CN205405429U - Virtual reality helmet - Google Patents

Abstract

The utility model discloses a virtual reality helmet, including controller switching box with show the helmet, controller switching box is including HDMI interface, a LVDS interface and be used for transferring the HDMI signal to the signal converter of LVDS signal, the HDMI interface is connected with signal converter's input, signal converter's an output and a LVDS interface connection, show that the helmet includes the 2nd LVDS interface, OLED drive circuit, OLED display screen, data processor, graphite alkene acceleration sensor, gyroscope and is used for amplifying the convex lens that OLED shows the image that screen display shows, the 2nd a LVDS interface and a LVDS interface connection, the 2nd LVDS interface pass through OLED drive circuit and are connected with the OLED display screen, and graphite alkene acceleration sensor and gyroscope all are connected with data processor. The utility model discloses can prevent the eye fatigue.

Description

A kind of virtual implementing helmet

Technical field

This utility model relates to technical field of virtual reality, particularly relates to a kind of virtual implementing helmet.

Background technology

Virtual reality technology is a kind of can to create with the computer simulation system in the experiencing virtual world it and utilize computer to generate a kind of simulated environment to be the interactively Three-Dimensional Dynamic what comes into a driver's of a kind of Multi-source Information Fusion and the system emulation of entity behavior makes user be immersed in this environment.Along with the progress of virtual reality technology, occurring in that now many virtual reality device, virtual implementing helmet is exactly one therein.But present virtual implementing helmet can force glasses to be focused in factitious mode, for instance stravismus, it is focused by this way for a long time may result in eyestrain.

Utility model content

The purpose of this utility model is in that to overcome the deficiencies in the prior art, it is provided that a kind of virtual implementing helmet, it is possible to prevent eyestrain.

The purpose of this utility model is achieved through the following technical solutions: a kind of virtual implementing helmet, including controller interconnecting device and the display helmet, controller interconnecting device includes HDMI, the first LVDS interface and for HDMI signal transfers to the signal adapter of LVDS signal, HDMI is connected with the input of signal adapter, and the outfan of signal adapter and the first LVDS interface connect；The display helmet includes the second LVDS interface, OLED drive, OLED display screen, data processor, Graphene acceleration transducer, gyroscope and for amplifying the convex lens of the image that OLED display screen shows, second LVDS interface and the first LVDS interface connect, second LVDS interface is connected with OLED display screen by OLED drive, and Graphene acceleration transducer and gyroscope are all connected with data processor.

Described Graphene acceleration transducer includes housing, graphene film, balancing weight and electrode, graphene film and balancing weight is unsettled is arranged on enclosure interior, balancing weight is placed on graphene film, electrode is arranged on the outside of housing, and electrode includes the 3rd electrode connecting the lower casing of the first electrode of graphene film, the second electrode connecting the upper casing of housing and connection housing.

Described graphene film is arranged on enclosure interior by graphene film fixed frame is unsettled.

Arranging aspirating hole on described housing, aspirating hole place arranges sealing-plug.

Described gyroscope includes top cover and shell, signal processing mainboard, optics, fiber optic loop and light source driving board it is provided with in shell, fiber optic loop is connected with bottom surface, the sidewall of fiber optic loop is coated with by shell, fiber optic loop is cross section to be oval tubular and is cut off by middle part and be divided into levels two cavity, optics and light source driving board are arranged in upper and lower two-layer cavity by fixing device, and the fixed installation of signal processing mainboard in the enclosure and is positioned at fiber optic loop top.

Described OLED display screen includes OLED display screen substrate, OLED display screen cover plate and touch screen body, OLED display screen substrate includes substrate body and is positioned at the outermost one layer of antiglare layer of substrate body, touch screen body is integrated between substrate body and antiglare layer, and the side that OLED display screen cover plate is not provided with antiglare layer at OLED display screen substrate is connected with OLED display screen substrate.

Described touch screen body includes moving closer to electrically conducting transparent outer layer, transparent isolation point layer and the electrically conducting transparent internal layer that antiglare layer sets gradually.

Described electrically conducting transparent outer layer is positioned on the outer surface of substrate body of OLED display screen, electrically conducting transparent internal layer and transparent isolation point layer are separately positioned on the inner surface of antiglare layer, substrate body is away from the outer surface that one side is substrate body of OLED display screen cover plate, and antiglare layer is near the inner surface that one side is antiglare layer of substrate body.

Described signal adapter is mainly realized by CH7161A-BF.

