CN203849501U - Head-wearing electronic display device - Google Patents

Abstract

The utility model relates to the technical field of head-wearing display and provides a head-wearing electronic display device. The head-wearing electronic display device comprises a hollow supporting part used for being contacted with the face part of a human being to support the head-wearing electronic display device, a mirror reflection display cabin connected with the supporting part, and an electronic module used for displaying pictures and/or playing videos. The electronic module comprises a display screen facing inside the mirror reflection display cabin. The mirror reflection display cabin is provided with at least two cabin surfaces, the cabin surface located at the electronic module display screen is provided with an electronic module display screen opening used for presenting the picture on the electronic module display screen in the mirror reflection display cabin, and the human eye can watch the electronic module display screen picture reflected by the mirror reflection display cabin via the hollow supporting part. The head-wearing electronic display device is free of edge blur, high in portable performance, convenient in operation and is suitable for watching by people on glasses.

Description

Head-mounted electronic display device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a wear-type shows technical field, especially relates to a wear-type electronic display device.

[ background of the invention ]

The head-mounted display is a brand new technology in modern display technology, and has very important application in the aspects of enhanced display, virtual display, stereoscopic display and the like. The development of high-resolution image reconstruction technology, the perfection of binary optical theory and design and the maturity of holographic technology open up a new way for the design of head-mounted displays. Head-mounted displays involve a wide variety of technologies including projection technology, display technology, optical technology, ergonomics, somatosensory interaction technology, and the like. The following products are mainly available in the field of head-mounted displays:

oculus Rift is a piece of head mounted display developed by Oculus VR corporation that is designed for video games. The head-mounted display has two eyepieces, each having a resolution of 640 x 800, and the two eyes have a resolution of 1280 x 800 after visual merging. The game product features a gyroscope-controlled viewing angle, so that the immersion of the game is greatly improved. The virtual reality glasses of the Oculus Rift can be connected with a computer or a game machine through DVI, HDMI and micro USB interfaces. However, the head-mounted display has the following defects:

1. granular feel: because the technology of 1 inch micro display screen and lens magnification is adopted, the picture graininess caused by insufficient screen resolution is very strong, and the visual experience is not good;

2. blurring of edges: the hard injury caused by the lens principle is insufficient in adjusting amplitude aiming at different pupil distances, and the peripheral edge blurring is basically not solved;

3. portability: the body is not provided with a battery and an operating system and is only a simple head-mounted display, so the body is required to be connected with a computer through an HDMI (high-definition multimedia interface), and the portability is not strong;

4. the wearing property: is not suitable for people wearing glasses to watch;

5. vertigo sensation: because of the fuzzy problem of the picture edge, the wearing time is long, the dizzy feeling is generated, and the vomit phenomenon is generated seriously;

6. universality: can only be connected with a computer, and a special drive program must be installed;

7. operability is as follows: the requirement on the level of a user computer is high, and the installation and the use are troublesome.

Second, a new generation of head-mounted display manufactured by SONY company uses a double OLED screen, supports 3D display and Wireless video transmission functions, and comprises two models, namely HMZ-T3W and wired HMZ-T3, which support Wireless HD Wireless display. In terms of display screen, the HMZ-T3 can achieve a super-shocking audio-visual effect equivalent to a television set 750 inches within 20 meters using two 0.7 inch (1280 × 720) OLED displays. HMZ-T3 has promoted the sense of dress and picture image display function, and the host computer adopts external design, can dispose the external battery of 3 hours additional. The host part of the HMZ-T3 display supports MHL and HDMI input, and can be directly connected with mobile equipment such as a smart phone and a tablet computer. However, the head-mounted display has the following defects:

1. blurring of edges: the hard injury caused by the lens principle is insufficient in adjusting amplitude aiming at different pupil distances, and the peripheral edge blurring is basically not solved;

2. portability: the body is not provided with a battery and an operating system and is only a simple head-mounted display, so the body is required to be connected with a computer or a mobile phone through HDMI, and the portability is not strong;

3. endurance: the battery in the external battery box can only continue the journey for about 3 hours;

4. universality: the HDMI interface can be used only by being connected with equipment such as a computer, a DVD, a mobile phone and the like which can output HDMI signals;

5. operability is as follows: the requirement on the level of a user computer is high, and the installation and the use are troublesome;

6. the wearing property: is not suitable for people wearing glasses to watch.

