JP2003225429A - Picture display device for pachinko machine, and picture displaying method and picture displaying program for the picture display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a picture display device for a pachinko machine and a picture displaying method for the picture display device by which optical characteristics can be reproduced under the restriction of a limited size and cost. <P>SOLUTION: The picture display device 100 for the pachinko machine has a display means 200. In the case of displaying picture information on the display means 200, a depth processing means 5 is added to a picture processing means 3. <P>COPYRIGHT: (C)2003,JPO

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pachinko machine.
Image information display apparatus and method for displaying image information
In particular, for image display devices in pachinko machines,
In the rendering process, the background and depth of
In a pachinko machine that can express a more realistic feeling
Image display device and pachinko machine image display device
The image display method. 2. Description of the Related Art Conventionally, image display of a pachinko machine has been used.
When displaying desired display image information on the display means of the device,
In order to obtain a variety of display image information,
Performing predetermined arithmetic processing between images in a newsroom
Has been proposed, but the image display device of the pachinko machine
The cost, processing time, size of processing equipment, etc.
Due to various restrictions, inter-image processing such as translucent processing is not performed.
In the drawing of the display image information.
The problem is that the expression or production is monotonous and has little change
There was. [0003] Conventionally, image display devices of pachinko machines have been used.
In most cases, all displayed objects are
Processing to display in focus is being performed
Therefore, the displayed object is planar and has a sense of depth.
There was no real feeling. As a method for solving such a problem, for example,
For example, rendering processing of three-dimensional display image information (3D model)
In order to reproduce the optical characteristics,
When calculating the position)
It is necessary to calculate Dell again for the 3D,
Performs a variety of effects as the drawing processing time is significantly longer
Things were impossible. [0005] Therefore, the image display device of the pachinko machine is required.
In the display image in the
In the same way, the part with the bint is expressed as a clear image.
The part that is out of focus is blurred
Realistic display image with a sense of depth as expressed
Image display device of pachinko machine capable of expressing information is desired
Was. SUMMARY OF THE INVENTION Accordingly, an object of the present invention
Improves the above-mentioned disadvantages of the prior art, and
Of limited size and cost
A snap that can reproduce the optical characteristics within the constraints
The image display device of the machine and the image display device of the pachinko machine
The present invention provides a method for displaying an image. The present invention achieves the above objects.
Therefore, the technical configuration as described below is adopted.
It is. That is, the first aspect according to the present invention includes a table
In a pachinko machine image display device having
When displaying the image information on the display means, the image processing means
Table of pachinko machine with depth processing means added to
And a second embodiment of the present invention.
Is an image display device of a pachinko machine having a display means.
When displaying image information on the display means,
Depth processing in the process of drawing display image information
Image display device of a pachinko machine configured to perform
Image display method. DESCRIPTION OF THE PREFERRED EMBODIMENTS The image of the pachinko machine according to the present invention is shown.
Image display method in image display device or pachinko machine
The image display device adopts the technical configuration as described above.
In particular, three-dimensional display image information (3D model)
The depth processing was adopted when performing the drawing processing.
Therefore, when drawing a 3D model,
It is easy to reproduce the optical characteristics of the desired object
And the drawing process is executed in a short time,
Pachi that enables a variety of realistic and realistic effects
This makes it possible to obtain an image display device of a paper machine. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an image of a pachinko machine according to the present invention will be described.
Image on image display device and image display device of pachinko machine
The configuration of a specific example of the display method will be described in detail with reference to the drawings.
I will tell. That is, FIG. 1 shows a pachinko machine according to the present invention.
Block diagram showing the configuration of a specific example of an image display device
A pachinko machine having a display means 200 in the figure.
Display means 200 in the image display device 100 of the machine.
In displaying the image information, the image processing means 3
Image display device of a pachinko machine to which
An arrangement 100 is shown. That is, in the present invention, the image of the pachinko machine is used.
When shooting images with a camera on an image display device,
The focused and blurred parts are displayed according to the point distance.
Reproduced optical characteristics are displayed on digital display image information
The display image information to be drawn.
At the specified part, the focused part and the blurred part
And overwrite the image data whose color density has been adjusted lightly.
