KR20140008216A - Apparatus and method for displaying 3d image on cluster for vehicle - Google Patents

Abstract

The present invention relates to a device and a method for displaying a 3D image on a cluster for a vehicle, wherein the device includes: a base panel which is prepared in the cluster, displays content image provided from the cluster into a single image or a synthesized image, and has a divided display area for displaying the content image in a predetermined area; a 3D panel which is prepared in the front of the base panel and allows the synthesized image to be seen as a 3D image by activating the synthesized image in the front of the display area; and a control unit which analyzes an input signal which enters the cluster and projects a single image or the synthesized image of the content image displayed on the display area to the base panel.

Description

3D IMAGE ON CLUSTER FOR VEHICLE} 3D IMAGE ON CLUSTER FOR VEHICLE

The present invention relates to an apparatus and method for implementing a three-dimensional image of a vehicle cluster, wherein the three-dimensional image implemented in the cluster is partially displayed according to the information or importance of the occupant, thereby improving the recognition of the content information and improving the merchandise of the product. It is about.

Recently, the biggest issue in the IT and consumer electronics market is 3D display technology, and among these 3D display products, consumers' personality is getting stronger and they prefer a customized product rather than a uniform function product.

On the other hand, among the interior products of the vehicle consumers are most likely to see the cluster, and as the size of the cluster device is rapidly increasing, the content that can be utilized in the cluster is rapidly increasing.

Accordingly, by incorporating 3D display technology, which has become a hot topic in clusters recently, technologies for improving recognition of main content information provided by clusters have been continuously researched and proposed.

However, clusters using the existing 3D display technology implement 3D display technology on the entire panel of the cluster device, and the stereoscopic image can be implemented only in a specific screen area such as the entire screen, the center, the left or the right side of the cluster device, and thus the desired content. There is no 3D display technology for viewing an image or an image in a desired area.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and implements stereoscopic images in clusters and allows consumers to view desired contents or important content information in stereoscopic images, thereby recognizing content information. The present invention provides an apparatus and method for implementing a stereoscopic image of a vehicle cluster to improve the product quality of a product.

The configuration of the present invention for achieving the above object is provided in a cluster, the display area is displayed so that the image of the content provided in the cluster is displayed as a single image or a composite image, the image of the content is displayed in a predetermined region A divided base panel; A three-dimensional panel provided in front of the base panel and configured to be activated at a front position of a display area in which the composite image is displayed, such that the image of the content is displayed as a stereoscopic image; And a controller configured to analyze the input signal entering the cluster and to control a single image or a composite image of the content image displayed in the display regions to be scanned into the base panel.

The stereoscopic panel is configured to be activated by alternately forming vertical slits and barriers at predetermined intervals when a content image is displayed as a composite image on the display area, thereby displaying the content image as a stereoscopic image through the slit. Can be.

The three-dimensional panel may be moved to a front position of each display area of the base panel.

Gear rails are provided along the left and right longitudinal directions of the base panel; A three-dimensional panel is coupled to the gear rail; As the pinion rotating by the driving force of the motor is engaged with the end of the gear rail, the three-dimensional panel can be linearly moved together with the gear rail.

A display area of the base panel is divided into a first display area and an nth display area; Each of the display areas is set by allocating within a horizontal number of pixels of the base panel; The content image may not be displayed on a horizontal pixel at the end of each display area that is in contact with each display area.

The control unit may include: an image determining unit configured to extract information about a content image to be displayed on a corresponding display area by analyzing an input signal entering the cluster; An image storage unit for storing the content image extracted by the image determination unit; An image converter configured to generate a feeling of protrusion on the content image stored in the image storage unit to generate a left image and a right image of the corresponding content image; And cutting the left image and the right image on which the protrusion is formed at regular intervals, alternately scanning the odd-numbered image in one of the cut-out left and right images, and the even-numbered image in the other image by the pixels of the base panel. By doing so, an image output unit for synthesizing and outputting the left image and the right image may be configured.

According to an embodiment of the present invention, there is provided a method of configuring a stereoscopic image, the method comprising: a display area setting step of dividing and setting a display area on a base panel provided in the cluster such that an image of content provided from a cluster is displayed in a predetermined area; And a stereoscopic image display step of enabling the stereoscopic panel to be activated in the 3D mode at a position in front of any display region in which the composite image is displayed among the display regions, so that the content image of the activated stereoscopic panel is displayed as the stereoscopic image. It can be characterized by.

