CN111240415B - Glasses bag type computer device - Google Patents

Abstract

The invention provides a glasses bag type computer device, which comprises a bag body of a shoulder bag with an opening at the upper side, a smart phone arranged on the outer side surface or the inner cavity of the bag in a detachable manner, a keyboard which is arranged on the outer side surface of the bag, connected with the smart phone in a wired manner or a wireless manner and covered by a bag cover, and a follower mouse carried by a shoulder bag carrier; the arrangement of English letters of keys on the keyboard is the same as that of English letters of the keys of a Kedi (qwert) keyboard in the prior art, the English letters are arranged according to the direction of character feet towards the shoulder bag Bao Kou, and the character heads are arranged towards the bottom of the shoulder bag; the glasses bag type computer device also comprises a glasses display connected with the smart phone through a wired or wireless screen, so that the defects that the PC desktop computer display is too large, the smart phone screen is too small and the smart phone needs to be watched by hand are overcome; the portable man-machine interaction device is novel in structure, convenient to use and carry, and can provide a good man-machine interaction mode in a wearable mode.

Description

Glasses bag type computer device

Technical Field

The invention relates to a mobile man-machine interaction technology, in particular to a glasses-packed computer device.

Background

Since 1946 computer invention, man-machine interaction technology has been a key short board affecting the development of computer technology. To date, only two great inventions become milestones leading the development of computer technology from the original man-machine interaction technology of perforating paper tape input and output, one is leading PC personal computers to popularize man-machine interaction technology of thousands of households matched with a keyboard mouse and window icon operation display system, and the other is leading 56 hundred million people worldwide to use smart phones as mobile man-machine interaction technology of finger touch control capacitive screens with tools. However, to date, developers cannot always create an applicable mobile man-machine interaction technology for technology and productivity calculation, and the mobile man-machine interaction technology for finger touch control of the capacitive screen cannot lead complex technology and productivity calculation to enter the field of mobile intelligent terminals because of the inherent shortages of human simple languages. The technologies such as AR, VR, robot, internet of vehicles, artificial intelligence, everything interconnection, cloud computing and the like all need technology and productivity computing to enter the mobile field, however, the gap of the mobile man-machine interaction technology is difficult to surmount for a long time, and people need an innovative mobile man-machine interaction technology to complement the key short board.

Disclosure of Invention

The invention provides a glasses bag type computer device which has novel structure, is convenient to use and carry, and can provide a good man-machine interaction mode in a wearable mode.

The invention adopts the following technical scheme.

The glasses bag type computer device comprises a bag body of a shoulder bag with an opening at the upper side, a smart phone arranged on the outer side surface of the bag body or in a detachable mode in the inner cavity of the bag body, a keyboard which is arranged on the outer side surface of the bag body, connected with the smart phone in a wired mode or a wireless mode and covered by a bag cover, and a follower mouse carried by a person carrying the shoulder bag; the arrangement of English letters of keys on the keyboard is the same as that of English letters of the keys of a Kedi (qwert) keyboard in the prior art, the English letters are arranged according to the direction of character feet towards the shoulder bag Bao Kou, the character heads are arranged towards the bottom of the shoulder bag, and the intelligent mobile phone, the keyboard and the accompanying mouse combined by the shoulder bag become a mobile man-machine interaction input computing device capable of being used in a strolling mode;

The glasses bag type computer device also comprises a glasses display connected with the smart phone through a wired or wireless screen, and the defects that the PC desktop computer display is too large in appearance and too heavy in weight, the smart phone screen is too small and the smart phone screen needs to be watched in a handheld manner are overcome;

The glasses bag type computer device composed of the mobile man-machine interaction input computing device and the glasses display introduces the computation of the PC desktop into the movement, so that the intelligent mobile phone is provided with a larger display screen and an efficient keyboard and mouse input device, and the work of the PC desktop and the intelligent mobile phone can be completed by one machine.

The glasses display is used for transmitting a projection image to be displayed to eyes of a user through an optical path when in operation, the size of a content area in the projection image is adjustable, and meanwhile, the glasses display forms an opaque area with adjustable size through an electric control dimming screen in front of an optical synthesizer lens, so that the content area of the projection image projected to the field of view of the user can be displayed in the opaque area of the electric control dimming screen in the field of view of the user, and a user of the computer device can obtain the information display of an opaque screen image originally existing in a static field of view environment in which the user sits and uses a PC desktop computer in the moving field of view environment;

The eyeglass display comprises an eyeglass bracket worn on the head, wherein the eyeglass bracket is provided with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating projection image signals; an electric control dimming screen which can be set to be in a transparent state is arranged in front of the optical synthesizer lens; the dimming screen is an electrically-induced color-adjusting dimming material screen; the selection range of the electrically tunable dimming material screen includes, but is not limited to, a liquid crystal display dimming screen LCD or an organic electroluminescent display dimming screen OLED;

The micro display comprises a driving module; the driving module is connected with the electric control dimming screen which can be set to be in a transparent state, and part or all of the area of the electric control dimming screen can be set to be in a transparent state;

when the glasses display works, the area which is not converted into an opaque state by the electric control dimming screen is a transparent area; the wearer can see the environment after the electric control dimming screen through the transparent area; the driving module drives the electric control dimming screen to enable the opaque area of the electric control dimming screen to correspond to the content area of the projection image, so that the content area of the projection image is displayed at the opaque area of the electric control dimming screen in the field of view of a user; the size of the projected image content area is adjustable to provide different screen display images required by the user of the computer device.