Utilize depth processing such as using translucent processing
This achieves the object of the present invention. [0010] Image display of the pachinko machine according to the present invention
As an example of a specific configuration of the device 100, the display unit 20
A pachinko machine image display device 100 having 0
Pachinko machine for displaying image information on the display means 200
In the image display device 100 of FIG.
CG memory 2 for storing information and display data
The display data storage frame memory 4 and the CG memory 2
In the multiple display original image information stored in the
Device 1 for selecting predetermined display image information from the
Table selected from the CG memory 2 in response to the
Image processing means 3 for performing drawing processing of the indication original image information;
The selected display image provided in the image processing means 3
Depth processing means for performing predetermined depth processing on information
5. This is where the depth-processed drawing data is stored.
From the display data storage frame memory 4, a desired display
Image display for selecting image information and transferring it to display means 200
The control unit 6, the display unit 200, and the operation in each of the above-described devices.
Software storage for storing software that controls operations
Means 8 and an arithmetic and control unit for controlling the operation of each device described above.
Image display device of a pachinko machine constituted by
100. The image display device 100 of the pachinko machine of the present invention.
If the structure of one specific example is described in more detail, the present invention
Image processing means 3 has a conventionally known function.
And the depth treatment used in the present invention.
As a specific example of the means 5, a predetermined display image information
Multiple images with lightly adjusted color density in image data
Overwrite data while shifting the drawing position to each other
It is desirable that an image adding means 51 be provided.
Adds N image data to the depth processing means 5.
When calculating and superimposing, the image data here
Color density in the predetermined display image information.
Color density coefficient setting means 50 for setting 1 / N of
The color density coefficient set by the density coefficient setting means 50
Use to adjust the color density of the specified image data.
It is also preferable that the degree adjusting means 52 is provided. That is, in one embodiment of the present invention, FIG.
As shown in Fig. 4, the specified part to be displayed
Of the display image information
Image data required for overlaying in response to the distance from the viewpoint
The number of data (depth effect number N)
The color density of these image data is set to
In the display image information of the drawing target position of the image data,
The color density of the image data.
Each of which is set according to the depth effect number N.
The deviation width of the drawing position of the image data, that is, the image data
According to the width of deviation from the drawing target position of the
Repeat while shifting the image data with the adjusted color density
The drawing process is performed by adding back and adding
is there. That is, in FIG. 4, predetermined display image information
Target position (target part) O for drawing predetermined image data
When the number of depth effects in is set to 4, the given image
The four sheets used in the data drawing target portion O
Each of the image data g1 to g4 corresponds to the display image information.
The color of the image data g0 at the drawing target portion O in the drawing
The color density is reduced to 1/4 of the density.
Thus, the first image data g1 is as shown in FIG.
Is shifted from the drawing center portion 0 by a predetermined shift width d.
Is drawn at the position. Thereafter, as shown in FIG.
Image data g2 of a predetermined
At the position shifted by the width d, the first image data g
The addition processing is performed so that part of the data overlaps with 1. Next, as shown in FIG.
Is the first image data g3 of the drawing center part 0
At the position shifted by a predetermined shift width d from the first and second positions.
Partial overlap with the second image data g1 and g2
4D, and finally, as shown in FIG.
The fourth image data g4 is located from the drawing center portion 0
At the positions shifted by the fixed shift width d, the first to third positions
Of image data g1 to g3 are added so that a part of them
It is processed and rendered. As a result, as shown in FIG.
The center of the obtained image data is the drawing target of the image data.
The same as the color density of the image data at the position
Color density, and the surrounding area has a blurred color density.
It has a degree, and the sense of depth is reproduced. In this specific example, in the depth processing,
The number N of the image data to be superimposed, that is, the depth
The effect number N is a predetermined display image to be displayed.
It is determined in response to the distance from the information perspective.
For example, if the drawing target part is far from the viewpoint,
Then, the number of N becomes large, and becomes small when it is near. In this embodiment, each image data is drawn.
The position deviation width is also the specified display image to be displayed.
It is determined in response to the distance of the image information from the viewpoint.
Therefore, for example, if the drawing target part is far from the viewpoint,
If it is, the deviation width becomes large, and if it is close, it becomes small. The function is linear and useful in any case.