The beneficial effects of the utility model are:

(1) this utility model forms nearly directional light by the focussing force of convex lens, makes human eye can see closely picture clearly, and now glasses crystalline lens is in the state loosened most as the object seeing farthest, thus preventing eyestrain；

(2) the Graphene acceleration transducer in this utility model utilizes the high sensitivity of graphene film, balancing weight is placed on graphene film, the change of the electric capacity between upper casing and graphene film, the electric capacity between graphene film and lower casing in being moved by electrode measurement, simple in construction, can measuring small acceleration, certainty of measurement is high simultaneously；

(3) OLED display screen in this utility model is by being integrated into touch screen body between substrate body and the antiglare layer of OLED display screen substrate, the contact surface of OLED display screen cover plate and substrate is not made any change, will not bring new processing cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of virtual implementing helmet of this utility model；

Fig. 2 is the structural representation of Graphene acceleration transducer in this utility model；

The structural representation of gyroscope in this utility model of Fig. 3 position；

The structural representation of OLED display screen in this utility model of Fig. 4 position；

In figure, 1-housing, 2-graphene film, 3-balancing weight, 4-the first electrode, 5-the second electrode, 6-the 3rd electrode, 7-graphene film fixed frame, 8-top cover, 9-shell, 10-signal processing mainboard, 11-optics, 12-fiber optic loop, 13-light source driving board, 14-OLED display screen substrate, 15-substrate body, 16-antiglare layer, 17-OLED display screen cover plate, 18-electrically conducting transparent outer layer, 19-transparent isolation point layer, 20-electrically conducting transparent internal layer.

Detailed description of the invention

Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail, but protection domain of the present utility model is not limited to the following stated.

As shown in Figure 1, a kind of virtual implementing helmet, including controller interconnecting device and the display helmet, controller interconnecting device includes HDMI, the first LVDS interface and for HDMI signal transfers to the signal adapter of LVDS signal, LVDS signal is used directly to driving OLED display screen, HDMI is connected with the input of signal adapter, and the outfan of signal adapter and the first LVDS interface connect；The display helmet includes the second LVDS interface, OLED drive, OLED display screen, data processor, Graphene acceleration transducer, gyroscope and for amplifying the convex lens of the image that OLED display screen shows, second LVDS interface and the first LVDS interface connect, second LVDS interface is connected with OLED display screen by OLED drive, and Graphene acceleration transducer and gyroscope are all connected with data processor.

Being additionally provided with voltage stabilizing chip in described controller interconnecting device, all chips that voltage stabilizing chip can be within controller interconnecting device are powered.The signal of gyroscope and Graphene acceleration transducer can also be transmitted by controller interconnecting device, the positional information of virtual implementing helmet can be transmitted to external equipment by USB interface, such as computer, the virtual scene in computer carries out image change according to this control signal.Wherein, computer end changes image comparative maturity according to positional information, and such as the WII game machine controller technology of Nintendo Co. of Japan, this utility model is not related to improvement herein.

As shown in Figure 2, described Graphene acceleration transducer includes housing 1, graphene film 2, balancing weight 3 and electrode, graphene film 2 and the unsettled housing 1 that is arranged on of balancing weight 3 are internal, balancing weight 3 is placed on graphene film 2, electrode is arranged on the outside of housing 1, and electrode includes the 3rd electrode 6 connecting the lower casing of the first electrode 4 of graphene film 2, the second electrode 5 connecting the upper casing of housing 1 and connection housing 1.

Described graphene film 2 is arranged on housing 1 inside by graphene film fixed frame 7 is unsettled.

Arranging aspirating hole on described housing 1, aspirating hole place arranges sealing-plug.

Described balancing weight 3 is bonded on graphene film 2.

Described upper casing and lower casing are silicon chip.

As shown in Figure 3, described gyroscope includes top cover 8 and shell 9, signal processing mainboard 10, optics 11, fiber optic loop 12 and light source driving board 13 it is provided with in shell 9, fiber optic loop 12 is connected with bottom surface, the sidewall of fiber optic loop 12 is coated with by shell 9, fiber optic loop 12 is oval tubular for cross section and is divided into levels two cavity by middle part partition, optics 11 and light source driving board 13 are arranged in upper and lower two-layer cavity by fixing device, and signal processing mainboard 10 is fixedly mounted in shell 9 and is positioned at fiber optic loop 12 top.Described shell 9 can adopt carbon fiber skin, has intensity feature big, lightweight.

As shown in Figure 4, described OLED display screen includes OLED display screen substrate 14, OLED display screen cover plate 17 and touch screen body, OLED display screen substrate 14 includes substrate body 15 and is positioned at the outermost one layer of antiglare layer 16 of substrate body 15, touch screen body is integrated between substrate body 15 and antiglare layer 16, and the side that OLED display screen cover plate 17 is not provided with antiglare layer 16 at OLED display screen substrate 14 is connected with OLED display screen substrate 14.