The following mouse is either a touch pad mouse arranged on the periphery of the keyboard, or a finger ring mouse in the prior art worn on the fingers of a person carrying the bag, or a touch screen mouse provided with a screen touch mouse application program APP and arranged on the periphery of the keyboard and of the smart phone, or another touch pad mouse arranged on the bag surface on one side of the shoulder bag, which is connected with the end of the bag strap, and the other touch pad mouse is independently used when the person carrying the shoulder bag walks.

The auxiliary power supply device is arranged at the bottom of the bag body, the charging control module is arranged in the auxiliary power supply device for directly connecting a smart phone, a keyboard and a touch pad mouse to supply power for continuous cruising, the docking station module and the external expansion connector are arranged in the auxiliary power supply device, the external expansion connector comprises an external charging interface, an external video interface, an external audio interface, a TF/SD plug interface and a USB interface, the auxiliary power supply device is used for providing a data line connection plug for the smart phone, and directly cruising is connected for the external multi-device interface and the integrated connection of the external multi-device interface of the smart phone, so that the problems of poor cruising capacity, frequent charging and troublesome connection of the external multi-device of the extension phone of the traditional mobile phone are solved.

The glasses-packed computer device is connected with the smart phone through the keyboard and at least one follow-up mouse, and uses a man-machine interaction interface of a window operating system to select one display at a display screen of the smart phone or a display screen of a glasses display in a single-screen mode or simultaneously display at the display screen of the smart phone and the display screen of the glasses display in a synchronous mode or an expansion mode, so that mobile man-machine interaction capable of being used in a strolling mode is implemented;

When mobile man-machine interaction is implemented, the smart phone can use a PC desktop computer operating system; the PC desktop operating system is either a PC desktop operating system of a cloud host called by a cloud computer application program APP on the smart phone or a PC desktop operating system additionally arranged in the smart phone; the operating system additionally arranged in the intelligent mobile phone and the original pre-installed mobile operating system can be mutually switched;

According to the mobile man-machine interaction method, PC computers which cannot enter the mobile field for many years enter the mobile field capable of being controlled in a strolling way, and new technologies such as robots, big data, artificial intelligence, the Internet of things and the like are provided with more efficient mobile platforms;

According to the mobile man-machine interaction method, cloud computing with most scientific and technological productivity computing is enabled to enter the mobile field, and operating system software of various desktop PC computers at present is enabled to enter the mobile field without modification.

The mobile man-machine interaction further comprises a pair of headsets arranged on the left ear and the right ear on the glasses display, and the headsets are used for carrying out man-machine interaction for inputting and receiving audio information for the intelligent mobile phone; the headset is connected with the smart phone in a wired mode or a wireless mode including a Bluetooth mode.

The shoulder bag is provided with a through window hole exposing the screen of the mobile phone at the position corresponding to the smart phone, and when the glasses bag type computer device is required to be used for propaganda and display, or the smart phone is required to be used for beautifying and displaying the bag body, a user operates the smart phone to enable the user to show videos or display pictures through the window hole.

The intelligent mobile phone is provided with an application program APP which detects the walking speed of a user by using a navigation module and automatically adjusts the size of a content area in the projection image of the eyeglass display in a stepping mode according to the walking speed;

When the travelling speed of the user is high or the user is in a running state, the content area can be automatically adjusted to be a man-machine interaction output picture in a moving scroll shape with a small lower part of the visual field of the user;

When a user walks, the content area can be automatically adjusted to be the size of the lower part of the visual field of the user, such as a man-machine interaction output picture of a notebook computer display screen or a PC desktop computer display screen;

when a user stops walking or sits down, the content area can be automatically adjusted to be a man-machine interaction output picture with the size at the center of the visual field of the user, such as a wall-mounted large-screen display screen;

According to the mobile man-machine interaction method, a user of the computer device can obtain various man-machine interaction output pictures of a smart phone screen, a small scroll mobile screen, a notebook computer screen, a PC desktop computer screen and a wall hanging screen.

The carrying method of the glasses-packed computer device comprises the steps that the inner cavity of the bag body contains the accompanying daily necessities for carrying pedestrians; the bag body is provided with a soft cushion, when a traveler manipulates the keyboard, the shoulder bag computer device is carried around the front shoulder and/or neck, and the wrists and/or palms and/or tiger mouths of the two hands are/is rested on the soft cushion of the bag body, and the weight of the two hands is born by the bag belt so as to reduce arm fatigue;

when the eyeglass display is not worn by a user, the eyeglass display can be received in the interior cavity of the bag.