In view of the above, it is an urgent problem in the art to overcome the above-mentioned drawbacks of the prior art.

[ Utility model ] content

The to-be-solved technical problem of the utility model is to provide a head-mounted electronic display device, no edge is fuzzy, and the portability is high, convenient operation, and the crowd who is fit for wearing glasses watches.

The utility model adopts the following technical scheme:

an embodiment of the utility model provides a head-mounted electronic display device, head-mounted electronic display device includes:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror reflection display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the inside of the specular reflection display bin;

the mirror reflection display bin is provided with at least 2 bin surfaces, wherein the bin surface positioned at the position of the electronic module display screen is provided with an electronic module display screen opening for enabling the picture of the electronic module display screen to be displayed in the mirror reflection display bin;

human eyes can watch the picture of the electronic module display screen reflected by the mirror reflection display bin through the hollow supporting part.

The embodiment of the utility model provides another kind of head-mounted electronic display device, head-mounted electronic display device includes:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror reflection display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the inside of the specular reflection display bin;

the mirror reflection display bin is internally provided with 2 groups of reflection units, and each group of reflection units is provided with at least 4 pieces of high-reflectivity front coated mirror glass, rear coated mirror glass, PVC mirror glass, metal stainless steel mirror or mirror paper;

the bin surface of the mirror reflection display bin, which is positioned at the electronic module display screen, is provided with an electronic module display screen opening for displaying the picture of the electronic module display screen in the mirror reflection display bin;

a lens group A is arranged at the joint of the supporting part and the mirror reflection display bin; a lens group B is arranged at the position of the mirror reflection display bin, which is positioned at the display screen of the electronic module; the lens group A and the lens group B respectively have at least 2 lenses;

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B, reflected by the mirror reflection display bin and transmitted by the lens group A through the hollow supporting part.

The embodiment of the utility model provides a still another head-mounted electronic display device, head-mounted electronic display device includes:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror surface refraction display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the mirror refraction display bin;

the mirror surface refraction display bin is internally provided with 2 groups of refraction units, and each group of refraction units is provided with at least 1 prism;

the bin surface of the mirror surface refraction display bin, which is positioned at the position of the electronic module display screen, is provided with an electronic module display screen opening for enabling the picture of the electronic module display screen to be displayed in the mirror surface refraction display bin;

a lens group A' is arranged at the joint of the supporting part and the mirror refraction display bin; the mirror refraction display bin is arranged at the position of the display screen of the electronic module and is provided with a lens group B'; the lens group A 'and the lens group B' are respectively provided with at least 2 lenses;

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B ', refracted by the mirror refraction display bin and transmitted by the lens group A' through the hollow supporting part.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. no edge blur: the utility model adopts the technology of directly reflecting the picture of the electronic module display screen to the human eyes by the front coating mirror surface without adopting the lens amplification micro-display screen technology, has high picture reduction degree and does not have any edge blurring problem;

2. the portability is high: the body is provided with an electronic system and a battery, so that the portable multifunctional electric scooter is convenient to carry;

3. the operability is good: the product can be used without setting;

4. the wearing property is good: the glasses are suitable for people wearing glasses to watch;

5. the entertainment is good: the experience can be carried out anytime and anywhere.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of a head-mounted electronic display device according to embodiment 1 of the present invention;

fig. 2 is a schematic diagram of the head-mounted electronic display device according to embodiment 1 of the present invention in a disassembled state;

fig. 3 is a side view of a head-mounted electronic display device according to embodiment 1 of the present invention;

fig. 4 is a schematic structural diagram of a head-mounted electronic display device according to embodiment 2 of the present invention;

fig. 5 is a schematic structural diagram of a head-mounted electronic display device according to embodiment 3 of the present invention;

fig. 6 is a schematic structural diagram of a head-mounted electronic display device according to embodiment 4 of the present invention.