In the displaying of the stereoscopic image, when the content image is displayed as a composite image in the display area, the vertical slits are alternately formed at predetermined intervals on the stereoscopic panel, and thus, the content image is activated through the slits. It can be shown as

The stereoscopic panel may control the content image to be manually or automatically moved to the front position of the display area displayed as the composite image.

When the stereoscopic panel is moved from one display area to another display area, the stereoscopic image may be controlled not to be displayed.

The stereoscopic image display step may include: a signal analysis step of extracting information on a content image to be displayed in a corresponding display area by analyzing an input signal entering the cluster; An image storing step of storing a content image with respect to the extracted content image information; An image conversion step of generating a feeling of protrusion on the stored content image to generate a left image and a right image of the corresponding content image; And cutting the left image and the right image on which the protrusion is formed at regular intervals, alternately scanning the odd-numbered image in one of the cut-out left and right images, and the even-numbered image in the other image by the pixels of the base panel. By doing so, the image output step of synthesizing the left image and the right image and output; may be configured to include.

In the stereoscopic image display step, the priority of displaying the content image is set according to the urgency and importance of the content images displayed in the cluster, and it is determined whether the display is required for each of the content images, and among the content images that need display. It may further include a three-dimensional image automatic display step so that the high-priority content image is shown in preference to other content images having a lower priority.

Through the above-described problem solving means, the present invention can view only a part of the important or desired part of the content image provided in the cluster as a stereoscopic image, thereby improving the recognition of the content image, as well as the entire cluster is seen as a stereoscopic image It is effective to eliminate the danger of driving environment caused by building.

Moreover, since the content information of the cluster can be selected and viewed in stereoscopic images according to the individual's individuality and according to the needs of each consumer, the effect of enhancing the vehicle's productability and productability by realizing the advanced interior design of the vehicle with customer-oriented image specialization. There is also.

1 is a view for explaining the principle of implementing a three-dimensional image according to the present invention.
Figure 2 is a schematic diagram showing the overall stereoscopic image forming apparatus according to the present invention.
3 is a view showing a structure for moving a three-dimensional panel in the stereoscopic image forming apparatus according to the present invention.
4 is a view illustrating a state in which a left image and a right image come into the eye together with the positional relationship between the pixels of the base panel and the barriers and slits of the three-dimensional panel according to the present invention.
5A and 5B are views showing pixel ranges of respective display areas and display restriction sections of a content image in the base panel according to the present invention;
6 is an exemplary view for explaining how the left and right images acquired by the present invention are synthesized and scanned in a base panel.
7 is an exemplary view for explaining the priority and information of the content image in the stereoscopic image implementation method according to the present invention.
8 is a flowchart illustrating a process of manually implementing a stereoscopic image in the stereoscopic image implementing method according to the present invention.
9 is a flowchart illustrating a process of automatically implementing a stereoscopic image in the stereoscopic image implementing method according to the present invention.
10 is an exemplary view showing a three-dimensional image according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The apparatus for implementing a stereoscopic image of a vehicle cluster of the present invention shown through FIGS. 1 to 10 is provided in a cluster, and the image of the content provided from the cluster is displayed as a single image or a composite image, and the image of the content is determined. A base panel 10 having a divided display area to be displayed in an area, and a front panel provided in front of the base panel 10 and activated at a front position of a display area in which the composite image is displayed, thereby making the image of the content stereoscopic. A stereoscopic panel 20 configured to be displayed as an image, and a control unit 30 for storing a content image displayed in the display regions and transmitting a single image signal or a composite image signal to a display region for displaying the content image. It is configured to include.

Specifically, the base panel 10 may be preferably an LCD panel, and is provided over the entire display area of the cluster. In the base panel 10, a plurality of display areas are divided in a horizontal direction, and in each of the display areas, any one of a composite image, which is a single image or a 3D image, is a general 2D image. Can be selected and displayed.

In addition, since the content image that can be displayed on each display area may be preset for each display area, when the composite image is displayed on any one of the base panels 10, the stereoscopic panel 20 may be simultaneously displayed. While activated in the 3D mode, a stereoscopic image can be realized in a corresponding display area.

