CN205374874U - Wear -type human -computer interaction device - Google Patents

Abstract

The utility model relates to a visual display technical field specifically discloses a wear -type device human -computer interaction device, personally experience sth. Part of the body, fix subassembly, the subassembly of making a video recording, display module, spectroscope and treater including the cover, the window opening and the opening that incides have been offered to the cover body, and the both sides of the cover body are located to window opening and incident opening branch, fixed subassembly is used for being fixed in the human head with the cover body, the subassembly of making a video recording sets up in the outer wall of the cover body for scan the 3D profile of external object and survey the distance that the object leaves equipment, with treater electric connection, the lens that the display module set up including demonstration bracket, the display screen that is fixed in the demonstration bracket and corresponding display screen, display screen and treater electric connection, the rotation of spectroscopical one end is installed and is kept away from the one end of covering the body in the demonstration bracket. Two kinds of functions of virtual reality and optics perspective formula augmented reality can only can be realized through a set of equipment to this wear -type device human -computer interaction device, and low cost is effectual when participating in the cintest.

Description

A kind of wear-type human-computer interaction device

[technical field]

This utility model relates to image display technology field, particularly relates to a kind of wear-type human-computer interaction device.

[background technology]

Head mounted display (headmounteddisplay) is a new technique of development in recent years, and concrete application can be broadly divided into virtual reality (virtualreality) and augmented reality (augmentedreality) two kinds.Wherein, augmented reality head mounted display has optical perspective formula and two kinds of implementations of video perspective type.

Existing head mounted display is generally only capable of single realizing virtual reality or augmented reality, if simultaneously need to realize virtual reality and augmented reality, it usually needs two set head mounted displays.Currently also there is head mounted display can be simultaneously used for virtual reality and augmented reality, but its augmented reality is realized by video perspective mode, adopt video perspective mode time photographic head photograph the process of display by time delay, and the impression of the shooting angle of photographic head and human eye natural vision has bigger difference so that the telepresenc of augmented reality is poor.

[utility model content]

This utility model is intended to the disadvantages described above overcoming prior art, it is provided that the wear-type human-computer interaction device of new improvement, can realize virtual reality and optical perspective formula augmented reality simultaneously.

In order to solve above-mentioned technical problem, this utility model provides a kind of wear-type human-computer interaction device, described wear-type human-computer interaction device includes cover body, fixation kit, camera assembly, display module, spectroscope and processor, described cover body offers window opening and incident opening, described window opening and incident opening are divided into the both sides of described cover body, and described window opening and human eye profile match；Described fixation kit is for being fixed on human body head by described cover body；Described camera assembly is arranged at the outer wall of described cover body, is used for the distance scanning the 3D profile of external object and detecting object from equipment；Described display module includes display bracket and is fixed on the display screen of described display bracket, described display bracket is removably installed in the top of described cover body, described display screen is electrically connected with described camera assembly, when described display bracket closes, described display module surrounds into an accommodation space with described cover body, and the display light that described display screen sends enters human eye through described lens and described window opening；Described spectroscopical one end is mounted at described display bracket one end away from described cover body, when described display bracket opens, adjust described display bracket, described spectroscope is predetermined angle, the display light that described display screen sends enters human eye through described spectroscope, described incident opening and described window opening, and outside ambient light enters human eye through described spectroscope, described incident opening and described window opening；Described processor is electrically connected with described display screen, and the enhancing picture signal of its generation is transferred to described display screen.

In some embodiments, described spectroscope is plane beam splitter.

In some embodiments, described wear-type human-computer interaction device also includes plane mirror and the lens of the described display screen setting of correspondence, described plane mirror removably rotates the one end being installed on described display bracket away from described cover body, when described plane mirror is installed on described display bracket, adjust described display bracket, described plane mirror is predetermined angle, and the display light that described display screen sends enters human eye through described lens, described plane mirror, described incident opening and described window opening.

In some embodiments, described spectroscope is curved surface spectroscope.

In some embodiments, described wear-type human-computer interaction device also includes curved reflector, described curved reflector removably rotates the one end being installed on described display bracket away from described cover body, when described curved reflector is installed on described display bracket, adjust described display bracket, described curved reflector is predetermined angle, and the display light that described display screen sends enters human eye through described curved reflector, described incident opening and described window opening.