The above mentioned glasses display includes a glasses bracket worn on the head, the glasses bracket is equipped with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating a projection image signal, and the size of a content area of the projection image is adjustable; an electric control dimming screen is arranged in front of the optical synthesizer lens, and the micro display comprises a driving module; the driving module is connected with the electric control dimming screen and can regulate and control partial or all areas of the electric control dimming screen to be in a transparent or opaque state;

When all the areas of the electric control dimming screen are regulated and set to be in a transparent state, the optical synthesizer lens superimposes the projection image with the adjustable size of the content area from the micro-display on the image formed by the electric control dimming screen from the real environment view, so as to form the display image output of the augmented reality AR with various screens with different sizes, and the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive augmented reality AR mobile computer with various screen displays with various sizes;

When all the areas of the electric control dimming screen are regulated and set to be in an opaque state, only the display image output of the virtual reality VR formed by the virtual reality projection with the adjustable size of the content area of the micro-display is output on the optical synthesizer lens, so that the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive virtual reality VR mobile computer with various size screen displays;

When the local area of the electric control dimming screen is matched with the adjusted display shape and size of the projection content area of the micro-display and is adjusted and set to be in an opaque state, and the rest area around the local area is adjusted and set to be in a transparent state, the optical synthesizer lens superimposes the projection image from the micro-display on the opaque image of the electric control dimming screen to form a superimposed image, and the superimposed image and the surrounding real image formed by the real environment through the electric control dimming screen are combined in the field of view of a user, so that the field of view environment of the user has images and display areas similar to those of a PC computer display screen, and the glasses-packed computer device added with the movable keyboard and mouse becomes a movable interactive wearable computer with multiple-size computer display screens capable of being called;

The intelligent mobile phone can be taken off from the glasses-packaged computer device to be used independently, so that the original ecological resources of the intelligent mobile phone are maintained.

The mobile operating system comprises ios, android or hong Meng; the PC desktop computer operating system comprises win10, yongzhong, red flag or Remix OS. The mobile man-machine interaction method is used, and an operating system of the desktop computer is introduced into the mobile.

The glasses-packed computer device has the application method of various mainstream machine technologies and more ecological resources.

Compared with the prior art, the invention has the following beneficial effects: the bag-type computer device has the advantages of novel structure, reasonable design, small volume, light weight, convenient use, portability and strong practicability, not only has the basic storage function of shoulder bags, but also realizes the mobile man-machine interaction, is beneficial to outgoing office work, and makes up for the short plates of the key technology of the mobile man-machine interaction existing for many years.

In the invention, when the glasses display device displays the content of Augmented Reality (AR) and the display content of a PC-like computer with the capability of enhancing the behavior of an active person, the electronic control dimming screen with the transmittance of a light transmission area capable of being adjusted as required can be used for blocking external strong light, so that the external strong light can be effectively prevented from influencing the projection effect of a lens display area.

The computer device overcomes the defect of poor small endurance capacity of a smart phone screen; introducing PC computers which cannot enter the mobile field for many years into the mobile field, so that people can obtain man-machine interaction output picture information of a smart phone screen, a small banner mobile screen, a notebook computer screen, a PC desktop computer screen and a wall built-up large screen; the device also enables new technologies such as big data, artificial intelligence, VR technology, AR technology, robots, the Internet of things and the like to have a more efficient mobile platform.

The mobile man-machine interaction method of the invention also enables scientific and technological productivity calculation in calculation tasks to occupy most of the cloud computing technology floor mobile field, and simultaneously enables the operation system software including W10 of various desktop PC computers to immediately enter the mobile field capable of being controlled in a strolling way without any modification, thereby solving the difficult problem of years of indistinct of known companies in the world.

Drawings

The invention is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a schematic illustration of a weld of the present invention;

FIG. 2 is a schematic diagram of a glasses display;

FIG. 3 is a schematic diagram showing the matching of the opaque areas of each electrically controlled dimming screen with corresponding projection images when the size gear n is 0, 1,2, 3 and the gear;

FIG. 4 is a side schematic view of a eyeglass display;

FIG. 5 is a schematic front view of a eyeglass display;

In the figure: 1-bag body, 110-bag cover, 120-bag belt, 200-smart phone, 300-keyboard, 400-mouse and 600-auxiliary power supply device;

11-an eyeglass display; a headset of a 12-glass display; 13-dimming electronic control module of the eyeglass display; 14-a drive module for the eyeglass display; 15-an optical synthesizer lens; 16-electric control dimming screen; 17-a micro display; 18-eyeglass holders; 19-a camera; 20-opaque regions;

100-an opaque region at display size range n=0; 101-an opaque region at display size range n=1; 102-an opaque region when the size range n=2 is displayed; 103-opaque area at display size range n=3;

A100-when the display size gear n=0, the projection image content area in the opaque area in the visual field of the user;

a101-when the display size gear n=1, the user is located in the projection image content area of the opaque area in the visual field;

a102-when the display size gear n=2, the projection image content area is positioned in the opaque area in the visual field of the user;

a103, when the display size gear n=3, the projection image content area positioned in the opaque area in the visual field of the user;

a111—transparent areas on the electronically controlled dimming screen 16 that are not turned into an opaque state.