Or a non-linear transformation using an arbitrary function.
It may be the one that makes it. In addition, a plurality of the same drawing target portions
Even if the deviation width between the image data of
It can be set well or differently. On the other hand, the color density coefficient in this specific example
Of the predetermined display image information to be displayed.
Determined in response to distance from a point, for example
If the drawing target part is far from the viewpoint,
The density coefficient decreases, and increases nearer. The color density coefficient also depends on the viewpoint distance.
May be changed linearly, or may be changed non-linearly
Is also good. For this reason, the depth processing in this specific example
Means 5 further attempts to display the information, as shown in FIG.
To the distance from the viewpoint of the given display image information
Depth effect that sets the number of depth effects that determines the number of overwrites
It is desirable to have a fruit number setting means 53, furthermore,
In response to the depth effect number, the depth effect number n th
A shift width setting unit 54 for determining the shift width of the drawing position
Is desirable. In this embodiment, as described later,
The depth processing means 5 stores the depth effect number.
The depth effect number storage means 56 and the color density
Each time the addition process is performed while shifting multiple image data
The depth effect counter 55 that counts the number of times of the processing is
It is also desirable to be provided. Note that, as shown in FIG.
In the image display device 100 of the pachinko machine, the table
The display data storage frame memory 4 stores a normal display image.
A display area 42 for storing information drawing data,
Temporarily converts image data from a predetermined viewpoint in the display image information.
That the temporary area 41 is provided.
desirable. Next, the drawing process in the above specific example
An example of the operation procedure of the method will be described with reference to FIG.
The case of drawing a file will be described in detail. That is, after the start in FIG.
In (S-1), a 3D model to be displayed is selected.
Then, the process proceeds to step (S-2) where the selected 3D model is
Dell drawing data is determined by arithmetic processing. Thereafter, in step (S-3), the display
Whether to perform depth processing when rendering image information
If determined to be NO, the process proceeds to step (S-4).
Going forward, the 3D model is stored in the display data storage frame
Drawing is performed on the display area 42 of the memory 4 and the step (S-5)
In the above, the drawn 3D model is the last 3D model.
Is determined. NO in the step (S-5)
In this case, the number of the 3D model is incremented by one, and
Returning to step (S-1), the above steps are repeated.
You. On the other hand, in step (S-5),
If there is, go to step (S-7)
The image information is displayed and END is displayed. On the other hand, in step (S-3), the data
When executing the pass process, the process proceeds to step (S-8).
In the display data storage frame memory 4,
The drawing data of the display image information is stored in the time area 41,
In step (S-9), the data is determined according to the distance from the viewpoint.
The number of pass effects N is set. Next, the process proceeds to step (S-10), where
The count value n of the push effect counter 55 is initialized (n ←
1) Then, the process proceeds to step (S-11), and from the viewpoint
Depth effect number n shift width and color density coefficient due to distance etc.
Is set by arithmetic processing. Thereafter, in step (S-12),
Image data stored in the temporary area
Then, in step (S-13), the read image
Use the color density coefficient for the data to reduce the color density.
After performing the following processing, in step (S-14),
For display in the display data storage frame memory 4
In the area 42, the target display portion 0 of the image data is
Overwriting while adding to the base using the specified deviation width
The drawing process is performed in response to the request. As the base, image data indicating the background
May also be used.
It may be at least a part. Thereafter, the process proceeds to step (S-15),
The depth effect counter has a count value n and a predetermined value.
It is determined whether or not the depth effect number N matches, and N
If it is O, the process proceeds to step (S-16),
The step effect count value is incremented by 1 (n ← n + 1) steps.
Returning to step (S-11), the above steps are repeated.
You. In the case of YES in the step (S-15)
Returning to step (S-5), the above steps are repeated.
Will be returned. Next, another embodiment of the present invention will be described with reference to FIGS.
This will be described in detail with reference to FIG. That is, as a second specific example of the present invention,
Means that the depth processing means 5 relates to predetermined display image information.