In the present invention as shown in Figure 1, the three-dimensional panel 20, when the content image is displayed as a composite image in the display area, while the vertical barrier 21 and the slit 22 are alternately formed at a predetermined interval By being activated, the content image may be configured to be viewed as a stereoscopic image through the slit 22.

Specifically, the three-dimensional panel 20 is installed in the front position of the base panel 10, that is, close to the occupant. The three-dimensional panel 20 can be switched between the 2D mode and the 3D mode as an electrical element, and when switching from the 2D mode to the 3D mode, the slit 22 and the barrier 22 are perpendicular to the three-dimensional panel 20 at regular intervals. 21 is alternately formed to activate the 3D mode, while the barrier 21 is removed when switching from the 3D mode to the 2D mode, so that the image of the base panel 10 can be viewed in the 2D mode.

At this time, the interval between the slit 22 and the barrier 21 will be formed in accordance with the number of horizontal pixels of the base panel 10 used in the present invention.

That is, as shown in FIG. 4, the slit 22 of the stereoscopic panel 20 is positioned between one continuous left image pixel and one right image pixel in the base panel 10 by the combined image of the left image and the right image. do. Therefore, only the left image shown through the slit 22 is seen in the left eye, and only the right image shown through the slit 22 is shown in the right eye, while the passenger sees the composite shown in the base panel 10. The image is shown as a stereoscopic image.

Here, as the three-dimensional panel 20 of the present invention has been described by illustrating a parallax barrier (Parallax Barrier) method of the structure in which the slit 22 and the barrier 21 alternately, in addition to this, the glasses that can implement the 3D image Another three-dimensional panel 20 of the manner and structure may be applied.

In the present invention, the three-dimensional panel 20 may be moved to the front position of each display area of the base panel 10.

Specifically, the gear rail 25 is provided along the left and right longitudinal direction of the base panel 10 as shown in Figure 3, the three-dimensional panel 20 is coupled to the gear rail 25, the gear rail 25 Since the pinion 26 which rotates by the driving force of the motor 27 is engaged at the edge part, the three-dimensional panel 20 can move linearly with the said gear rail 25.

That is, when a voltage is applied to the motor 27, the pinion 26 is rotated by driving the motor 27, and the gear rail 25 engaged with the pinion 26 is moved to the left or the right, so that the gear The three-dimensional panel 20 fixed to the rail 25 can be moved to the left or right.

At this time, the three-dimensional panel 20 is accurately moved in the front center of each display area divided by the base panel 10, which is a specific operation by the algorithm by the control unit 30 to find the exact moving position do. That is, the position of the three-dimensional panel 20 is calculated according to the resolution of the base panel 10 applied to the cluster and the size of the barrier 21 and the slit 22 of the three-dimensional panel 20.

By such a configuration, when a composite image is displayed in any display area of the base panel 10 for realizing a stereoscopic image in the cluster, the stereoscopic panel 20 is synthesized in the display area in which the composite image is not displayed. The stereoscopic panel 20 is activated in 3D mode while the image is moved to the front position of the display area. At this time, if the position of the three-dimensional panel 20 was previously positioned at the front position of the display area in which the composite image is displayed, the three-dimensional panel 20 need not be moved.

Accordingly, the stereoscopic panel 20 is activated in the 3D mode while moving to the front position of the display area where the composite image is displayed, thereby enabling the content image appearing in the display area to be a stereoscopic image.

Meanwhile, in the present invention, the display area of the base panel 10 is divided into the first display area 11 to the n-th display area, and each display area is distributed within the horizontal pixel number range of the base panel 10. The content image may be configured to not be displayed on the horizontal pixels at the end of each display area that is in contact with each display area.

As shown in FIG. 3, when the base panel 10 of the present invention is divided into three display areas, the display area located at the left end thereof is the first display area 11 and the display area located at the center thereof is the second display area. The display area 12 and the display area located at the right end may be divided into the third display area 13.

Here, the content image to be displayed for each display area may be set in advance, and as an example, the first display area 11 may be set to display a content image related to a speedometer and a warning lamp, and the second display area 12 may be set. The content image related to the driving information of the vehicle may be displayed on the screen, and the content image related to the multimedia device may be displayed on the third display area 13. In addition, since the second display area 12 is located at the center of the cluster, the second display area 12 may be set as a basic area.

