TWI679467B - Display screen for virtual reality device - Google Patents

Abstract

A display screen for a virtual reality device includes a glass display panel, a control chip, and a flexible circuit board. The center position in the long-side direction of the glass display panel is a mounting area having a predetermined width, and the mounting area divides the glass display panel into a first display area and a second display area. The control chip is disposed in the installation area of the glass display panel and is wired to the first display area and the second display area of the glass display panel, respectively, to control the first display area and the second display area to display images respectively. The flexible circuit board is electrically connected to the control chip from one side of the long-side direction of the glass display panel. Thereby, the entire virtual reality device can be miniaturized as much as possible, and the number of required components can be reduced.

Description

Display screens for virtual reality devices

The present invention relates to a display screen, and particularly to a display screen used in a virtual reality device to have a narrow frame structure.

In the existing virtual reality device, the display screen is configured with a dual display screen to correspond to the images seen by the left and right eyes, or a single display screen is used to separate the left and right eyes to correspond to the images seen by the left and right eyes. If a dual display screen is used, it is necessary to configure a control chip for controlling the display screen and a flexible circuit board connected to the control chip, and it is usually set on the upper, lower or left and right sides of the display screen. In order to set the control chip and the flexible circuit board, the casing needs to be enlarged outside the display screen, and a specific accommodating space is reserved to accommodate these electronic components.

If a single display screen is used, only one set of control chip and flexible circuit board is needed to transmit the signal. However, although only a single set is used, it still needs to be enlarged on the left and right sides of the housing, up or down, respectively, to retain specific accommodation The space, especially the left and right sides, needs to retain the required accommodation space on both the left and right sides for the virtual reality device to balance left and right, even if the control chip and the flexible circuit board are only provided on one side.

However, the above configurations all need to increase the volume of the shell of the virtual reality device to reserve space for the control chip and the flexible circuit board. As a result, the overall volume of the virtual reality device becomes larger, and when the user wears the virtual reality device and uses it, they will feel too large or bulky. In addition, if the configuration uses dual display screens, it is necessary to configure a control chip respectively to control each display screen separately, which will also increase the number of components.

In order to make the border of the display screen as small as possible, so that the entire virtual reality device can be miniaturized as much as possible, and the number of components required is reduced. According to an embodiment of the present invention, a display screen for a virtual reality device includes a glass display panel, a control chip, and a flexible circuit board. The center position in the long-side direction of the glass display panel is a mounting area having a predetermined width, and the mounting area divides the glass display panel into a first display area and a second display area. The control chip is disposed in the installation area of the glass display panel and is wired to the first display area and the second display area of the glass display panel, respectively, to control the first display area and the second display area to display images respectively. The flexible circuit board is electrically connected to the control chip through one side of the long-side direction of the glass display panel.

Because when the virtual reality device is used on the wearer, there will be an invalid space in the visible range of the left and right eyes, and the invalid space is located in the middle position between the two pupils. Therefore, in one embodiment of the present invention, the control chip and the flexible circuit board for signal transmission are disposed in the installation area in the middle position of the glass display panel through the above, there is no need to additionally hold the control chip and the surrounding of the glass display panel. The accommodating space of the flexible circuit board also does not need to enlarge the shell of the virtual reality device, but can achieve the effect of reducing the overall design and narrowing the border around the glass display panel.

In addition, the glass display panel used is a single-chip display panel, so only one control chip is needed for control. By setting the control chip at the middle position of the entire glass display panel in the long side direction, it is possible to route to the left and right first display areas and the second display areas respectively to control the first display area and the second display area at a short distance. The display area displays the image. Also, because the wiring lengths of the two are almost the same, it is less prone to delay problems in signal transmission.

In some embodiments, the display screen for a virtual reality device further includes another flexible circuit board electrically connected to the control chip from the other side in the long-side direction of the glass display panel. Moreover, the flexible circuit board and the other flexible circuit board transmit images to be displayed in the first display area and the second display area, respectively. By using two flexible circuit boards to transmit the image signals to be displayed in the first display area and the second display area, the number of pins required for a single flexible circuit board can be reduced, and a narrower flexible circuit board can be used. . In this way, the width of the mounting area may not be too large, which may affect the sizes of the first display area and the second display area.

In some embodiments, the glass display panel includes a glass substrate and a backlight module. The glass substrate is disposed above the backlight module, and the control chip is disposed above the glass substrate. The backlight module includes a light source component, the light source component is disposed in the installation area, and the light source component emits light sources toward the first display area and the second display area. By arranging the light source component of the backlight module in the installation area, it is also possible to avoid the need to increase the accommodating space around the glass display panel to narrow the frame. And the light source component emits the light source from the installation area toward the first display area and the second display area located on the left and right sides, so that the light walking path will not be too long, and the problem that the light may be insufficient in intensity at the edges is avoided.