Reference numerals:

the electronic module comprises an electronic module 10, a display screen 11, a control button 12, a camera 13, a supporting part 20, a head fixing elastic band 21, a nose support 22, a forehead support 23, an eye shade 24, a mirror reflection display bin 30, a bin surface A31, a bin surface B32, a bin surface C33, a bin wall 34, an electronic module display screen opening 35, a bin surface A '41, a bin surface B' 42, a reflection unit 51, a lens group A52, a lens group B53, a mirror refraction display bin 60, a refraction unit 61, a lens group A '62, a lens group B' 63 and front coated mirror glass 70.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

In fig. 3-6, the double arrows indicate the light paths.

Example 1

The utility model discloses wear-type electronic display device accessible specular reflection's form watches the reflection picture of the electronic module display screen in the device, and it includes:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

a mirror reflection display chamber connected with the support part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the inside of the mirror reflection display bin;

the mirror reflection display bin is provided with at least 2 bin surfaces, wherein the bin surface positioned at the position of the electronic module display screen is provided with an electronic module display screen opening for enabling the picture of the electronic module display screen to be displayed in the mirror reflection display bin;

human eyes can watch the picture of the electronic module display screen reflected by the mirror reflection display bin through the hollow supporting part.

As shown in fig. 1-3, the structural schematic diagram of the head-mounted electronic display device according to embodiment 1 of the present invention includes an electronic module 10, a hollow supporting portion 20, and a specular reflection display chamber 30, wherein the specular reflection display chamber 30 has 3 chamber surfaces, which are a chamber surface a31, a chamber surface B32, and a chamber surface C33 connected in sequence, wherein the chamber surface a31 is connected to the supporting portion 20, and the chamber surface C33 is located at the electronic module display screen 11; high-reflectivity front coated mirror glass is mounted on the bin surface A31 and the bin surface B32, and an electronic module display screen opening 35 is formed in the bin surface C33. The specularly reflective display chamber 30 further includes two side chamber walls 34 for connecting the chamber faces to form a substantially enclosed chamber body.

The electronic module 10 includes electronic circuits and a battery, and can implement most functions of the smart phone or PAD, for example, installing various existing operating systems and APP software. As shown in fig. 1 and 2, in a preferred embodiment, a control button 12 for controlling the electronic module 10 is disposed on the outer side of the cabinet body of the specular reflection display cabinet 30, and the control button 12 is connected to the electronic module 10 by a flat cable. The camera 13 is arranged on the outer side of the mirror reflection display bin 30, which is in the same direction as the human eye sight line, and the camera 13 is connected with the electronic module 10 through a flat cable or Bluetooth for virtual augmented reality.

The front coated mirror glass is formed by coating a reflecting film in front of glass to form a mirror surface, has strong reflectivity, and can not generate secondary double images during reflection. In a preferred embodiment, the reflectivity of the front coated mirror glass, the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper is more than or equal to 99 percent.

As shown in fig. 2, in a preferred embodiment, the support portion 20 includes a nose pad 22 having a supporting function, a forehead pad 23, and an eyeshade 24 having a light-shielding function. The head-mounted electronic display device further comprises a head fixing elastic band 21, which is mounted on two sides of the bin body of the specular reflection display bin 30, for example, mounted on two side bin walls 34, and is used for cooperating with the supporting portion 20 to support the whole head-mounted electronic display device.

In this embodiment, the supporting portion and the bin body are made of plastic material or light plate material.