In addition, the method of allocating the display areas may be determined according to the number of horizontal pixels of the base panel 10.

First, when the display area of the base panel 10 is divided into three, and the number of horizontal pixels of the base panel 10 is a multiple of 2 and a multiple of 3 (4.3 inches of resolution in the LCD panel → 480 * 272), the horizontal pixels By dividing the number by 3, which is the number of display areas, the range of horizontal pixels in each display area can be divided evenly.

That is, as illustrated in FIG. 5A, when the number of horizontal pixels illustrated is 12, the range of the first display area 11 may be set to a range of 1 pixel to 4 pixels, and the second display area 12 may be set as shown in FIG. 5A. The range of may be set to a range of 5 to 8 pixels, and the third display area 13 may be set to a range of 9 to 12 pixels.

When the display area of the base panel 10 is divided into three, and the number of horizontal pixels of the base panel 10 is not a multiple of 2 or a multiple of 3 (the resolution of 12.3 among LCD panels) 800 * 480, 1280 * 480), since the horizontal pixel number does not fall precisely even if the number of display areas is divided by 3, the range of the display area should be set differently, preferably according to the content image displayed in the display area. By setting the priority, the range of the display area where the high priority content image is displayed may be set longer.

For example, the second display area 12 relates to vehicle driving information that is shown only when a function is selected. The range of the second display area 12 is defined by the first display area 11 and the third display area. It can be set smaller than the range of (13).

That is, as illustrated in FIG. 5B, when the illustrated number of horizontal pixels is 14, the range of the first display area 11 may be set to a range of 1 pixel to 5 pixels, and the second display area ( The range of 12) may be set in a range of 6th pixel to 9th pixel, and the third display area 13 may be set in a range of 10th pixel to 14th pixel.

In addition, when the content image is expressed in horizontal pixels positioned at the end of each display area, the content image may be unnatural because it is at the boundary line with other display areas, so that the pixel at the end of each display area does not scan the content image, thereby creating a natural graphic image. .

That is, in FIG. 5A, the content image is not scanned at the pixels 4 and 5 and the pixels 8 and 9 bordering each other. In addition, in the case of FIG. 5B, the content image is not scanned at the pixels 5 and 6 and the pixels 9 and 10 which are bordered with each other.

On the other hand, in the present invention, the control unit 30, the image determination unit 31 for extracting information on the content image to be displayed in the display area by analyzing the input signal entering the cluster; An image storage unit 32 for storing the content image extracted by the image determination unit 31; An image converting unit 33 generating a feeling of protrusion on the content image stored in the image storing unit 32 to generate a left image and a right image of the corresponding content image; And cutting the left image and the right image on which the protruding feeling is formed at regular intervals, the odd-numbered image in one of the cut-out left and right images, and the even-numbered image in the other image to the pixels of the base panel 10. By alternately scanning, it may be configured to include an image output unit 34 for synthesizing and outputting the left image and the right image.

In detail, as illustrated in FIG. 2, the image determining unit 31 analyzes an input signal entering a cluster. The input signal includes a switching input signal for selecting an implementation of a stereoscopic image in an automatic mode or a manual mode, and a stereoscopic panel ( On / off input signal of the three-dimensional panel 20 for activating or deactivating the 3D mode of the 20) and a moving input signal for moving the position of the three-dimensional panel 20, in addition to various CAN signals and Hardwire signals There may be.

That is, it is possible to analyze what content image should appear in the corresponding display area provided in the base panel 10 by the input signal, and extract the corresponding content image information to be displayed in the corresponding display area by such analysis. Will be.

The switching input signal, the on / off input signal of the three-dimensional panel 20, and the moving input signal of the three-dimensional panel 20 may be applied to the automatic mode switching switch 35, the three-dimensional panel power switch 36, and the like. In addition, the three-dimensional panel movement switch 37 may be implemented as a structure of an individual switch, and each switch may be provided in the steering wheel to facilitate the operation of the inside of the vehicle, particularly the driver. The three-dimensional panel movement switch 37 may be implemented in various forms such as a push type or a turn type.

The image storage unit 32 stores the corresponding content image according to the content image information extracted by the image determination unit 31.