In some embodiments, described fixation kit is the elastic strip structure that two ends are connected to described cover body both sides.

In some embodiments, described camera assembly includes at least 1 photographic head.

In some embodiments, described photographic head is arranged at the top of described cover body, or is arranged between the left eye position of described cover body and right eye position.

In some embodiments, described spectroscopical reflex strength is 0-1.

Compared with prior art, the beneficial effects of the utility model are in that: the wear-type human-computer interaction device that this utility model embodiment provides only can realize virtual reality and two kinds of functions of optical perspective formula augmented reality by a set of equipment, and with low cost, Presence is good.

[accompanying drawing explanation]

In order to be illustrated more clearly that the technical solution of the utility model, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the first embodiment of the wear-type human-computer interaction device of this utility model embodiment, in augmented reality pattern；

Fig. 2 is the action schematic diagram when adjusting visual pattern of the wear-type human-computer interaction device shown in Fig. 1；

Fig. 3 is the wear-type human-computer interaction device shown in Fig. 1 is the structural representation of virtual reality；

Fig. 4 is the operation principle schematic block diagram of this utility model embodiment wear-type human-computer interaction device；

Fig. 5 is the structural representation of the second embodiment of the wear-type human-computer interaction device of this utility model embodiment, in augmented reality pattern；

Fig. 6 is the wear-type human-computer interaction device shown in Fig. 5 is the structural representation of virtual real mode；

Fig. 7 is the structural representation of the 3rd embodiment of the wear-type human-computer interaction device of this utility model embodiment, in augmented reality pattern；

Fig. 8 is the wear-type human-computer interaction device shown in Fig. 7 is the structural representation of virtual real mode；

Fig. 9 is the structural representation of the 4th embodiment of the wear-type human-computer interaction device of this utility model embodiment, in augmented reality pattern；

Figure 10 is the wear-type human-computer interaction device shown in Fig. 9 is the structural representation of virtual real mode.

[detailed description of the invention]

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain this utility model, be not used to limit this utility model.

Referring to figs. 1 through Fig. 4, this utility model one embodiment provides a kind of wear-type human-computer interaction device, and this wear-type human-computer interaction device includes cover body 100, fixation kit 200, camera assembly 300, display module 400, spectroscope 500 and processor 600.

Cover body 100 offers window opening (meaning not shown in the figures) and incident opening 101, window opening and incident opening 101 and is divided into the both sides of cover body 100, and window opening and human eye profile match.

Fixation kit 200 is for being fixed on human body head 700 by cover body 100.

Camera assembly 300 is arranged at the outer wall of cover body 100, is used for the distance scanning the 3D profile of external object and detecting object from equipment.

Display module 400 includes display bracket 410 and is fixed on the lens 430 that the display screen 420 of display bracket 410 is arranged with corresponding display screen 420, and display bracket 410 is removably installed in the top of cover body 100, and display screen 420 and camera assembly 300 are electrically connected.

When showing that bracket 410 closes, display module 400 surrounds into an accommodation space with cover body 100, the picture signal that photographic head 300 obtains is presented in display screen 420, the display light that display screen 420 sends enters human eye through lens 430 and window opening, and now this wear-type human-computer interaction device is virtual real mode.

One end of spectroscope 500 is mounted at display bracket 410 one end away from cover body 100, when showing that bracket 410 opens, adjust display bracket 410, spectroscope 500 in predetermined angle, the display light that display screen 420 sends is through lens 430, spectroscope 500, incident opening 101 and window opening enter human eye, and outside ambient light enters human eye through spectroscope 500, incident opening 101 and window opening；Processor 600 and display screen 420 are electrically connected, and the enhancing picture signal of its generation is transferred to display screen 420.Now, this wear-type human-computer interaction device optically perspective formula augmented reality pattern.

This wear-type human-computer interaction device can only use a set of equipment can realize virtual display and two kinds of functions of optical perspective formula augmented reality, and with low cost, Presence is good.