As shown in fig. 3, the included angle between the bin plane C33 (equivalent to the electronic module display screen 11) and the bin plane B32 (equivalent to the mirror plane of the finally seen picture) is in the range of 70-110 °, and the picture of the electronic module display screen 11 is not easily reflected by the mirror plane on the bin plane B32 directly so that the human eye can see two reflected pictures; the included angle between the bin surface A31 (which is equal to the mirror surface reflected for the first time) and the bin surface B32 ranges from 35 degrees to 75 degrees, and the deviation angle between the reflected picture in the electronic module display screen 11 and the observation position of human eyes is comfortable; the included angle between the parallel line of sight of the human eyes and the bin surface B32 ranges from 60 degrees to 120 degrees, and the human eyes can watch the glasses comfortably. In a preferred embodiment, the angle between the bin plane C33 and the bin plane B32 is 90 °, the angle between the bin plane a31 and the bin plane B32 is 55 °, and when the angle between the parallel line of sight of human eyes and the bin plane B32 is 80 °, the deviation angle between the reflected image in the electronic module display screen 11 and the observation position of human eyes is the most comfortable, and the viewing is the most comfortable.

In this embodiment, the technology of lens-magnifying micro-display screen commonly used in the head-mounted display is abandoned, and the technology of directly reflecting the picture of the display screen of the electronic module to human eyes by using front coated mirror glass or the like with a reflectivity of up to 99% is adopted, and at least one piece of mirror glass is used for reflection (for example, two pieces of mirror glass are used for twice reflection), so that the picture reduction degree is high, and no edge blur problem exists. The body is provided with an electronic system and a battery, is convenient to carry and is suitable for home travel and entertainment.

Example 2

The structure of this embodiment is similar to that of embodiment 1, and the reflection picture of the electronic module display screen in the device can also be viewed in the form of specular reflection, except that a mirror is reduced in the specular reflection display chamber of this embodiment. As shown in fig. 4, in example 2, the mirror reflection display bin (fig. 4 is only a schematic view, the bin body is shown to be open, and the actual product is closed) has 3 bin surfaces, namely a bin surface a ' 41, a bin surface B ' 42 and a bin surface C ' (not shown in the figure) which are connected in sequence; the bin face A '41 is provided with an electronic module display screen opening (not shown in the figure), and only the bin face B' 42 is provided with front coated mirror glass (not shown in the figure) with high reflectivity. In other embodiments, the front coated mirror glass can be replaced by the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper, and similar effects can be produced. In a preferred embodiment, the reflectivity of the front coated mirror glass, the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper is more than or equal to 99 percent.

In a preferred embodiment, as shown in fig. 4, the angle between the bin plane a '41 (equivalent to the display screen of the electronic module) and the bin plane B' 42 (equivalent to the mirror plane of the finally seen picture) is in the range of 35-75 °, and the angle of the deviation of the reflected picture in the display screen of the electronic module from the observation position of the human eyes is comfortable; the included angle between the parallel line of sight of the human eyes and the bin surface B' 42 ranges from 60 degrees to 120 degrees, and the human eyes can watch the glasses comfortably. In a preferred embodiment, the included angle between the bin surface a ' 41 and the bin surface B ' 42 is 55 °, the included angle between the parallel line of sight of human eyes and the bin surface B ' 42 is 80 °, and the deviation angle between the reflected picture in the electronic module display screen and the observation position of human eyes is the most comfortable and the most comfortable to watch.

The rest of the structure is similar to that of embodiment 1, and is not described herein.

In the embodiment, the common lens amplification micro-display screen technology of the head-mounted display is abandoned, the technology that the picture of the display screen of the electronic module is directly reflected to human eyes by the front coating mirror glass or the like with the reflectivity of 99 percent is adopted, and the mirror glass is used for reflection, so that the picture reduction degree is high, and no edge blurring problem exists. The body is provided with an electronic system and a battery, is convenient to carry and is suitable for home travel and entertainment.