After drawing the image data itself,
Around the image data of the displayed image information
Through the translucent process using a predetermined translucency coefficient
Although the drawing positions of a plurality of the image data are shifted from each other,
With a translucent processing means 57 for overwriting
is there. In this embodiment, the same as the above-described embodiment is used.
As described above, the depth processing means 5 further performs the display.
Responds to the distance from the viewpoint of the specified display image information
Depth to determine the number of overwrites to be applied
The number-of-effects setting means 53 and the set value of the depth-effects number are described.
It is desirable to provide a storage means 56 for storing. In this embodiment, the same as the above embodiment is used.
In addition, the depth processing means 5 further includes the depth effect.
The depth effect number n in the drawing position in response to the
Displacement width setting means 54 for setting the displacement width and the drawing position
Translucency coefficient setting means 5 for calculating the translucency coefficient in the device
It is desirable to have eight. That is, in this specific example, the original position
After drawing predetermined image data at (drawing target position),
Multiple image data are shifted from each other according to the distance from the point.
Rendering process by base and semi-transparent processing respectively
Things. In this embodiment, the depth processing means
5 is a depth effect number storage for storing the depth effect number.
Means 56 and a plurality of image data adjusted for the translucency coefficient.
Each time an addition process is performed while shifting the
That there is a depth effect counter 55
desirable. Next, the drawing process in the above specific example
An example of the operation procedure of the method will be described with reference to FIG.
The case of drawing a file will be described in detail. That is, after the start in FIG.
At (S-21), the 3D model to be displayed is selected.
Then, the process proceeds to step (S-22), and the selected 3
The drawing data of the D model is determined by arithmetic processing. Thereafter, in step (S-23), the table
Depth when rendering display image information
It is determined whether or not to execute the processing.
Goes to step (S-24), and converts the 3D model
In the display area 42 of the display data storage frame memory 4,
Is drawn, and in step (S-25), the drawn
It is determined whether the 3D model is the last 3D model.
It is. NO in the step (S-25)
In this case, the number of the 3D model is incremented by one,
Returning to step (S-21), the above steps are repeated.
Is done. On the other hand, YES in step (S-25)
If it is, the process proceeds to step (S-27),
The display image information is displayed and END is displayed. On the other hand, in step (S-23),
If depth processing is to be performed, step (S-28)
In the display data storage frame memory 4
The drawing data of the display image information is stored in the temporary area 41
Then, in step (S-29), the temporary area 4
Read out the image data stored in step 2
In (S-30), the read image data is
Drawing is performed in the display area 41. Thereafter, the process proceeds to step (S-31), where
The depth effect number N is set according to the distance from the point. Then, the process proceeds to a step (S-32), wherein
The count value n of the push effect counter 55 is initialized (n ←
1) Then, the process proceeds to step (S-33), and from the viewpoint
Depth effect number n shift width and translucency coefficient due to distance etc.
Is set by arithmetic processing. Thereafter, in step (S-34),
Image data stored in the temporary area
Then, in step (S-35), the read image
Using the translucent coefficient for the data,
Display area 42 in data storage frame memory 4
In the target display part 0 of the image data
Overwriting while using semi-transparent processing with the base using the deviation width
The drawing process is performed in response to the request. Thereafter, the flow advances to step (S-36), where
The depth effect counter has a count value n and a predetermined value.
It is determined whether or not the depth effect number N matches, and N
If it is O, the process proceeds to step (S-37),
The step effect count value is incremented by 1 (n ← n + 1) steps.
Returning to step (S-37), the above steps are repeated.
You. If YES in step (S-36)
Returning to step (S-25),
Repeated. As is apparent from the description of each of the specific examples described above.
In the image display device of the pachinko machine according to the present invention,
As an image display method, basically, there is a display unit.
In the image display device of the pachinko machine, the display means
When displaying image information, desired display image information is drawn.
Depth processing is performed in the process of processing
In one specific example, the depth processing is
Color density in image data related to fixed display image information
Draw positions of multiple thinly adjusted image data
It is characterized by overwriting while shifting.
As another specific example, the depth processing is performed in a predetermined table.
After drawing the image data itself related to the display image information
Around the image data of the drawn display image information
At the same time, using a predetermined translucency coefficient through a predetermined shift amount.