The image conversion unit 33 forms a protrusion on the image stored in the image storage unit 32 and forms a protrusion on the corresponding content image using an application program interface (API) capable of generating a 3D graphic image. One example is Open GL ES.

As illustrated in FIG. 6, the image output unit 34 cuts the left image and the right image acquired by the image conversion unit 33 at regular intervals, and cuts the cut image into odd and even numbers in the base panel 10. Scan alternately with pixels.

That is, the content image extracted by analyzing the input signal is displayed as a composite image having a sense of protrusion in the corresponding display area formed in the base panel 10. Accordingly, the three-dimensional panel 20 is positioned in front of the corresponding display area on which the composite image is displayed, and the three-dimensional panel 20 is activated in the 3D mode, so that only the contents image in the display area desired by the driver can be viewed as a three-dimensional image. It becomes possible.

On the other hand, the three-dimensional image implementation method of the vehicle cluster of the present invention, the display area setting step of setting the display area on the base panel 10 provided in the cluster so that the image of the content provided in the cluster is displayed in the predetermined area; And allowing the stereoscopic panel 20 to be activated in the 3D mode at a position in front of any display region in which the composite image is displayed among the display regions, such that the content image at the position where the stereoscopic panel 20 is activated is viewed as a stereoscopic image. And an image display step.

That is, the stereoscopic panel 20 is activated in the 3D mode in front of the display area in which the composite image is displayed among the content images, so that only the content image displayed in the display area can be realized as the stereoscopic image.

In the present invention, the three-dimensional panel 20 may control the content image to be manually or automatically moved to the front position of the display area displayed as the composite image.

That is, when the occupant operates the switch in the automatic mode through the automatic mode switching switch 35, the three-dimensional panel 20 is automatically moved between the display areas and the content image is automatically realized in the three-dimensional image. When the switch is operated, the stereoscopic image can be realized only by manipulation of the stereoscopic panel power switch 36 and the stereoscopic panel moving switch 37 of the occupant.

The present invention can control the stereoscopic image not to be displayed while the stereoscopic panel 20 moves from one display area to another display area. That is, when the stereoscopic panel 20 is positioned between one display area and another display area while the stereoscopic panel 20 moves between display areas, an unnatural 3D image appears when the stereoscopic panel 20 is activated in the 3D mode. Therefore, when the three-dimensional panel 20 is moved, the three-dimensional panel 20 is turned off using the three-dimensional panel power switch 36, and when the three-dimensional panel 20 is moved to the corresponding display area, the three-dimensional panel power switch ( 36) Turn on to ensure the driver's pleasant visibility.

In the present invention, the priority of displaying the content image is set according to the urgency and importance of the content images displayed in the cluster, and it is determined whether the display is necessary for each of the content images, so that the priority of the content images to be displayed is relatively high. It may be configured to further include a three-dimensional image automatic display step so that the high content image is displayed in preference to other content images having a lower priority.

In other words, if there is only one stereoscopic image to be displayed in the cluster, it is not necessary to calculate the priority. However, if there is more than one stereoscopic image to be displayed in the cluster, the priority is calculated to implement the content image having high priority as a stereoscopic image. Display.

Referring to FIG. 7, since the warning lamp related information displayed in the first display area 11 is the first priority, the content image of the warning lamp related information is displayed in preference to other content images. If there is no content to display the content image related to the warning light, the content image for the vehicle-related information of the second rank is displayed, and if there is no content to display the second-order content image, the content related to the multimedia information corresponding to the third rank The image will be displayed, and likewise, there will be no content to display the 3rd content image, and the content image for the speedometer related information corresponding to the 4th rank will be displayed.

At this time, if the content image corresponding to the first or second rank should be displayed while the multimedia related information corresponding to the third rank is displayed, the first or second rank content image having a higher rank than the third rank content information is automatically displayed. The video of the first priority is displayed among the first and second content images. However, if the speedometer related content image corresponding to the fourth rank is to be displayed while the third rank corresponding content image is displayed, the content image corresponding to the third rank is ignored and continuously displayed.

The operation and effect of the present invention will be described in detail.

Referring to the method of manually implementing a 3D image in a cluster through the diagram shown in FIG. 8, after the driver starts up, the driver selects the manual mode in S10.