Described touch screen body includes moving closer to electrically conducting transparent outer layer 18, transparent isolation point layer 19 and the electrically conducting transparent internal layer 20 that antiglare layer 16 sets gradually.

On the outer surface of the substrate body 15 of described electrically conducting transparent outer layer 18 and OLED display screen, electrically conducting transparent internal layer 20 and transparent isolation point layer 19 are separately positioned on the inner surface of antiglare layer 16, substrate body 15 is away from the outer surface that one side is substrate body 15 of OLED display screen cover plate 17, and antiglare layer 16 is near the inner surface that one side is antiglare layer 16 of substrate body 15.

Described signal adapter is mainly realized by CH7161A-BF.

The above is only preferred implementation of the present utility model, it is to be understood that this utility model is not limited to form disclosed herein, it is not to be taken as the eliminating to other embodiments, and can be used for other combinations various, amendment and environment, and in contemplated scope described herein, can be modified by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change are without departing from spirit and scope of the present utility model, then all should in the protection domain of this utility model claims.

Claims (9)

1. a virtual implementing helmet, it is characterized in that: include controller interconnecting device and the display helmet, controller interconnecting device includes HDMI, the first LVDS interface and for HDMI signal transfers to the signal adapter of LVDS signal, HDMI is connected with the input of signal adapter, and the outfan of signal adapter and the first LVDS interface connect；The display helmet includes the second LVDS interface, OLED drive, OLED display screen, data processor, Graphene acceleration transducer, gyroscope and for amplifying the convex lens of the image that OLED display screen shows, second LVDS interface and the first LVDS interface connect, second LVDS interface is connected with OLED display screen by OLED drive, and Graphene acceleration transducer and gyroscope are all connected with data processor.

2. a kind of virtual implementing helmet according to claim 1, it is characterized in that: described Graphene acceleration transducer includes housing (1), graphene film (2), balancing weight (3) and electrode, graphene film (2) and the unsettled housing (1) that is arranged on of balancing weight (3) are internal, balancing weight (3) is placed on graphene film (2), electrode is arranged on the outside of housing (1), and electrode includes connecting first electrode (4) of graphene film (2), connecting second electrode (5) of the upper casing of housing (1) and the 3rd electrode (6) of the lower casing of connection housing (1).

3. a kind of virtual implementing helmet according to claim 2, it is characterised in that: described graphene film (2) is arranged on housing (1) inside by graphene film fixed frame (7) is unsettled.

4. a kind of virtual implementing helmet according to claim 2, it is characterised in that: arranging aspirating hole on described housing (1), aspirating hole place arranges sealing-plug.

5. a kind of virtual implementing helmet according to claim 1, it is characterized in that: described gyroscope includes top cover (8) and shell (9), signal processing mainboard (10) it is provided with in shell (9), optics (11), fiber optic loop (12) and light source driving board (13), fiber optic loop (12) is connected with bottom surface, the sidewall of fiber optic loop (12) is coated with by shell (9), fiber optic loop (12) is oval tubular for cross section and is divided into levels two cavity by middle part partition, optics (11) and light source driving board (13) are arranged in upper and lower two-layer cavity by fixing device, signal processing mainboard (10) is fixedly mounted in shell (9) and is positioned at fiber optic loop (12) top.

6. a kind of virtual implementing helmet according to claim 1, it is characterized in that: described OLED display screen includes OLED display screen substrate (14), OLED display screen cover plate (17) and touch screen body, OLED display screen substrate (14) includes substrate body (15) and is positioned at the outermost one layer of antiglare layer (16) of substrate body (15), touch screen body is integrated between substrate body (15) and antiglare layer (16), the side that OLED display screen cover plate (17) is not provided with antiglare layer (16) at OLED display screen substrate (14) is connected with OLED display screen substrate (14).

7. a kind of virtual implementing helmet according to claim 6, it is characterised in that: described touch screen body includes moving closer to electrically conducting transparent outer layer (18), transparent isolation point layer (19) and the electrically conducting transparent internal layer (20) that antiglare layer sets gradually.

8. a kind of virtual implementing helmet according to claim 7, it is characterized in that: described electrically conducting transparent outer layer (18) is positioned on the outer surface of substrate body (15) of OLED display screen, electrically conducting transparent internal layer (20) and transparent isolation point layer (19) are separately positioned on the inner surface of antiglare layer (16), substrate body (15) is away from the outer surface that one side is substrate body (15) of OLED display screen cover plate (17), and antiglare layer (16) is near the inner surface that one side is antiglare layer (16) of substrate body (15).

9. a kind of virtual implementing helmet according to claim 1, it is characterised in that: described signal adapter is mainly realized by CH7161A-BF.