard of the glasses in a single bundle from one side of the temple or in two bundles from the two temples and is connected to the automatic magnetic connection device by leading out from the central portion of the lanyard of the glasses; the belt type computer is connected to the automatic magnetic connection device via a lower transmission line; the automatic magnetic connection device includes an upper connection magnetic head and a lower connection magnetic head; the upper connection magnet is connected to the neck cord of the glasses via the upper transmission line; the lower transmission line extends to the user's neck and is connected to the lower connection magnetic head; the lower connection magnetic head is provided with a guide block; The guide block allows the lower connection magnetic head to always face upwards and at the same time it allows the upper connection magnetic head to be automatically attracted and guided by the lower connection magnetic head until they are correctly aligned and mutually attracted to the upper transmission line and the lower one To communicatively connect transmission lines.

Further, the lower connection magnetic head is further provided with a fastener, the fastener attaching the lower connection magnetic head to the collar or the worn accessory at the position of the user's neck; the fastener is an elastic clip, a snap fastener or a Velcro fastener. Further, the belt-type computer is provided with a jack for charging or powering the computer system unit, its auxiliary power supply, or/and other devices on the outer surface of the belt-type computer.

Furthermore, the neck-hanging smart glasses are equipped with a bone conduction microphone for human-computer voice interaction and a piston-shaped air conduction headset;
the bone conduction microphone only records whispered voice information emitted from the airways rubbed by the user's exhaled airflow when the user is in a state without vibration of the vocal cords of the larynx; the bone conduction microphone is mounted in a nose pad of the smart glasses body; an electronic control unit including a microprocessor with a video image display driving function is provided on the temples of the body of the smart glasses; the bone conduction microphone collects an amplitude modulated electrical audio signal generated by sound vibrations of the nasal bone, which is then communicatively connected to the electrical control unit having a microprocessor;
the air conduction headset is attached to the part of the body of the smart glasses behind the two temples of the glasses near the user's ears and suspended in an in-ear position facing the user's cochlea; the air conduction headset is equipped with a touch-sensitive two-dial microphone switch; The shaft of the air conduction headset is movably connected to the body of the smart glasses.

The advantages of the present invention compared to the prior art are as follows: using a palm keyboard, the present invention enables both mobile fine input of a keyboard and mouse of productivity calculations in computing and finger input of a smartphone; The combination of bone conduction microphone and piston-shaped air conduction headset and integrated use with smart glasses achieves better voice-human-computer interaction technology for daily speaking and whispering, while eliminating the disadvantages of traditional wireless headsets and microphones with poor battery life and frequent wearing and removal avoided for loading; Using the split smart glasses multi-function display technology and the combination of neck and waist structure, the entire battery holder is separated from the smart glasses to reduce the weight of the glasses while reducing the interference caused by pulling and tugging to avoid the long connecting cables on the temples of the glasses.

With the support of mobile human-computer interaction and cloud computing methods represented by the belt-type computer with palm keyboard input and the smart glasses outputting a variety of functions, the wearable computer is from Belt type of the present invention a new mobile cloud computing terminal with a full range of models and the entire application ecosystem of the world's two major computing platforms, namely the PC and the smartphone, compared to the prior art PC and the smartphone.

Brief description of the drawings

• 1 is a schematic representation of the structure of a belt-type wearable computer of the present invention.
• 2 is a schematic representation of the structure of a guide block and a fastener.
• 3 is a schematic representation of the structure of a left-hand keyboard.
• 4 is a schematic representation of the sectional structure of a palm keyboard.
• 5 is a schematic representation of the structure of a right-hand keyboard.
• 6 is a working principle diagram of a keyboard/mouse/handwriting board.
• 7 is a keyboard/mouse/handwriting board circuit diagram, and the graphic in the dot drawing box in the diagram indicates that a touch key is formed at the intersection of the horizontal sensing sheet and the vertical sensing sheet, and each key controls a horizontal input and a vertical input at the same time.
• 8th is an electrical control principle diagram of one embodiment.