Referring to figs. 1 through Fig. 3, in the first embodiment of this utility model wear-type human-computer interaction device, spectroscope 500 is plane beam splitter.

When showing that bracket 410 closes, the picture signal that photographic head 300 obtains is presented in display screen 420, and the display light that display screen 420 sends enters human eye through lens 430 and window opening, and now this wear-type human-computer interaction device is virtual real mode.

When showing that bracket 410 opens, adjust display bracket 410, spectroscope 500 in predetermined angle, the display light that display screen 420 sends is through lens 430, spectroscope 500, incident opening 101 and window opening enter human eye, and outside ambient light enters human eye through spectroscope 500, incident opening 101 and window opening；The enhancing picture signal of its generation is transferred to display screen 420 by processor 600.Now, this wear-type human-computer interaction device optically perspective formula augmented reality pattern.

In the first embodiment, it is achieved the switching of both of which, it is not necessary to dismounting spectroscope, display bracket and spectroscopical position relationship need to only be adjusted.

With reference to Fig. 5-Fig. 6, wear-type human-computer interaction device also includes plane mirror 800, and plane mirror 800 removably rotates the one end being installed on display bracket 410 away from cover body 100.Plane mirror 800 and spectroscope 500 optionally can only can be installed on display bracket 410. by one

When showing that bracket 410 opens, and spectroscope 500 is installed on when showing bracket, adjust display bracket 410, spectroscope 500 in predetermined angle, the display light that display screen 420 sends is through lens 430, spectroscope 500, incident opening 101 and window opening enter human eye, and outside ambient light enters human eye through spectroscope 500, incident opening 101 and window opening；The enhancing picture signal of its generation is transferred to display screen 420 by processor 600.Now, this wear-type human-computer interaction device optically perspective formula augmented reality pattern.

When showing that bracket opens, and plane mirror 800 is installed on when showing bracket 410, adjusting display bracket 410, plane mirror 800 in predetermined angle, the display light that display screen 420 sends is through lens 430, and plane mirror 800, incident opening 101 and window opening enter human eye.Now, this head-wearing display device is also in virtual real mode.

In a second embodiment, it is achieved the switching of both of which, only spectroscope 500 need to be replaced with plane mirror 800, or plane mirror 800 is replaced with spectroscope 500.

With reference to Fig. 7-Fig. 8, spectroscope 510 is curved surface spectroscope, when augmented reality pattern, need to disassemble lens 430；And when virtual real mode, lens 430 need to be installed.

When showing that bracket 410 closes, the picture signal that photographic head 300 obtains is presented in display screen 420, and the display light that display screen 420 sends enters human eye through lens 430 and window opening, and now this wear-type human-computer interaction device is virtual real mode.

When showing that bracket 410 opens, adjust display bracket 410, spectroscope 510 in predetermined angle, the display light that display screen 420 sends enters human eye through spectroscope 510, incident opening 101 and window opening, outside ambient light enters human eye through spectroscope 510, incident opening 101 and window opening, preferably, spectroscope 510 herein is curved surface spectroscope；The enhancing picture signal of its generation is transferred to display screen 420 by processor 600.Now, this wear-type human-computer interaction device optically perspective formula augmented reality pattern.

In the third embodiment, it is achieved the switching of both of which, it is not necessary to dismounting spectroscope, display bracket and spectroscopical position relationship need to only be adjusted.

With reference to Fig. 9 and Figure 10, wear-type human-computer interaction device also includes curved reflector 810, and curved surface face reflecting mirror 810 removably rotates the one end being installed on display bracket 410 away from cover body 100.Curved surface face reflecting mirror 810 and spectroscope 510 optionally can only can be installed on display bracket 410. by one

When showing that bracket 410 opens, and spectroscope 510 is installed on when showing bracket, adjust display bracket 410, spectroscope 510 in predetermined angle, the display light that display screen 420 sends enters human eye through spectroscope 510, incident opening 101 and window opening, and outside ambient light enters human eye through spectroscope 510, incident opening 101 and window opening；The enhancing picture signal of its generation is transferred to display screen 420 by processor 600.Now, this wear-type human-computer interaction device optically perspective formula augmented reality pattern.