Detailed Description

As shown in fig. 1 to 5, the glasses-packed computer device comprises a bag body 1 of a shoulder bag with an opening at the upper side, a smart phone 200 detachably installed on the outer side surface or the inner cavity of the bag, a keyboard 300 connected with the smart phone in a wired or wireless mode and covered by a cover 110 and a follower mouse 400 carried by a shoulder bag carrier, wherein the keyboard 300 is arranged on the outer side surface of the bag in a wired or wireless mode; the arrangement of English letters of keys on the keyboard is the same as that of English letters of the keys of a Kedi (qwert) keyboard in the prior art, the English letters are arranged according to the direction of character feet towards the shoulder bag Bao Kou, the character heads are arranged towards the bottom of the shoulder bag, and the intelligent mobile phone, the keyboard and the accompanying mouse combined by the shoulder bag become a mobile man-machine interaction input computing device capable of being used in a strolling mode;

The glasses bag type computer device also comprises a glasses display connected with the smart phone through a wired or wireless screen, and the defects that the PC desktop computer display is too large in appearance and too heavy in weight, the smart phone screen is too small and the smart phone screen needs to be watched in a handheld manner are overcome;

The glasses bag type computer device combined by the mobile man-machine interaction input computing device and the glasses display introduces the PC desktop computer into the movement, so that the intelligent mobile phone is provided with an efficient keyboard and mouse input device, and the work of the PC desktop computer and the intelligent mobile phone can be completed by one machine.

The glasses display is used for transmitting a projection image to be displayed to eyes of a user through an optical path when in operation, the size of a content area in the projection image is adjustable, and meanwhile, the glasses display forms an opaque area with adjustable size through an electric control dimming screen in front of an optical synthesizer lens, so that the content area of the projection image projected to the field of view of the user can be displayed in the opaque area of the electric control dimming screen in the field of view of the user, and a user of the computer device can obtain the information display of an opaque screen image originally existing in a static field of view environment in which the user sits and uses a PC desktop computer in the moving field of view environment;

The eyeglass display comprises an eyeglass bracket worn on the head, wherein the eyeglass bracket is provided with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating projection image signals; an electric control dimming screen which can be set to be in a transparent state is arranged in front of the optical synthesizer lens; the dimming screen is an electrically-induced color-adjusting dimming material screen; the selection range of the electrically tunable dimming material screen includes, but is not limited to, a liquid crystal display dimming screen LCD or an organic electroluminescent display dimming screen OLED;

The micro display comprises a driving module; the driving module is connected with the electric control dimming screen which can be set to be in a transparent state, and part or all of the area of the electric control dimming screen can be set to be in a transparent state;

when the glasses display works, the area which is not converted into an opaque state by the electric control dimming screen is a transparent area; the wearer can see the environment after the electric control dimming screen through the transparent area; the driving module drives the electric control dimming screen to enable the opaque area of the electric control dimming screen to correspond to the content area of the projection image, so that the content area of the projection image is displayed at the opaque area of the electric control dimming screen in the field of view of a user; the size of the projected image content area is adjustable to provide different screen display images required by the user of the computer device.

The following mouse is either a touch pad mouse arranged on the periphery of the keyboard, or a finger ring mouse in the prior art worn on the finger of a person carrying the satchel, or a touch screen mouse provided with a screen touch mouse application program APP and arranged on the periphery of the keyboard and of the smart phone, or another touch pad mouse 400 arranged on the bag surface of the shoulder bag and connected with the end head of the bag strap, and the other touch pad mouse is independently used when the person carrying the shoulder bag walks.

The auxiliary power supply device 600 is installed to the inclusion bottom, establish charge control module in the auxiliary power supply for smart mobile phone, keyboard, touch pad mouse direct connection power supply continue the duration, establish docking station module and extension external connection mouth in, the extension external connection mouth includes but is not limited to external interface that charges, external video interface, external audio interface, TF/SD card interface, USB interface, auxiliary power supply device is for smart mobile phone provides the data line connection position plug for its extension machine outer multi-device interface and the direct duration of integral connection to solve traditional mobile phone duration poor, often charge and connect the line trouble of the outer multi-device of extension machine.

The glasses-packed computer device is connected with the smart phone through the keyboard and at least one follow-up mouse, and uses a man-machine interaction interface of a window operating system to select one display at a display screen of the smart phone or a display screen of a glasses display in a single-screen mode or simultaneously display at the display screen of the smart phone and the display screen of the glasses display in a synchronous mode or an expansion mode, so that mobile man-machine interaction capable of being used in a strolling mode is implemented;

When mobile man-machine interaction is implemented, the smart phone can use a PC desktop computer operating system; the PC desktop operating system is either a PC desktop operating system of a cloud host called by a cloud computer application program APP on the smart phone or a PC desktop operating system additionally arranged in the smart phone; the operating system additionally arranged in the intelligent mobile phone and the original pre-installed mobile operating system can be mutually switched;

According to the mobile man-machine interaction method, PC computers which cannot enter the mobile field for many years enter the mobile field, and new technologies such as robots, big data, artificial intelligence and the Internet of things are provided with more efficient mobile platforms;

according to the mobile man-machine interaction method, cloud computing accounting for most of scientific and technological productivity computation enters the mobile field, and meanwhile, operating system software of various desktop PC computers enters the mobile field without modification.