• 1, Handflächen-Tastatur-Vorrichtung; 2, Hals-hängende intelligente Brille; 3, Computer vom Gürteltyp; 4, automatische magnetische Verbindungsvorrichtung; 5, Linke-Hand-Tastatur; 6, Rechte-Hand-Tastatur; 7, Verbindungselement; 8, Taste; 9, Tastenfeld; 10, Leiterplatte; 11, Tastaturbatterie; 12, Tastaturgehäuse; 13, Vibrationsmotor; 14, Summer; 15, Wahlschalter; 16, Funktionsumschalttaste; 17, Modus-Anzeigeleuchte; 18, drahtlose Verbindungsmoduleinheit; 19, Umhängekordel der Brille; 20, obere Übertragungsleitung; 21, untere Übertragungsleitung; 22, oberer Verbindungsmagnetkopf; 23, unterer Verbindungsmagnetkopf; 24, Führungsblock; 25, Befestigungselement; 26, Hilfsstromversorgung; 27, Buchse; 28, Knochenleitungsmikrofon; 29, kolbenförmiges Luftleitungsheadset; 30, elektronische Steuereinheit; 31, Computersystemeinheit.

As shown in the figures:

• 1, palm keyboard device; 2, Neck-hanging smart glasses; 3, belt type computer; 4, automatic magnetic connection device; 5, Left-hand keyboard; 6, right-hand keyboard; 7, connecting element; 8, button; 9, keypad; 10, circuit board; 11, keyboard battery; 12, keyboard case; 13, vibration motor; 14, buzzer; 15, selector switch; 16, function switching button; 17, mode indicator light; 18, wireless connection modules Ness; 19, glasses neck cord; 20, upper transmission line; 21, lower transmission line; 22, upper connection magnetic head; 23, lower connection magnetic head; 24, leadership block; 25, fastener; 26, auxiliary power supply; 27, socket; 28, bone conduction microphone; 29, piston-shaped air conduction headset; 30, electronic control unit; 31, computer system unit.

Detailed description of the preferred embodiments

A belt type wearable computer of the present invention and a method of use will be described in more detail below in conjunction with the accompanying drawings.

The present invention is taught in conjunction with the accompanying 1-8 described in detail.

A belt-type wearable computer comprising palm-type keyboard devices 1, neck-hanging smart glasses 2, a belt-type computer 3 and an automatic magnetic connection device 4, the palm-type keyboard devices 1 including a left-hand keyboard 5 and a right-hand keyboard 6, both held in the palms of the left and right hands, respectively, and the back of which is secured to the palms by fasteners 7; the keys 8 of the left-hand keyboard 5 and the right-hand keyboard 6 are arranged in rows and columns, the number of rows on each keyboard being not less than five and the number of columns being not less than five; the 26 letters of the English alphabet of the 8 keys are arranged in three rows in accordance with the QWERTY keyboard layout, which are arranged in the second, third and fourth rows of the five rows, and they are sequentially in this order on the left-hand Keyboard 5 and the right-hand keyboard 6 arranged together in a set to enable the user both direct inheritance or quick learning of the traditional keyboard of the blind typing techniques and to ensure the safety of walking;
The neck-hanging smart glasses 2 is capable of overlaying at least rectangular videos with the same or different viewing angle for both eyes with transparent or opaque back and variable size and position like PCs and smartphones in a transparent real field of view of the glasses for both eyes , wherein the degree of transparency or opacity is modulated by a layer of electrochromic lenses provided external to the optics displaying the superimposed videos;
the belt type computer 3 includes an auxiliary power supply 26 and a split belt with a computer system unit 31 which can be separated or used in conjunction; the automatic magnetic connection device 4 automatically connects the neck-hanging smart glasses 2 to the auxiliary power supply 26 of the belt-type shared computer 3 and/or to the data transmission line of the computer system unit 31, with the connection point of the automatic magnetic connection device 4 arranged at the user's neck is.

In an embodiment of the present application, a Samsung S20 smartphone with dp projection function is selected as the computer system unit 31, which is located across the surface of the split belt in the middle position of the human body; a finished smart glasses is selected for the initial display, the smart glasses are XREAL AIR 2 Pro model from XREAL (Beijing) with an electric dimming layer with adjustable transparency, the dimming layer can be dimmed in several stages using the touch switch on the glasses temples , and it can overlay rectangular videos from dp-connected projections, PCs and smartphones into the transparent reality field for both eyes; In conjunction with the palm keyboard devices 1 for inputting control commands, mobile human-computer interaction is realized.