Example 3

The utility model discloses wear-type electronic display device accessible many mirrors add lens and realize 3D stereoeffect, as shown in fig. 5, it includes:

a hollow support (not shown) for contacting with the human face to support the head-mounted electronic display device;

a mirror reflection display chamber 30 connected with the supporting part;

an electronic module (not shown) for displaying pictures and/or playing video, the electronic module comprising a display screen facing the inside of the mirror-reflective display chamber 30;

the mirror reflection display bin 30 is internally provided with 2 groups of reflection units 51, and each group of reflection units 51 is provided with at least 4 pieces of front coated mirror glass 70 with high reflectivity (each group is provided with 4 pieces in the embodiment);

the bin surface of the mirror reflection display bin 30, which is located at the electronic module display screen, is provided with an electronic module display screen opening (not shown in the figure) for displaying the picture of the electronic module display screen in the mirror reflection display bin 30;

a lens group A52 is arranged at the joint of the supporting part and the mirror reflection display bin 30; a lens group B53 is arranged at the position of the mirror reflection display bin 30 at the position of the electronic module display screen; the lens group a52 and the lens group B53 each have at least 2 lenses (in the present embodiment, each group is provided with 2 lenses, corresponding to the left and right eyes, respectively);

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B53, reflected by the mirror reflection display bin 30 and transmitted by the lens group A52 through the hollow supporting part.

The electronic module comprises an electronic circuit and a battery, and can realize most functions of the smart phone or the PAD, such as installing various existing operating systems and APP software. In a preferred embodiment, a control button for controlling the electronic module is disposed on the outer side of the mirror reflection display chamber 30, and the control button and the electronic module are connected by a flat cable. The outer side of the bin body of the mirror reflection display bin 30, which is the same as the direction of the sight of human eyes, is provided with a camera, and the camera is connected with the electronic module through a flat cable or Bluetooth and used for virtual augmented reality.

In other embodiments, the front coated mirror glass can be replaced by the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper, and similar effects can be produced. In a preferred embodiment, the reflectivity of the front coated mirror glass, the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper is more than or equal to 99 percent.

In a preferred embodiment (refer to fig. 1 and 2), the support portion includes a nose pad having a support function, a forehead pad, and an eyeshade having a light-shielding function. The head-wearing electronic display device also comprises a head fixing elastic band which is arranged on two sides of the bin body of the mirror reflection display bin and is used for being matched with the supporting part to support the head-wearing electronic display device.

In this embodiment, the supporting portion and the chamber body are made of plastic material or light plate material, and the lens is an injection-molded light lens.

In this embodiment, the common lens magnifying micro-display technology of the head-mounted display is abandoned, and a technology of transmitting the image of the electronic module display screen to human eyes through two groups of front coated mirror glass or similar multiple reflection lenses with the transmission-reflection rate up to 99% of the lenses is adopted to realize a 3D stereoscopic effect, so that the image reduction degree is high, and no edge blur problem exists. The body is provided with an electronic system and a battery, is convenient to carry and is suitable for home travel and entertainment.

Example 4

The utility model discloses wear-type electronic display device accessible prism adds lens and realizes the 3D stereoeffect, as shown in fig. 6, it includes:

a hollow support (not shown) for contacting with the human face to support the head-mounted electronic display device;

a mirror refraction display chamber 60 connected with the supporting part;

an electronic module (not shown) for displaying pictures and/or playing video, the electronic module comprising a display screen facing the inside of the specular reflection display chamber;

the mirror refraction display chamber 60 is provided with 2 groups of refraction units 61, each group of refraction units 61 has at least 1 prism (in the embodiment, each group has 1 prism);

the surface of the mirror refraction display bin 60, which is located at the electronic module display screen, is provided with an electronic module display screen opening (not shown in the figure) for displaying the picture of the electronic module display screen in the mirror refraction display bin 60;

a lens group A' 62 is arranged at the joint of the supporting part and the mirror refraction display bin; a lens group B' 63 is arranged at the position where the mirror refraction display bin 60 is positioned on the display screen of the electronic module; the lens group A '62 and the lens group B' 63 each have at least 2 lenses;

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B '63, refracted by the mirror refraction display bin 60 and transmitted by the lens group A' 62 through the hollow supporting part.