The mobile man-machine interaction further comprises a pair of headsets 12 arranged on the left ear and the right ear on the glasses display, wherein the headsets are used for carrying out man-machine interaction for inputting and receiving audio information for the smart phone; the headset is connected with the smart phone in a wired mode or a wireless mode including a Bluetooth mode.

The shoulder bag is provided with a through window hole exposing the screen of the mobile phone at the position corresponding to the smart phone, and when the glasses bag type computer device is required to be used for propaganda and display, or the smart phone is required to be used for beautifying and displaying the bag body, a user operates the smart phone to enable the user to show videos or display pictures through the window hole.

The intelligent mobile phone is provided with an application program APP which detects the walking speed of a user by using a navigation module and automatically adjusts the size of a content area in the projection image of the eyeglass display in a stepping mode according to the walking speed;

When the travelling speed of the user is high or the user is in a running state, the content area can be automatically adjusted to be a man-machine interaction output picture in a moving scroll shape with a small lower part of the visual field of the user;

When a user walks, the content area can be automatically adjusted to be the size of the lower part of the visual field of the user, such as a man-machine interaction output picture of a notebook computer display screen or a PC desktop computer display screen;

when a user stops walking or sits down, the content area can be automatically adjusted to be a man-machine interaction output picture with the size at the center of the visual field of the user, such as a wall-mounted large-screen display screen;

According to the mobile man-machine interaction method, a user of the computer device can obtain more man-machine interaction output pictures of a smart phone screen, a small scroll mobile screen, a notebook computer screen, a PC desktop computer screen and a wall built-up screen at any time and any place.

The carrying method of the glasses-packed computer device comprises the steps that the inner cavity of the bag body contains the accompanying daily necessities for carrying pedestrians; the bag body is provided with a soft cushion, when a traveler manipulates the keyboard, the shoulder bag computer device is carried around the front shoulder and/or neck, and the wrists and/or palms and/or tiger mouths of the two hands are/is rested on the soft cushion of the bag body, and the weight of the two hands is born by the bag belt 120 so as to reduce arm fatigue;

when the eyeglass display is not worn by a user, the eyeglass display can be received in the interior cavity of the bag.

The above mentioned glasses display includes a glasses bracket worn on the head, the glasses bracket is equipped with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating a projection image signal, and the size of a content area of the projection image is adjustable; an electric control dimming screen is arranged in front of the optical synthesizer lens, and the micro display comprises a driving module; the driving module is connected with the electric control dimming screen and can regulate and control partial or all areas of the electric control dimming screen to be in a transparent or opaque state;

When all the areas of the electric control dimming screen are regulated and set to be in a transparent state, the optical synthesizer lens superimposes the projection image with the adjustable size of the content area from the micro-display on the image formed by the electric control dimming screen from the real environment view, so as to form the display image output of the augmented reality AR with various screens with different sizes, and the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive augmented reality AR mobile computer with various screen displays with various sizes;

When all the areas of the electric control dimming screen are regulated and set to be in an opaque state, only the display image output of the virtual reality VR formed by the virtual reality projection with the adjustable size of the content area of the micro-display is output on the optical synthesizer lens, so that the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive virtual reality VR mobile computer with various size screen displays;

When the local area of the electric control dimming screen is matched with the adjusted display shape and size of the projection content area of the micro-display and is adjusted and set to be in an opaque state, and the rest area around the local area is adjusted and set to be in a transparent state, the optical synthesizer lens superimposes the projection image from the micro-display on the opaque image of the electric control dimming screen to form a superimposed image, and the superimposed image and the surrounding real image formed by the real environment through the electric control dimming screen are combined in the field of view of a user, so that the field of view environment of the user has images and display areas similar to those of a PC computer display screen, and the glasses-packed computer device added with the movable keyboard and mouse becomes a movable interactive wearable computer with multiple-size computer display screens capable of being called;

The intelligent mobile phone can be taken off from the glasses-packaged computer device to be used independently, so that the original ecological resources of the intelligent mobile phone are maintained.

Example 1:

As shown in fig. 1, a bag-type computer device comprises a shoulder bag body with an opening at the upper side, wherein the shoulder bag body is a shoulder bag body, the bag body is rectangular and blocky, and a smart phone 200, a keyboard 300 and a touch pad mouse 400 which are connected with the smart phone 200 in a wired or wireless way (including a bluetooth way) are arranged on the outer side surface of the bag body; the lower edge of the outer side surface of the bag body is connected with a bag cover 110 which can cover the outer side surface of the bag body and the opening of the bag body, and as the keyboard and the smart phone are arranged outside the bag body, the bag body can still contain the accompanying daily necessities carrying pedestrians; the bag cover consists of three parts, namely a main body part covered on the outer side surface of the bag body, a first turnover part for sealing the opening of the bag body and a second turnover part fixed on the upper part of the other outer side surface without a keyboard of the bag body, wherein the second turnover part is connected with the upper part of the outer side surface of the bag body in a magnet or fixing buckle mode. Bluetooth wireless connection can be adopted between the keyboard 300 and the touch pad mouse 400 as well as between the keyboard and the smart phone, and wired connection can also be carried out by adopting OTG data wires; the smart phone and the glasses display can be connected in a wireless screen-throwing mode, and can also be connected in a wired mode through an adapter wire; and the mobile man-machine interaction is realized together with the mobile keyboard and the following mouse of the packaged computer device.