In some embodiments, when the resolution of the first display area and the second display area of the glass display panel in the long side direction is R, the number of fan-outs on one side of the control chip is F, and When the width is W, the predetermined width will conform to the following formula: predetermined width = .

In this way, after the predetermined width required for different resolutions can be calculated in advance, the size of the installation area and related wiring methods can be planned in advance, and the installation area can be miniaturized as much as possible to avoid affecting the display area. Image display.

The detailed features and advantages of the present invention are described in detail in the following embodiments. The content is sufficient for any person skilled in the art to understand and implement the technical content of the present invention, and according to the content disclosed in this specification, the scope of patent applications and the drawings. Anyone skilled in the relevant art can easily understand the related objects and advantages of the present invention.

Please refer to FIGS. 1 and 3. FIG. 1 is a schematic top view of a display screen for a virtual reality device according to an embodiment of the present invention, and FIG. 2 is a backlight module for a display screen of a virtual reality device according to an embodiment of the present invention. A schematic top view. FIG. 3 is a schematic side view of a display screen for a virtual reality device according to an embodiment of the present invention. In FIG. 2, for convenience of explanation, only the backlight module located at the bottom layer is illustrated, and the upper glass substrate, the control chip, and the flexible circuit board are omitted. FIG. 3 is a schematic illustration of the relative positional relationship among the glass display panel 10, the control chip 20, and the backlight module 17, and other unlabeled components are omitted.

As can be seen from FIG. 1, the display screen used for the virtual reality device in this embodiment includes a glass display panel 10, a control chip 20 and two flexible circuit boards 30. The glass display panel 10 is a complete rectangular display panel. Since only a single-chip display panel is used, only one control chip 20 is required to control the glass display panel 10 to display a desired image, and it is not necessary to set two control chips, so it can also reduce the need. Number of components.

The glass display panel 10 has opposite long sides 11 and short sides 12. At the center position in the direction of the long side 11 of the glass display panel 10 is an installation area 13 having a predetermined width L, and the installation area 13 divides the glass display panel 10 into a first display area 14 and a second display area 15. The first display area 14 and the second display area 15 correspond to the left-eye area and the right-eye area of the user when the user wears the watch, respectively. Here, the installation area 13 divides the glass display panel 10 into two display areas on the left and right, and the installation area 13 located in the center corresponds to the position of the user's nose, which is usually an invalid area, which means that it is actually used. At this time, it will not be used to display images. Therefore, this invalid area is used as the installation area 13 in this embodiment.

The control chip 20 is disposed in the mounting area 13 of the glass display panel 10 and is wired to the first display area 14 and the second display area 15 of the glass display panel 10 to control the first display area 14 and the second display area 15 to display respectively. image. In this embodiment, the control chip 20 is disposed at an intermediate position in the direction of the long side 11 of the entire glass display panel 10, and for the first display area 14 and the second display area 15 to be transmitted to display corresponding to the left eye and The image of the right eye is also transmitted through the left and right wires of the control chip 20 using independent lines. In this way, the control chip 20 can be wired at a short distance to the left and right first display area 14 and the second display area 15 to control the first display area 14 and the second display area 15 to display images. Also, because of this method, the distance between the control chip 20 and the first display area 14 and the second display area 15 is almost the same, and the problem of signal delay is less likely to occur.

The two flexible circuit boards 30 are electrically connected to the control chip 20 from two sides of the long side 11 direction of the glass display panel 10, respectively. In this embodiment, two flexible circuit boards 30 are provided as an example, but in other embodiments, only one flexible circuit board 30 may be provided, and any one of the long side 11 directions of the glass display panel 10 may be provided. The side is electrically connected to the control chip 20.

The two flexible circuit boards 30 can be set to transmit images to be displayed in the first display area 14 and the second display area 15 respectively. And by using two flexible circuit boards 30 to transmit the image signals to be displayed in the first display area 14 and the second display area 15, respectively, the number of pins required for a single flexible circuit board 30 can be reduced, and the available width can be reduced. Narrow flexible circuit board 30. In this way, the width of the mounting area 13 can also be prevented from affecting the size of the first display area 14 and the second display area 15 too much.

By setting the control chip 20 and the flexible circuit board 30 for signal transmission as described above at the installation area 13 in the middle position of the glass display panel 10, there is no need to additionally retain the control chip 20 and the flexible circuit board around the glass display panel 10 The accommodating space of 30 does not need to enlarge the shell of the virtual reality device, but can achieve the effect of reducing the overall design and narrowing the frame around the glass display panel 10.