The electronic module comprises an electronic circuit and a battery, and can realize most functions of the smart phone or the PAD, such as installing various existing operating systems and APP software. In a preferred embodiment, a control button for controlling the electronic module is disposed on the outer side of the mirror refraction display bin 60, and the control button and the electronic module are connected by a flat cable. The outer side of the bin body, which is the same with the direction of the sight of human eyes, of the mirror surface refraction display bin 60 is provided with a camera, and the camera is connected with the electronic module through a flat cable or a Bluetooth for virtual augmented reality.

In other embodiments, the front coated mirror glass can be replaced by the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper, and similar effects can be produced. In a preferred embodiment, the reflectivity of the front coated mirror glass, the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper is more than or equal to 99 percent.

In a preferred embodiment (refer to fig. 1 and 2), the support portion includes a nose pad having a support function, a forehead pad, and an eyeshade having a light-shielding function. The head-wearing electronic display device also comprises a head fixing elastic band which is arranged on two sides of the bin body of the mirror reflection display bin and is used for being matched with the supporting part to support the head-wearing electronic display device.

In this embodiment, the supporting portion and the chamber body are made of plastic material or light plate material, and the lens is an injection-molded light lens.

In the embodiment, the common lens amplification micro-display screen technology of the head-mounted display is abandoned, the 3D stereoscopic effect is realized by adopting the technology of transmitting the picture of the electronic module display screen to human eyes through the lens transmission, the prism refraction and the lens transmission, the picture reduction degree is high, and no edge blurring problem exists. The body is provided with an electronic system and a battery, is convenient to carry and is suitable for home travel and entertainment.

The embodiment of the utility model provides a reduced head-mounted display device's cost, alleviateed the weight of equipment, made people liberate both hands when watching the film or playing games to can produce a lot of games and the experience of panorama film with the interactive experience of head motion, can not produce the produced interpupillary distance of lens magnification micro display screen technique and inaccurate and the dizzy sense that brings in edge, be fit for all crowds and watch.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A head-mounted electronic display device, comprising:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror reflection display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the inside of the specular reflection display bin;

the mirror reflection display bin is provided with at least 2 bin surfaces, wherein the bin surface positioned at the position of the electronic module display screen is provided with an electronic module display screen opening for enabling the picture of the electronic module display screen to be displayed in the mirror reflection display bin;

human eyes can watch the picture of the electronic module display screen reflected by the mirror reflection display bin through the hollow supporting part.

2. The head-mounted electronic display device of claim 1, wherein the specularly reflective display chamber further comprises two chamber walls for connecting the chamber faces to form a substantially enclosed chamber body; except the bin surface positioned at the display screen of the electronic module, the other bin surfaces are provided with high-reflectivity front coated mirror glass, rear coated mirror glass, PVC mirror glass, metal stainless steel mirror or mirror paper.

3. The head-mounted electronic display device of claim 1, wherein the mirror-reflective display chamber has 3 chamber surfaces, namely a chamber surface a, a chamber surface B and a chamber surface C, which are connected in sequence, wherein the chamber surface a is connected with the support portion, and the chamber surface C is located at the electronic module display screen; the bin surface A and the bin surface B are provided with high-reflectivity front coated mirror glass, rear coated mirror glass, PVC mirror glass, a metal stainless steel mirror or mirror paper, and the bin surface C is provided with an electronic module display screen opening; or,

the mirror reflection display bin is provided with 3 bin surfaces, namely a bin surface A ', a bin surface B ' and a bin surface C ' which are connected in sequence; the bin surface A ' is located at the position of the electronic module display screen, an electronic module display screen opening is formed in the bin surface A ', and high-reflectivity front coated mirror glass, rear coated mirror glass, PVC mirror glass, a metal stainless steel mirror or mirror paper are installed on the bin surface B '.