The intelligent mobile phone uses an operating system of the mobile terminal intelligent mobile phone and/or an operating system of the PC desktop computer and can be mutually switched; the computer device enables the man-machine interaction method of the existing technological and productivity calculation to enter the mobile terminal, and becomes a mobile man-machine interaction method.

The operating system used by the smart phone is characterized in that the operating system such as one of ios, android, and Hongding of one smart phone is initially installed on the smart phone, and the operating system such as one of win10, yongzhong, red flag, remix OS and the like used by another PC is installed in the smart phone to be directly used or installed in a cloud computer host by utilizing the existing technology of installing double operating systems by one phone, and is indirectly used by a cloud computer application program APP installed in the smart phone.

In the embodiment, the bag body is connected with the bag belt 120, and two ends of the bag belt 120 are respectively connected with two ends of the bag body, so that the bag is convenient to carry over shoulder; a soft cushion is arranged at the opening of the bag body; the bag belt of the bag-type computer host can be hung on the shoulder and neck or neck of a standing or walking person, when the person carries the shoulder bag-type computer device around the front shoulder and/or neck, the wrists and/or palms and the tiger of the hands are/is rested on the cushion of the bag mouth to control the keyboard, and the shoulder bag belt can bear the weight of the hands to reduce fatigue.

In this embodiment, the auxiliary power supply device 600 is installed at the bottom of the bag body; the auxiliary power supply device is characterized in that a battery core and a controller are arranged in the auxiliary power supply device, the controller comprises a charging control module which is used for supplying power to the smart phone, a keyboard and a touch pad mouse in a direct-connection mode for continuous endurance, the docking station module is used for extending an external connection port of the smart phone, such as an external charging interface, an external video interface, an external audio interface, a TF/SD card interface, a USB interface and the like, and the auxiliary power supply device is used for providing a data line connection plug for the smart phone. The shell of the power auxiliary device is integrally provided with a headset accommodating groove, the glasses display 18 is also provided with a pair of Bluetooth headsets 12, and the Bluetooth headsets are used for carrying out man-machine interaction of inputting and receiving audio information for the smart phone.

In this embodiment, the keyboard 300 is located at the lower part of the Bao Tiwai side, and the smart phone 200 and the touch pad mouse 400 are located at the upper part of the outer side of the bag; the keyboard 300, the smart phone and the touch pad mouse are spliced into a rectangular structure with the size slightly smaller than the size of the outer side surface of the bag body, the arrangement of English letters of keys on the keyboard is the same as that of English letters of keys of a Kedi (qwert) keyboard in the prior art, the English letters on the keyboard face to the opening of the bag body according to the character feet, and the character heads face to the bottom direction of the bag body.

In this embodiment, a transparent window hole exposing the screen of the smart phone is formed on the cover 110 at a position corresponding to the smart phone, and when the propaganda display is needed or the bag body is needed to be beautified, the user can operate the smart phone to show a video or a display picture through the window hole.

The invention innovates a simple and practical package type computer device for introducing science and technology and productivity calculation into the mobile internet, so that the common PC computer operating system software of people can immediately enter the mobile field without modification, and the short board of the key technology of mobile man-machine interaction without science and technology and productivity calculation existing for many years is made up; the system can also be used as a mobile platform for robots, cloud computing and 5G technology.

Example 2:

When all the areas of the electric control dimming screen are regulated to be in a transparent state, the optical synthesizer lens superimposes the projection image from the micro-display on the image formed by the field of view of the real environment through the electric control dimming screen to form the display image output of the augmented reality AR, and the display image output of the AR of the glasses display is matched with the keyboard at the bag body and the man-machine interaction input equipment of the mouse, and the smart phone is added, so that the invention has the purpose of using the AR technology in a man-machine interaction mode with high efficiency and high skill of the existing technology and productivity under the moving condition, the using capability of the AR technology is improved, and the using range of the technology is enlarged;

When all the areas of the electric control dimming screen are regulated to be in an opaque state, only the display image output of the virtual reality VR formed by the virtual reality projection of the micro-display is arranged on the optical synthesizer lens, the display image output of the VR of the glasses display is matched with the folding keyboard at the bag body and the man-machine interaction input equipment of the mouse, and the intelligent mobile phone is added, so that the invention has the purpose of using VR technology in a man-machine interaction mode with high efficiency and high skill of the existing technology and productivity under the moving condition, the use capacity of the VR technology is improved, and the use range of the technology is enlarged;

When the local area of the electric control dimming screen is matched with the adjusting shape of the projection content area of the micro-display and is adjusted to be in an opaque state, and the rest area around the local area is adjusted to be in a transparent state, the optical synthesizer lens is used for superposing the projection image of the micro-display on the opaque image of the electric control dimming screen to form a superposed image, the superposed image and the surrounding real image formed by the electric control dimming screen through the real environment are combined in the field of view of a user, so that the field of view of the user has the image display output similar to the PC computer display screen, and the image display output similar to the PC computer display screen of the glasses display is matched with the keyboard at the bag body and the man-machine interaction input equipment of the mouse.