The implementation method of the stereoscopic image by the automatic mode will be described later. When the manual mode is selected (S20), the driver subsequently determines on / off of the stereoscopic panel power switch 36 in S30.

When the three-dimensional panel power switch 36 is turned off, a single image is displayed on the base panel 10 and the content image is displayed in the 2D mode. On the contrary, when the three-dimensional panel power switch 36 is turned on, the three-dimensional panel moves to S40. The movement switch 37 can be operated.

When the three-dimensional panel movement switch 37 is not operated in S40, the three-dimensional panel 20 is basically positioned in the second display region 12 and is activated in the 3D mode, and corresponds to the second display region 12 in S41. After extracting and storing the content image information, the content image corresponding to the second display region 12 is synthesized in step S42, and the content image corresponding to the second display region 12 through the stereoscopic panel 20. This is implemented as a stereoscopic image (S43).

In addition, when the stereoscopic panel shift switch 37 is operated in S40, the stereoscopic panel 20 moves to the first display region 11 or the third display region 13 depending on whether the stereoscopic panel shift switch 37 is operated. (S50) (S60) or may be moved back to the second display area 12 (S70).

When the stereoscopic panel 20 is moved to the first display area 11, the stereoscopic panel 20 is activated in the 3D mode, and the content image information corresponding to the first display area 11 is extracted and stored in S51. Subsequently, in S52, the content image corresponding to the first display area 11 is synthesized, and the content image corresponding to the first display area 11 is realized as a stereoscopic image through the stereoscopic panel 20 ( S53).

When the three-dimensional panel 20 is moved to the third display area 13, the three-dimensional panel 20 is activated in the 3D mode, and the content image information corresponding to the third display area 13 is extracted at S61. And storing and synthesizing the content image corresponding to the third display region 13 in S62, thereby realizing the content image corresponding to the third display region 13 as a stereoscopic image through the stereoscopic panel 20. (S63).

10 is a diagram illustrating an example in which a stereoscopic image is implemented as described above.

Meanwhile, referring to FIG. 9, a method of automatically implementing a 3D image in a cluster will be described. After the driver starts up, the driver selects the automatic mode in S10 (S100).

Subsequently, after analyzing various input signals entering the cluster (S110), at least one content image information to be displayed as a stereoscopic image is extracted from each display area of the cluster (S120).

In operation S130, priority is calculated among content images to be displayed in the cluster.

Through the above-described priority calculation, in operation S140, it is determined whether the display of the first priority content image is necessary. If the display of the first priority content image is required, the stereoscopic panel 20 displays the first display area in which the first priority content image is displayed. Moving to 11) (S241) the three-dimensional panel 20 is activated in 3D mode. Subsequently, in step S242, the first-order content image corresponding to the first display area 11 is synthesized, and the first-order content image is implemented as a stereoscopic image through the stereoscopic panel 20 (S243).

On the other hand, if it is not necessary to display the content image of the first rank in S140, the process moves to S150 to determine whether the display of the content image set to the second rank is necessary. In this case, when display of the second-order content image is required, the stereoscopic panel 20 is moved to the second display area 12 where the second-ranking content image is displayed (S251), and the stereoscopic panel 20 is activated in the 3D mode. Subsequently, in step S252, second-order content images corresponding to the second display area 12 are synthesized, and the second-order content image is implemented as a stereoscopic image through the stereoscopic panel 20 (S253).

In this way, it is determined whether the display of the third and fourth rank content image is required in S150 and S160, and if the display of the third or fourth rank content image is required, the stereoscopic panel 20 implements the content image of the corresponding rank. The display apparatus moves to the display area (S261) (S271) and is activated, and the content image corresponding to the ranking in the display area is synthesized (S263) (S273), thereby implementing a stereoscopic image (S263) (S273).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the specific embodiments set forth herein; rather, .