The selected finished smart glasses originally have a speaker component and a microphone component, each of which is communicatively connected to the electronic control unit 30 of the microprocessor on the temple of the glasses. The present embodiment also selects an ordinary wired piston-shaped headset 29 with a surface-added two-dial touch switch integrally mounted on and connected to the body of the glasses on the temples, and also selects a bone conduction microphone 28 of the model BM-06 of Ningbo Shuozheng Electronics Company with a diameter of 8mm and a height of 3.5mm, which has been modified to be hidden in a nose pad of the glasses. The receiver part of the piston-shaped headset 29 is directly and easily modified to replace the loudspeaker part on the arm of the selected finished glasses and to be communicatively connected to the electronic control unit 30 of the microprocessor. The microphone part of the piston-shaped headset 29 and the bone conduction microphone 28 of the model BM-06 are both selected by common connection with the two-selection touch switch to replace the original microphone part on the temple of the finished glasses, being communicatively connected to the electronic control unit 30 of the microprocessor are to complete the selection to perform human-computer interaction between the normal voice whisper instructions and the whisper instructions. (Please refer 1 for a schematic representation of the structure of a belt type wearable computer of the present invention and 8th for an electrical control principle diagram of an embodiment.)

In this embodiment, then, alternatively, the male end of a commercially available dp-style magnetic adapter from Yishi Technology is selected as the lower connection magnetic head 23, which is connected to the computer system unit 31 of S20 smartphone via the lower transmission line 21; and the female end of the magnetic adapter is used as an upper connection magnetic head 22, which is connected to the XREAL AIR 2 Pro smart glasses via the upper transmission line 20 to form an automatic magnetic connection device 4 for the split smart glasses. (Please refer 8th for an electrical control principle diagram of an embodiment.)

In an embodiment of the present application, the rows containing letters in QWERTYUIOP in the three letter rows of the keys on the left-hand keyboard 5 and the right-hand keyboard 6 are in the palm of the user's hands in a position closer to the Wrist arranged; the user can touch the keys 8 with the fingertip of the finger by stretching and bending the finger to complete the operation input of the mobile human-computer interaction command information and at the same time transmit and output the command information through wireless communication.

In one embodiment of the present application, the left-hand keyboard 5 and the right-hand keyboard 6 both include a keypad 9 with a capacitive touch screen or a resistive touch screen, a circuit board 10 containing a microprocessor, keyboard batteries 11, a keyboard case 12 , a connector 7 for attaching the keyboard to the hand, a vibration motor 13 for sending vibration feedback signals when keys are touched, and a buzzer 14 for sending sound feedback signals when keys are touched; the connecting members 7 are elastic snaps or elastic bands, and the palm keyboard devices 1 are also provided with a three-position selector switch 15 for vibration, beep or vibration-free mute; the keypads 9, the vibration motors 13, the buzzers 14 and the selector switches 15 are each communicatively connected to the microprocessors of the circuit boards 10.

In an embodiment of the present application, the palm keyboard devices 1 are further provided with a function switching key 16, the function switching key 16 switching the keyboard input function of the keypad 9 to a gliding mouse function or a writing board function; when the keypad 9 is switched to one of the sliding mouse function or the writing board function, the left-hand keyboard 5 and the right-hand keyboard 6 each switch a different one of the two functions for simultaneous use; For example, when the mouse function of the right-hand keyboard 6 is turned on, the left-hand keyboard 5 is switched to the writing board function, and when the right hand operates the mouse so that the mouse pointer is on the screen of the neck-hanging smart glasses 2 is positioned, the index finger of the right hand can be used to write on the writing board of the left-hand keyboard 5 to input the manipulation command information; the palm keyboard devices 1 are further provided with a mode indicator light 17, the mode indicator light 17 being communicatively connected to the microprocessor of the circuit board 10, and the mode indicator light 17 being a handwriting mode light, a keyboard mode light. light and a mouse mode light includes; the circuit board 10 is provided with a wireless connection module unit 18 capable of inputting human-computer interaction control commands to the belt-type computer system unit 31.

In an embodiment of the present application, the neck-hanging smart glasses 2 is provided with a glasses neck cord 19 between the two glasses temples, which connects the two glasses temples; an upper transmission line 20 is hidden within the neck cord 19 of the glasses; the upper transmission line 20 is inserted into the lanyard 19 of the glasses in a single bundle from one side of the temple or in two bundles from the two temples (the double bundle insertion method makes the entire lanyard slimmer and softer) and is connected to the automatic magnetic connection device 4 connected by leading out of the middle section of the neck cord 19 of the glasses; the belt type computer 3 is connected to the automatic magnetic connection device 4 via a lower transmission line 21; the automatic magnetic connection device 4 includes an upper connection magnetic head 22 and a lower connection magnetic head 23; the upper connecting magnet 22 is connected to the neck cord 19 of the glasses via the upper transmission line 20; the lower transmission line 21 extends to the user's neck and is connected to the lower connecting magnetic head 23 connected; the lower connection magnetic head 23 is provided with a guide block 24; The guide block 24 allows the lower connection magnetic head 23 to always be directed upward and at the same time allows the upper connection magnetic head 22 to be automatically attracted and guided by the lower connection magnetic head 23 until they are correctly aligned and mutually attracted to the upper To communicatively connect transmission line 20 and the lower transmission line 21 to one another.