Any of the above-described embodiments of the present invention disclosed herein, unless otherwise stated, if they disclose a numerical range, then the disclosed numerical range is the preferred numerical range, as will be appreciated by those of skill in the art: the preferred numerical ranges are merely those of the many possible numerical values where technical effects are more pronounced or representative. Since the numerical values are more and cannot be exhausted, only a part of the numerical values are disclosed to illustrate the technical scheme of the invention, and the numerical values listed above should not limit the protection scope of the invention.

If the invention discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixed connection is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the invention can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical scheme of the present invention and are not limiting; while the invention has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present invention or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the invention, it is intended to cover the scope of the invention as claimed.

Claims (8)

1. Glasses package formula computer unit, its characterized in that: the device comprises a bag body of the shoulder carrying bag with an opening at the upper side, a smart phone arranged on the outer side surface of the bag or in a detachable manner in the inner cavity of the bag, a keyboard arranged on the outer side surface of the bag, connected with the smart phone in a wired manner or a wireless manner and covered by a bag cover, and a follower mouse carried by a person carrying the shoulder carrying bag; the arrangement of English letters of keys on the keyboard is the same as that of English letters of the keys of a Kedi (qwert) keyboard in the prior art, the English letters are arranged according to the direction of character feet towards the shoulder bag Bao Kou, and the character heads are arranged towards the bottom of the shoulder bag;

the glasses bag type computer device further comprises a glasses display connected with the intelligent mobile phone through a wired or wireless screen;

The glasses display is used for transmitting a projection image to be displayed to eyes of a user through an optical path when in operation, the size of a content area in the projection image is adjustable, and meanwhile, the glasses display forms an opaque area with adjustable size through an electric control dimming screen in front of an optical synthesizer lens, so that the content area of the projection image projected to the view of the user can be displayed in the opaque area of the electric control dimming screen in the view of the user;

The eyeglass display comprises an eyeglass bracket worn on the head, wherein the eyeglass bracket is provided with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating projection image signals; an electric control dimming screen which can be set to be in a transparent state is arranged in front of the optical synthesizer lens; the dimming screen is an electrically-induced color-adjusting dimming material screen; the selection range of the electrically tunable dimming material screen includes, but is not limited to, a liquid crystal display dimming screen LCD or an organic electroluminescent display dimming screen OLED;

The micro display comprises a driving module; the driving module is connected with the electric control dimming screen which can be set to be in a transparent state, and part or all of the area of the electric control dimming screen can be set to be in a transparent state;

when the glasses display works, the area which is not converted into an opaque state by the electric control dimming screen is a transparent area; the wearer can see the environment after the electric control dimming screen through the transparent area; the driving module drives the electric control dimming screen to enable the opaque area of the electric control dimming screen to correspond to the content area of the projection image, so that the content area of the projection image is displayed at the opaque area of the electric control dimming screen in the field of view of a user; the size of the projection image content area is adjustable;

the glasses-packed computer device is connected with the smart phone through the keyboard and at least one follow-up mouse, and uses a man-machine interaction interface of a window operating system to select one for display at a display screen of the smart phone or a display screen of a glasses display in a single-screen mode, or simultaneously display at the display screen of the smart phone and the display screen of the glasses display in a synchronous mode or an expansion mode, so that mobile man-machine interaction capable of being used in a strolling mode is implemented;

When mobile man-machine interaction is implemented, the smart phone can use a PC desktop computer operating system; the PC desktop operating system is either a PC desktop operating system of a cloud host called by a cloud computer application program APP on the smart phone or a PC desktop operating system additionally arranged in the smart phone; the operating system additionally arranged in the intelligent mobile phone and the original pre-installed mobile operating system can be mutually switched;

When the glasses display device displays the content of the augmented reality AR and the display content similar to a PC computer for enhancing the behavior capability of a living person, an electric control dimming screen for adjusting the transmittance of a light transmission area of the glasses display device according to the requirement is used for blocking external strong light, so that the external strong light is prevented from influencing the projection effect of a lens display area, and the display content takes a black liquid crystal screen as a background, so that the projection image of the glasses display device achieves higher contrast in the field of view of a user and is more suitable for being used in an outdoor environment;

the intelligent mobile phone is provided with an application program APP which detects the walking speed of a user by using a navigation module and automatically adjusts the size of a content area in the projection image of the eyeglass display in a stepping mode according to the walking speed;

When the travelling speed of the user is high or the user is in a running state, the content area can be automatically adjusted to be a man-machine interaction output picture in a moving scroll shape with a small lower part of the visual field of the user;

When a user walks, the content area can be automatically adjusted to be the size of the lower part of the visual field of the user, such as a man-machine interaction output picture of a notebook computer display screen or a PC desktop computer display screen;

when a user stops walking or sits down, the content area can be automatically adjusted to be a man-machine interaction output picture with the size at the center of the visual field of the user, such as a wall-mounted large-screen display screen;

the glasses display automatically adjusts the size of the interactive interface according to the walking speed of the user so as to reduce the visual field interference of the glasses display on the walking state of the user.