Draw multiple translucent image data
Characterized by overwriting while shifting the image position
It is. In the present invention described above, any specific
In the example, also in the depth processing, the depth effect number
The depth effect number stored in the storage means and the half
While shifting multiple image data with transparency factor set
Depth effect that counts the number of processing each time addition processing is performed
By comparing the count value of the result counter,
It is configured to control the drawing process of the display image information
Things are desirable. Image of the above-mentioned pachinko machine in the present invention
The basic operation procedure of the image display method on the display device
In a pachinko machine image display device having display means,
The display means comprises a predetermined number of frames.
When displaying the selected image information, the selected display image information
A first step of selecting the type of drawing processing for
Whether to execute depth processing for the selected display image information
Second step of determining whether the selected display image information
If depth processing is not performed on the
A third step of performing normal drawing processing of the information;
When performing depth processing on display image information,
A drawing process is performed to store the display image information in the temporary area.
The fourth step is to display in the display image information.
Overwriting in response to the distance from the viewpoint
Determines the number of depth effects that sets the number of image data used
Based on the depth effect number,
The color density coefficient of the image data at the image position and the image
Calculate and determine the deviation width for drawing data
The sixth step, the display image stored in the temporary area
Reading display image information at a predetermined viewpoint from the information
Step 7, image data of the read display image information
The image data using the color density coefficient set for
An eighth step of adjusting the color density of the
The image data according to the information of the set shift width.
A ninth drawing is performed while adding a base to the determined position.
Image display device for pachinko machine, comprising:
The image display method in
Is an image display device of a pachinko machine having a display means.
The display means comprises a predetermined number of frames.
When displaying the selected image information, the selected display image information
1A step of selecting the type of drawing processing for
Whether to perform depth processing on the selected display image information
2A step of determining whether or not the selected display image
If no depth processing is performed for the information,
Step 3A of normal drawing processing of image information, selection
When performing depth processing on displayed image information
Is a rendering process for storing the display image information in the temporary area.
4A step of performing the process, which is stored in the temporary area.
Reads display image information from a predetermined viewpoint from display image information.
Step 5A of drawing out and drawing in the display area;
From the viewpoint of the image position to be displayed in the image information
Number of image data used for overlay in response to distance
6A step of determining the depth effect number for setting
Based on the number of depth effects, the image
Data translucency coefficient and the deviation width for drawing the image data
7A, which is determined by arithmetic processing,
From the display image information stored in the time domain to a predetermined viewpoint
8A step of reading out the display image information again in the
The display image at the predetermined viewpoint read in the step 8A
The set translucency coefficient for the image data of the image information
Is used to display the image of the display image information at the predetermined viewpoint.
Around the image data, according to the information of the set shift width
Ninth drawing at a position determined by translucent processing
Image display of the pachinko machine composed of the process A
This is an image display method in the device. In another embodiment of the present invention, a table
In a pachinko machine image display device having
The display means displays image information composed of a predetermined number of frames.
Information is displayed, the selected display image information
A first step of selecting the type of drawing processing,
Determines whether to perform depth processing on display image information
In the second step, the selected display image information is decoded.
When not performing the pass processing, the display image information
The third step of the usual drawing processing, the selected display image
When performing depth processing on the information,
Fourth, a rendering process is performed to store image information in a temporary area.
Process, image to be displayed in the display image information
Used for overlaying in response to the distance of the position from the viewpoint
Set the number of image data to be determined.
5, the image position based on the depth effect number
The color density coefficient of the image data in
A sixth method for determining the shift width to be drawn by arithmetic processing
Process, from the display image information stored in the temporary area
Seventh step of reading display image information from a predetermined viewpoint
The image data of the read display image information
Color of the image data using the color density coefficient set in
Eighth step of adjusting the density, the color density is adjusted.
Image data is determined according to the information of the set shift width.
Ninth step of drawing while adding a base at the position where
In the image display device of the pachinko machine composed of
Program to make a computer execute an image display method
And in still another embodiment, a display means.
Display means for the image display device of a pachinko machine
Display image information composed of a predetermined number of frames
In doing so, the drawing process for the selected display image information
1A step of selecting the type of the selected display image
The second step is to determine whether to perform depth processing on image information.