In an embodiment of the present application, the lower connection magnetic head 23 is further provided with a fastener 25, the fastener 25 fixing the lower connection magnetic head 23 to the collar or worn accessory at the position of the user's neck; the fastening element 25 is an elastic clip, a snap fastener or a Velcro fastener.

In an embodiment of the present application, the belt-type computer 3 is provided with a socket 27 for charging or powering the computer system unit 31, its auxiliary power supply 26, or/and other devices on the outer surface of the belt-type computer 3.

In an embodiment of the present application, the neck-hanging smart glasses 2 are provided with a bone conduction microphone 28 for human-computer voice interaction and a bulb-shaped air conduction headset 29; the bone conduction microphone 28 only records whispered voice information emitted from the airways rubbed by the user's exhaled airflow when the user is in a state without vibration of the vocal cords of the larynx; the bone conduction microphone 28 is mounted in a nose pad of the body of the smart glasses; an electronic control unit 30 including a microprocessor with a video image display driving function is provided on the temples of the body of the smart glasses; the bone conduction microphone 28 collects an amplitude modulated electrical audio signal generated by sound vibrations of the nasal bone, which is then communicatively coupled to the electrical control unit 30 having a microprocessor;
the air conduction headset 29 is attached to the part of the body of the smart glasses behind the two temples of the glasses near the user's ears and suspended in an in-ear position facing the user's cochlea; the air conduction headset 29 is equipped with a touch-sensitive two-selection switch for the microphone; the shaft of the air conduction headset 29 is movably connected to the body of the smart glasses.

Due to the use of cloud computing of the belt-type wearable computer, a large number of calculations are performed in the cloud server space, and therefore the smartphone adopted by the neck-hanging-type wearable computer can be equipped with a low-end, high-nanometer chip. Process, avoiding the use of a high-end chip with low nanometer process and reducing the cost.

The neck-hanging smart glasses 2 of the belt-type wearable computer can display audios and videos from different angles independently for both eyes, and it can be used so that a person who is moving can see the superimposed three-dimensional video image information in the field of view of the glasses can. Therefore, today's two largest computing platforms, the PC with two-dimensional display (for more than 40 years) and the smartphone with two-dimensional display (for more than 10 years), have entered the new field of using wearable computers in walking and three-dimensional displays integrated, representing a technological breakthrough in the mobile usage and three-dimensional display dimensions of today's two largest computing platforms.

The use of belt-type wearable computer PC cloud computing can bring technological productivity computing into a broader outdoor mobile field, making it possible to implement all kinds of big-bit artificial intelligence application plug-ins anytime, anywhere to calculate with the help of big data. The cloud mobile phone usage method of the computer system unit 31 allows the entertainment and services of the smartphone to be changed from movable in the pocket to mobile and portable. From then on it is no longer necessary to lower your head to hold it. And it has a large display and long battery life. One device merges the two computing platforms of PC and smartphone into one, while connecting the Internet of Things, which connects all things together for people to control, and then general artificial intelligence (AGI) is added to control them all to connect with people's eyes, ears and mouths at any time and place, turning people into cyber-intelligent people and realizing the science fiction dream of iSmartor.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CN 111077679 A [0004]

Claims (8)