4. The head-mounted electronic display device of claim 3, wherein the angle between bin plane C and bin plane B is in the range of 70-110 °, the angle between bin plane A and bin plane B is in the range of 35-75 °, and the angle between the parallel line of sight of a human eye and bin plane B is in the range of 60-120 °; or,

the included angle between the bin surface A ' and the bin surface B ' ranges from 35 degrees to 75 degrees, and the included angle between the parallel sight line of human eyes and the bin surface B ' ranges from 60 degrees to 120 degrees.

5. The head-mounted electronic display device of claim 4, wherein the angle between bin plane C and bin plane B is 90 °, the angle between bin plane A and bin plane B is 55 °, and the angle between the parallel line of sight of a human eye and bin plane B is 80 °; or,

the included angle between the bin surface A ' and the bin surface B ' is 55 degrees, and the included angle between the parallel sight line of human eyes and the bin surface B ' is 80 degrees.

6. A head-mounted electronic display device, comprising:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror reflection display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the inside of the specular reflection display bin;

the mirror reflection display bin is internally provided with 2 groups of reflection units, and each group of reflection units is provided with at least 4 pieces of high-reflectivity front coated mirror glass, rear coated mirror glass, PVC mirror glass, metal stainless steel mirror or mirror paper;

the bin surface of the mirror reflection display bin, which is positioned at the electronic module display screen, is provided with an electronic module display screen opening for displaying the picture of the electronic module display screen in the mirror reflection display bin;

a lens group A is arranged at the joint of the supporting part and the mirror reflection display bin; a lens group B is arranged at the position of the mirror reflection display bin, which is positioned at the display screen of the electronic module; the lens group A and the lens group B respectively have at least 2 lenses;

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B, reflected by the mirror reflection display bin and transmitted by the lens group A through the hollow supporting part.

7. The head-mounted electronic display device of claim 2 or 6, wherein the reflectivity of the front coated mirror glass, the back coated mirror glass, the PVC mirror glass, the metal stainless steel mirror or the mirror paper is greater than or equal to 99%.

8. A head-mounted electronic display device, comprising:

the hollow supporting part is used for contacting with the face of a human body so as to support the head-mounted electronic display device;

the mirror surface refraction display bin is connected with the supporting part;

the electronic module is used for displaying pictures and/or playing videos and comprises a display screen facing the mirror refraction display bin;

the mirror surface refraction display bin is internally provided with 2 groups of refraction units, and each group of refraction units is provided with at least 1 prism;

the bin surface of the mirror surface refraction display bin, which is positioned at the position of the electronic module display screen, is provided with an electronic module display screen opening for enabling the picture of the electronic module display screen to be displayed in the mirror surface refraction display bin;

a lens group A' is arranged at the joint of the supporting part and the mirror refraction display bin; the mirror refraction display bin is arranged at the position of the display screen of the electronic module and is provided with a lens group B'; the lens group A 'and the lens group B' are respectively provided with at least 2 lenses;

human eyes can watch the 3D stereoscopic effect picture of the electronic module display screen sequentially transmitted by the lens group B ', refracted by the mirror refraction display bin and transmitted by the lens group A' through the hollow supporting part.

9. The head-mounted electronic display device of any of claims 1, 6, or 8, wherein the electronic module comprises electronic circuitry and a battery; and/or

A control button is arranged on the outer side of the mirror reflection display bin or the mirror refraction display bin and used for controlling the electronic module, and the control button is connected with the electronic module through a flat cable; and/or

The mirror surface reflection shows storehouse or mirror surface refraction and shows storehouse and the same storehouse body outside of people's eye sight direction is provided with the camera, the camera with connect through winding displacement or bluetooth between the electronic module, the camera is used for virtual augmented reality.

10. The head-mounted electronic display device according to any one of claims 1, 6 or 8, wherein the head-mounted electronic display device further comprises a head fixing elastic band, which is installed on two sides of the bin body of the specular reflection display bin or the specular refraction display bin, and is used for cooperating with the supporting portion to support the head-mounted electronic display device;

the supporting part comprises a nose support with a supporting function, a forehead support and an eyeshade with a light shading function.