When showing that bracket opens, and curved reflector 810 is installed on when showing bracket 410, adjusting display bracket 410, curved reflector 810 in predetermined angle, the display light that display screen 420 sends enters human eye through curved reflector 810, incident opening 101 and window opening.Now, this head-wearing display device is also in virtual real mode.

In the fourth embodiment, it is achieved the switching of both of which, only spectroscope 510 need to be replaced with curved reflector 810, or curved reflector 810 is replaced with spectroscope 510.

Preferably, in the above-described embodiment, fixation kit 200 is connected to the elastic strip structure of cover body 100 both sides for two ends.

Preferably, in the above-described embodiment, camera assembly 300 includes at least 1 photographic head.Preferably, photographic head is arranged at the top of cover body 100.

Preferably, in the above-described embodiment, the reflex strength of spectroscope 510 is 0-1, and correspondingly, the intensity in transmission of spectroscope 510 is 0-1, and reflex strength+intensity in transmission=1.It is highly preferred that the reflex strength of spectroscope 510 can be 0.4,0.45 or 0.5, correspondingly, the intensity in transmission of spectroscope 510 can be 0.6,0.55 or 0.5.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent replacement and improvement etc. made within spirit of the present utility model and principle, should be included within protection domain of the present utility model.

Claims (9)

1. a wear-type human-computer interaction device, it is characterised in that described wear-type human-computer interaction device includes cover body, fixation kit, camera assembly, display module, spectroscope and processor,

Described cover body offers window opening and incident opening, described window opening and incident opening and is divided into the both sides of described cover body, and described window opening and human eye profile match；

Described fixation kit is for being fixed on human body head by described cover body；

Described camera assembly is arranged at the outer wall of described cover body, is used for the distance scanning the 3D profile of external object and detecting object from equipment；

Described display module includes display bracket and is fixed on the display screen of described display bracket and the lens of the described display screen setting of correspondence, described display bracket is removably installed in the top of described cover body, described display screen is electrically connected with described camera assembly, when described display bracket closes, described display module surrounds into an accommodation space with described cover body, and the display light that described display screen sends enters human eye through described lens and described window opening；

Described spectroscopical one end is removably installed in described display bracket one end away from described cover body, when described display bracket opens, adjust described display bracket, described spectroscope is predetermined angle, the display light that described display screen sends enters human eye through described spectroscope, described incident opening and described window opening, and outside ambient light enters human eye through described spectroscope, described incident opening and described window opening；

Described processor is electrically connected with described display screen, and the enhancing picture signal of its generation is transferred to described display screen.

2. wear-type human-computer interaction device according to claim 1, it is characterised in that described spectroscope is plane beam splitter.

3. wear-type human-computer interaction device according to claim 2, it is characterized in that, described wear-type human-computer interaction device also includes plane mirror, described plane mirror is removably installed in described display bracket one end away from described cover body, when described plane mirror is installed on described display bracket, adjust described display bracket, described plane mirror is predetermined angle, and the display light that described display screen sends enters human eye through described lens, described plane mirror, described incident opening and described window opening.

4. wear-type human-computer interaction device according to claim 1, it is characterised in that described spectroscope is curved surface spectroscope.

5. wear-type human-computer interaction device according to claim 4, it is characterized in that, described wear-type human-computer interaction device also includes curved reflector, described curved reflector is removably installed in described display bracket one end away from described cover body, when described curved reflector is installed on described display bracket, adjust described display bracket, described curved reflector is predetermined angle, and the display light that described display screen sends enters human eye through described curved reflector, described incident opening and described window opening.

6. wear-type human-computer interaction device according to claim 1, it is characterised in that described fixation kit is the elastic strip structure that two ends are connected to described cover body both sides.

7. wear-type human-computer interaction device according to claim 1, it is characterised in that described camera assembly includes at least 1 photographic head.

8. wear-type human-computer interaction device according to claim 7, it is characterised in that described photographic head is arranged at the top of described cover body, or is arranged between the left eye position of described cover body and right eye position.

9. the wear-type human-computer interaction device according to any one of claim 1-8, it is characterised in that described spectroscopical reflex strength is 0-1.