1 to FIG. 3. In this embodiment, the glass display panel 10 includes a glass substrate 16 and a backlight module 17. As can be seen from FIG. 3, the glass substrate 16 is disposed above the backlight module 17. As can be seen from FIG. 2, the backlight module 17 includes a light source module 171. The light source module 171 is disposed in the installation area 13, and the light source module 171 emits light toward the first display area 14 and the second display area 15. The light source assembly 171 includes a circuit board 1711 and a plurality of light emitting diodes 1712 disposed on the circuit board 1711. The light emitting diode 1712 emits light sources to the first display area 14 or the second display area 15 respectively. In this embodiment, the light emitting diodes 1712 arranged at intervals emit light sources in the same direction, but the invention is not limited thereto. As long as the light from the first display area 14 and the second display area 15 can be provided.

By arranging the light source module 171 of the backlight module 17 in the installation area 13, it is also possible to avoid the need to increase the accommodating space around the glass display panel 10 so as to narrow the frame around the glass display panel 10. In addition, the light source module 171 emits light from the installation area 13 toward the first display area 14 and the second display area 15 located on the left and right sides. Compared to the light source component 171 being disposed on either side of the short side 12, the light can be emitted. The walking path will not be too long, to avoid the problem of insufficient intensity when the light is projected to the other side.

In addition, in this embodiment, the predetermined width L required for the glass display panel 10 with different resolutions can be calculated in advance, so that the size of the installation area 13 and the related wiring and routing methods can be planned as much as possible. The installation area 13 is miniaturized to avoid affecting the image display of the display area. Therefore, when the resolution of the first display area 14 and the second display area 15 of the glass display panel 10 in the direction of the long side 11 is R, the number of fanouts on one side of the control chip 20 is F, and the width of the control chip 20 is At W, the predetermined width L will conform to the following formula: The predetermined width L = .

For example, if the resolution of the first display area 14 and the second display area 15 in the direction of the long side 11 is 720, the number of fan-outs F on one side of the control chip 20 is 2, and the width of the control chip 20 is 2 mm, it is predetermined The width L is 4.1 mm. Therefore, it can be known that the minimum mounting area 13 having a resolution of 720 and sufficient to set the required electronic components has a width of about 4.1 mm. Furthermore, the installation position of the glass display panel 10 in the entire virtual reality device can be adjusted accordingly.

Although the present invention is disclosed in the foregoing embodiments as above, it is not intended to limit the present invention. Anyone skilled in the similar arts can make some changes and retouch without departing from the spirit and scope of the present invention. The scope of patent protection shall be determined by the scope of the patent application attached to this specification.

10‧‧‧ glass display panel

11‧‧‧ long side

12‧‧‧ short side

13‧‧‧Mounting area

14‧‧‧ the first display area

15‧‧‧Second display area

16‧‧‧ glass substrate

17‧‧‧ backlight module

171‧‧‧Light source assembly

1711‧‧‧Circuit Board

1712‧‧‧Light Emitting Diode

20‧‧‧control chip

30‧‧‧ flexible circuit board

L‧‧‧ predetermined width

W‧‧‧Width

[Figure 1] A schematic top view of a display screen for a virtual reality device according to an embodiment of the present invention; [FIG. 2] A schematic top plan view of a backlight module for a display screen of a virtual reality device according to an embodiment of the present invention; [FIG. 3] A schematic side view of a display screen for a virtual reality device according to an embodiment of the present invention.

Claims (4)

A display screen for a virtual reality device includes: a glass display panel, a mounting area having a predetermined width at a center position in a long side direction of the glass display panel, and the mounting area distinguishes the glass display panel Is a first display area and a second display area; a control chip is disposed in the installation area of the glass display panel and is wired to the first display area and the second display area of the glass display panel to control The first display area and the second display area respectively display images; and a flexible circuit board is electrically connected to the control chip through one side of the glass display panel in one of the long side directions. The display screen for a virtual reality device described in item 1 of the scope of the patent application, further includes another flexible circuit board electrically connected to the control chip from the other side of the glass display panel in the long side direction, and The flexible circuit board and the other flexible circuit board transmit images to be displayed in the first display area and the second display area, respectively. The display screen for a virtual reality device described in item 1 of the scope of the patent application, wherein the glass display panel includes a glass substrate and a backlight module, the glass substrate is disposed above the backlight module, and the backlight module The light source assembly includes a light source assembly disposed in the installation area, and the light source assembly emits a light source toward the first display area and the second display area. The display screen for a virtual reality device described in item 1 of the scope of patent application, wherein when the resolution of the first display area and the second display area of the glass display panel in the long side direction is R, the control chip When the number of fan-outs on one side is F and the width of the control chip is W, the predetermined width will conform to the following formula: The predetermined width = .