2. The eyewear package of computer device of claim 1 wherein: the following mouse is either a touch pad mouse arranged on the periphery of the keyboard, or a finger ring mouse in the prior art worn on the finger of a person carrying the shoulder bag, or a touch screen mouse provided with a screen touch mouse application program APP and arranged on the periphery of the keyboard of the smart phone, or another touch pad mouse arranged on the bag surface of the shoulder bag at one side of the end of the connecting bag strap.

3. The eyewear package of computer device of claim 1 wherein: an auxiliary power supply device is arranged at the bottom of the bag body, a charging control module is arranged in the auxiliary power supply device for supplying power to the smart phone, a keyboard and a touch pad mouse in a direct connection mode for continuous endurance, a docking station module and an expansion external connection port are arranged in the auxiliary power supply device, the expansion external connection port comprises, but is not limited to, an external charging interface, an external video interface, an external audio interface, a TF/SD card interface and a USB interface, and the auxiliary power supply device provides a data line connection bit plug for the smart phone.

4. The eyewear package of computer device of claim 1 wherein: the mobile man-machine interaction further comprises a pair of headsets arranged on the left ear and the right ear on the glasses display, and the headsets are used for carrying out man-machine interaction for inputting and receiving audio information for the intelligent mobile phone; the headset is connected with the smart phone in a wired mode or a wireless mode including a Bluetooth mode.

5. The glasses-pack type computer device according to claim 4, wherein: the shoulder bag is provided with a through window hole exposing the screen of the mobile phone at the position corresponding to the smart phone, and when the glasses bag type computer device is required to be used for propaganda and display, or the smart phone is required to be used for beautifying and displaying the bag body, a user operates the smart phone to enable the user to show videos or display pictures through the window hole.

6. The carrying method of the glasses bag type computer device is characterized in that: a glasses-pack type computer device as claimed in claim 3, wherein the travel carrying method is that the inner cavity of the bag body accommodates the accompanying daily necessities carrying the pedestrians; the bag body is provided with a soft cushion, when a traveler manipulates the keyboard, the shoulder bag computer device is carried around the front shoulder and/or neck, and the wrists and/or palms and/or tiger mouths of the two hands are/is rested on the soft cushion of the bag body, and the weight of the two hands is born by the bag belt so as to reduce arm fatigue;

when the eyeglass display is not worn by a user, the eyeglass display can be received in the interior cavity of the bag.

7. The application method of the glasses-packed computer device is characterized in that: the eyewear display of claim 1 comprising a head-mounted eyewear mount provided with a pair of optical synthesizer lenses; the periphery of the optical synthesizer lens is provided with a micro-display for generating a projection image signal, and the size of a content area of the projection image is adjustable; an electric control dimming screen is arranged in front of the optical synthesizer lens, and the micro display comprises a driving module; the driving module is connected with the electric control dimming screen and can regulate and control partial or all areas of the electric control dimming screen to be in a transparent or opaque state;

When all the areas of the electric control dimming screen are regulated and set to be in a transparent state, the optical synthesizer lens superimposes the projection image with the adjustable size of the content area from the micro-display on the image formed by the electric control dimming screen from the real environment view, so as to form the display image output of the augmented reality AR with various screens with different sizes, and the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive augmented reality AR mobile computer with various screen displays with various sizes;

When all the areas of the electric control dimming screen are regulated and set to be in an opaque state, only the display image output of the virtual reality VR formed by the virtual reality projection with the adjustable size of the content area of the micro-display is output on the optical synthesizer lens, so that the glasses-packed computer device added with the movable keyboard and the mouse becomes a movable interactive virtual reality VR mobile computer with various size screen displays;

When the local area of the electric control dimming screen is matched with the adjusted display shape and size of the projection content area of the micro-display and is adjusted and controlled to be in an opaque state, and the rest areas around the local area are adjusted and controlled to be in a transparent state, the optical synthesizer lens superimposes the projection image from the micro-display on the opaque image of the electric control dimming screen to form a superimposed image, and the superimposed image and the surrounding real image formed by the real environment through the electric control dimming screen are combined in the field of view of a user, so that the image and the display area similar to the PC computer display screen are arranged in the field of view environment of the user, and the glasses-packed computer device with the movable keyboard and the mouse is made into a movable interactive wearable computer with multiple-size computer display screens capable of being called.

8. The method of using a glasses-pack type computer device according to claim 7, wherein: the intelligent mobile phone can be taken off from the glasses-packaged computer device to be used independently, so that the original ecological resources of the intelligent mobile phone are maintained.