Step 2A: Depth of the selected display image information
When the processing is not executed, the display image information is
3A step of drawing processing, the selected display image information
When depth processing is performed on a report, the display image
4A that performs a drawing process to store information in a temporary area
Process, from the display image information stored in the temporary area
Reads out display image information at a predetermined viewpoint and displays
5A step of drawing in the table, the table in the display image information
In response to the distance of the image location to be shown from the viewpoint,
Depth to set the number of image data used for overlay
Step 6A for determining the number of effects, based on the number of depth effects
The translucent coefficient of the image data at the image position
And the shift width for drawing the image data.
7A, which is stored in the temporary area.
Display image information at a predetermined viewpoint from the displayed image information
8A step of reading out the information again,
The image data of the displayed image information at the predetermined viewpoint
Using the set translucency coefficient for the
Around the image data of the display image information at a predetermined viewpoint
The position determined according to the information of the set shift width.
9A step of drawing while translucent processing
Of the image display device of the pachinko machine
A program for causing a computer to execute the image display method
It is. The present invention is applicable to various application software.
It is a basic architecture that can support The image display of the pachinko machine according to the present invention.
To display images on image display device of pachinko machine and pachinko machine
Since the law adopts the technical configuration described above,
By performing depth processing at the time of drawing, the image of the pachinko machine
In the display device, the focus is adjusted depending on the focal length,
To reproduce the optical characteristics of a lens that is out of focus
Is possible, for example, the focus is set on the projection plane
As if the object near the projection plane is in focus
Objects that are distant from the projection plane.
Is displayed, giving a sense of depth and realism
Will be. Also, as in the conventional method, the gaze is shifted
The calculation time is short because the calculation method is not used.
Images that can be reduced and thereby rendered
Increases, and sophisticated and versatile production becomes possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a configuration of a specific example of an image display device of a pachinko machine according to the present invention. FIG. 2 is a block diagram schematically showing the configuration of another specific example of the image display device of the pachinko machine according to the present invention. FIG. 3 is a block diagram schematically showing a configuration of another specific example of the image display device of the pachinko machine according to the present invention. FIG. 4 is a diagram illustrating the principle of a specific example of an image display method in an image display device of a pachinko machine according to the present invention. FIG. 5 is a flowchart illustrating a flow of an operation procedure in a specific example of the image display method in the image display device of the pachinko machine according to the present invention. FIG. 6 is a flowchart illustrating a flow of an operation procedure in another specific example of the image display method in the image display device of the pachinko machine according to the present invention. DESCRIPTION OF SYMBOLS 1 Drawing apparatus 2 CG memory 3 Image processing means 4 Display data storage frame memory 5 Depth processing means 6 Image display control device 7 Control processing means (CPU) 8 Software storage means 100 Image display device 200 of pachinko machine Display means 51 image adding means 50 color density coefficient setting means 52 color density adjusting means 53 depth effect number setting means 54 shift width setting means 56 depth effect number storage means 55 depth effect counter 42 display area 41 temporary area 57 translucent processing means 58 Translucent coefficient setting means

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G06T 15/70 G06T 15/70 A F term (Reference) 2C088 AA36 EB55 5B050 AA10 BA08 BA09 BA18 EA07 EA09 EA19 EA24 EA28 FA02 FA05 FA09 5B057 AA20 CA08 CA13 CB08 CB13 CE08 CE11 CE16 CH01 CH11 DA16 5B080 CA01 FA02 FA08 FA17

Claims (1)

Claims 1. In an image display device of a pachinko machine having a display means, when displaying image information on the display means, a depth processing means is added to the image processing means. An image display device for a pachinko machine. 2. The image processing apparatus according to claim 1, wherein the depth processing unit includes an image adding unit that overwrites a plurality of pieces of image data in which the color density of the image data relating to the predetermined display image information has been adjusted to be low while shifting the drawing positions with respect to each other. 2. The image display device for a pachinko machine according to claim 1, wherein: 3. When the N pieces of image data are added and superimposed by the depth processing means, the color density of the image data is determined by the color density of the predetermined display image information. 