A belt-type wearable computer comprising palm-keyboard devices, a neck-hanging smart glasses, a belt-type computer and an automatic magnetic connection device, characterized in that: the palm-keyboard devices include a left-hand keyboard and a right-hand keyboard -Hand-held keyboard, both held in the palms of the left and right hands and the back of which is attached to the palms by fasteners; the keys of the left-hand keyboard and the right-hand keyboard are arranged in rows and columns, where the number of rows on each keyboard is not less than five and the number of columns is not less than five; the 26 letters of the English alphabet of the keys are arranged in three rows in accordance with the QWERTY keyboard layout, which are arranged in the second, third and fourth rows of the five rows, and they are sequentially in this order on the left-hand keyboard and the right-hand keyboard arranged together to form a sentence; the neck-hanging smart glasses are capable of overlaying in a transparent real field of view of the glasses for both eyes at least rectangular videos with the same or different viewing angle for both eyes with transparent or opaque back and variable size and position like PCs and smartphones, wherein the degree of transparency or opacity is modulated by a layer of electrochromic lenses provided external to the optics displaying the superimposed videos; the belt type computer includes an auxiliary power supply and a split belt with a computer system unit that can be separated or used in conjunction; the automatic magnetic connection device automatically connects the neck-hanging smart glasses to the auxiliary power supply of the belt-type shared computer and/or to the data transmission line of the computer system unit, wherein the connection point of the automatic magnetic connection device is arranged at the user's neck. Belt-type wearable computer Claim 1 , characterized in that the rows containing letters in QWERTYUIOP in the three letter rows of the keys on the left-hand keyboard and the right-hand keyboard are arranged in the palm of the user's hands in a position closer to the wrist; the user can touch the keys with the fingertip of the finger by stretching and bending the finger to complete the operation input of the mobile human-computer interaction command information and at the same time transmit and output the command information through wireless communication. Belt-type wearable computer Claim 2 , characterized in that the left-hand keyboard and the right-hand keyboard both include a keypad with a capacitive touch screen or a resistive touch screen, a circuit board containing a microprocessor, keyboard batteries, a keyboard housing, a connector for attaching the keyboard the hand, a vibration motor for sending vibration feedback signals when a key is touched and a buzzer for sending sound feedback signals when a key is touched; the connecting elements are elastic snaps or elastic bands, and the palm-keyboard devices are also provided with a three-position selector switch for vibration, beep or vibration-free mute; the keypads, the vibration motors, the buzzers and the selector switches are each communicatively connected to the microprocessors of the circuit boards. Belt-type wearable computer Claim 3 , characterized in that the palm keyboard devices are further provided with a function switching key, the function switching key switching the keyboard input function of the keypad to a gliding mouse function or a writing board function; when the keypad is switched to one of the glide mouse function or the tablet function, the left-hand keyboard and the right-hand keyboard each switch a different one of the two functions for simultaneous use; the palm keyboard devices are further provided with a mode indicator light, the mode indicator light being communicatively coupled to the microprocessor of the circuit board, and the mode indicator light including a handwriting mode light, a keyboard mode light and a mouse Mode light includes; the circuit board is provided with a wireless connection module unit capable of inputting human-computer interaction control commands to the belt-type computer system unit. Belt-type wearable computer Claim 4 , characterized in that the neck-hanging smart glasses are provided with a neck cord of the glasses between the two temples, which connects the two temples; an upper transmission line is hidden within the lanyard of the glasses; the upper transmission line is in a single bundle inserted into the lanyard of the glasses from one side of the temple or in two bundles from the two temples and is connected to the automatic magnetic connecting device by exiting from the central portion of the lanyard of the glasses; the belt type computer is connected to the automatic magnetic connection device via a lower transmission line; the automatic magnetic connection device includes an upper connection magnetic head and a lower connection magnetic head; the upper connection magnet is connected to the neck cord of the glasses via the upper transmission line; the lower transmission line extends to the user's neck and is connected to the lower connection magnetic head; the lower connection magnetic head is provided with a guide block; The guide block allows the lower connection magnetic head to always face upwards and at the same time it allows the upper connection magnetic head to be automatically attracted and guided by the lower connection magnetic head until they are correctly aligned and mutually attracted to the upper transmission line and the lower one To communicatively connect transmission lines. Belt-type wearable computer Claim 5 , characterized in that the lower connection magnetic head is further provided with a fastener, the fastener fixing the lower connection magnetic head to the collar or the worn accessory at the position of the user's neck; the fastener is an elastic clip, snap fastener or Velcro fastener. Belt-type wearable computer Claim 6 , characterized in that the belt type computer is provided with a socket for charging or powering the computer system unit, its auxiliary power supply or/and other devices on the outer surface of the split belt of the belt type computer. Belt-type wearable computer Claim 7 , characterized in that the neck-hanging smart glasses are provided with a bone conduction microphone for human-computer voice interaction and a piston-shaped air conduction headset; the bone conduction microphone only records whispered voice information emitted from the airways rubbed by the user's exhaled airflow when the user is in a state without vibration of the vocal cords of the larynx; the bone conduction microphone is mounted in a nose pad of the smart glasses body; an electronic control unit including a microprocessor with a video image display driving function is provided on the temples of the body of the smart glasses; the bone conduction microphone collects an amplitude modulated electrical audio signal generated by sound vibrations of the nasal bone, which is then communicatively connected to the electrical control unit having a microprocessor; the air conduction headset is attached to the part of the body of the smart glasses behind the two temples of the glasses near the user's ears and suspended in an in-ear position facing the user's cochlea; the air conduction headset is equipped with a touch-sensitive two-dial microphone switch; The shaft of the air conduction headset is movably connected to the body of the smart glasses.

Images