10: base panel 11: first display area
12: second display area 13: third display area
20: solid panel 21: barrier
22: slit 25: gear rail
26: pinion 27: motor
30: control unit 31: image determination unit
32: image storage unit 33: image conversion unit
34: video output unit 35: automatic mode switch
36: three-dimensional panel power switch 37: three-dimensional panel movement switch

Claims (12)

A base panel 10 provided in a cluster and configured to display an image of the content provided from the cluster as a single image or a composite image, and to display the image of the content in a predetermined region, and to display a divided display area;
A stereoscopic panel 20 provided in front of the base panel 10 and configured to be activated at a front position of a display area in which the composite image is displayed so that the content image is displayed as a stereoscopic image; And
A control unit 30 which analyzes an input signal input to the cluster and controls the base panel 10 to scan a single image or a composite image of a content image displayed on display regions; Device. The method according to claim 1,
The three-dimensional panel 20,
When the content image is displayed as a composite image in the display area, the vertical slits 22 and the barrier 21 are alternately formed at predetermined intervals to be activated, whereby the content images are stereoscopic images through the slits 22. An apparatus for implementing a stereoscopic image of a cluster for a vehicle, characterized in that configured to be viewed as. The method according to claim 1,
The stereoscopic panel 20 is a three-dimensional image implementing apparatus of a vehicle cluster, characterized in that to move to the front position of each display area of the base panel (10). The method according to claim 3,
A gear rail 25 is provided along the left and right longitudinal directions of the base panel 10;
The three-dimensional panel 20 is coupled to the gear rail 25;
The pinion 26 which rotates by the driving force of the motor 27 is joined to the end of the gear rail 25, the vehicle cluster characterized in that the three-dimensional panel 20 can move linearly with the gear rail 25. 3D image implementation device. The method according to claim 1,
A display area of the base panel 10 is divided into a plurality of display areas;
Each of the display areas is set by allocating within a horizontal number of pixels of the base panel 10;
And a content image is not displayed on a horizontal pixel at the end of each display area which is in contact with each display area. The method according to claim 1,
The control unit (30)
An image determination unit 31 for analyzing the input signal entering the cluster and extracting information on a content image to be displayed on a corresponding display area;
An image storage unit 32 for storing the content image extracted by the image determination unit 31;
An image converting unit 33 generating a feeling of protrusion on the content image stored in the image storing unit 32 to generate a left image and a right image of the corresponding content image; And
The left image and the right image on which the protruding feeling is formed are cut at regular intervals, and the odd-numbered image is alternated in one of the cut-out left and right images, and the even-numbered image in the other image is alternated with the pixels of the base panel 10. And scanning, by outputting the image output unit (34) for synthesizing the left image and the right image and outputting. A display area setting step of dividing and setting a display area in the base panel 10 provided in the cluster such that an image of content provided from the cluster is displayed in a predetermined area; And
The stereoscopic panel 20 is activated in the 3D mode at a position in front of the display area in which the composite image is displayed among the display regions, so that the stereoscopic image is displayed as the stereoscopic image at the position where the stereoscopic panel 20 is activated. Display step; stereoscopic image implementation method of a vehicle cluster comprising a. The method of claim 7,
The stereoscopic image display step,
When the content image is displayed as a composite image on the display area, the barrier 21 and the slits 22 perpendicular to the three-dimensional panel 20 are alternately formed at predetermined intervals, thereby being activated. The stereoscopic image implementation method of a vehicle cluster, characterized in that to be shown as a stereoscopic image through (22). The method of claim 7,
The three-dimensional panel 20 is a method of implementing a stereoscopic image of a vehicle cluster, characterized in that the control to move the content image to the front position of the display area to be displayed as a composite image manually or automatically. The method of claim 9,
And controlling the stereoscopic image not to be displayed while the stereoscopic panel 20 moves from one display area to another display area. The method of claim 7,
The stereoscopic image display step,
A signal analysis step of extracting information on a content image to be displayed on a corresponding display area by analyzing an input signal entering the cluster;
An image storing step of storing a content image with respect to the extracted content image information;
An image conversion step of generating a feeling of protrusion on the stored content image to generate a left image and a right image of the corresponding content image; And
The left image and the right image on which the protruding feeling is formed are cut at regular intervals, and the odd-numbered image is alternated in one of the cut-out left and right images, and the even-numbered image in the other image is alternated with the pixels of the base panel 10. And outputting the image by synthesizing the left image and the right image by scanning the scanned image. The method of claim 7,
The stereoscopic image display step,
The priority order of displaying the content image is set according to the urgency and importance of the content images displayed in the cluster, and it is determined whether the content image is required for each of the content images. And a stereoscopic image automatic display step of displaying the content in priority over other content images having a relatively low priority.

Images