3. The image display device of a pachinko machine according to claim 1, further comprising a color density adjusting means for setting 1 / N. 4. The apparatus according to claim 1, wherein the number N of the image data to be superimposed in the depth processing means is determined in response to a distance from the viewpoint of the predetermined display image information to be displayed. The image display device for a pachinko machine according to claim 2 or 3, wherein 5. The depth processing means further comprises a depth effect number setting means for setting a depth effect number for determining the number of overwrites in response to a distance from the viewpoint of the predetermined display image information to be displayed. The image display device of a pachinko machine according to any one of claims 1 to 4, wherein: 6. The depth processing unit further includes: a shift width setting unit that determines a shift width of the nth depth effect drawing position in response to the depth effect number; and a color at the drawing position. 5. The image display device for a pachinko machine according to claim 4, further comprising a color density setting means for calculating a density coefficient. 7. The depth processing means includes a depth effect number storage means for storing the depth effect number, and counts the number of times of processing each time the addition processing is performed while shifting a plurality of image data whose color densities are adjusted to be low. 7. The image display device of a pachinko machine according to claim 1, further comprising a depth effect counter. 8. The depth processing means, after drawing the image data pertaining to the predetermined display image information, and surrounding the image data of the drawn display image information by a predetermined amount via a predetermined shift amount. 2. The image of a pachinko machine according to claim 1, further comprising a translucent processing unit that overwrites a plurality of the image data that has been translucently processed using a transparency coefficient while shifting a drawing position with respect to each other. Display device. 9. The depth processing means further comprises a depth effect number setting means for setting a depth effect number for determining the number of overwrites in response to a distance from the viewpoint of the predetermined display image information to be displayed. The image display device for a pachinko machine according to claim 8, wherein 10. The depth processing means further includes: a shift width setting means for setting a shift width at a drawing position of the nth depth effect number in response to the depth effect number; The image display device for a pachinko machine according to claim 8, further comprising a translucent coefficient setting unit configured to calculate a translucent coefficient in the pachinko machine. 11. The depth processing means includes a depth effect number storage means for storing the depth effect number, and counts the number of times of processing each time the addition processing is performed while shifting a plurality of image data in which the translucent coefficient is adjusted. 11. A depth effect counter is provided.
3. The image display device of a pachinko machine according to claim 1. 12. An image display device of a pachinko machine having a display means, wherein the display means stores a plurality of original image information for display in the image display device of a pachinko machine for displaying image information. CG memory, display data storage frame memory for storing display data, drawing device for selecting predetermined display image information from the plurality of display original image information stored in the CG memory, drawing Image processing means for rendering the display original image information selected from the CG memory in response to the apparatus, and performing a predetermined depth process on the selected display image information provided in the image processing means. Depth processing means for performing, selecting desired display image information from the display data storage frame memory storing the depth-processed drawing data, and transferring the selected display image information to the display means Image display control means, display means, software storage means for storing software for controlling the operation in each of the above devices, and arithmetic control processing means for controlling the operation of each of the above devices. Image display device of a pachinko machine. 13. The image display device of a pachinko machine according to claim 12, wherein said depth processing means includes a color density adjusting means and an image adding means. 14. The apparatus according to claim 13, wherein said depth processing means further includes at least a part of a color density coefficient setting means, a depth effect number setting means, and a shift amount setting means. Image display device for pachinko machines. 15. The image display device of a pachinko machine according to claim 12, wherein said depth processing means includes a translucent processing means. 16. The apparatus according to claim 15, wherein said depth processing means further includes at least a part of a translucent coefficient setting means, a depth effect number setting means, and a shift amount setting means. Image display device for pachinko machines. 17. An image display device of a pachinko machine having a display means, wherein when displaying image information on the display means, performing a depth process in a step of drawing desired display image information. Characteristic image display method in a pachinko machine image display device. 18. The depth processing according to claim 1, wherein a plurality of pieces of image data in which the color density of the image data relating to the predetermined display image information is adjusted to be low are overwritten while shifting the drawing positions with respect to each other. 18. The image display method for an image display device of a pachinko machine according to claim 17. 20. In the depth processing, when adding and superimposing N pieces of image data, the color density in the image data is set to 1 / N of the color density in the predetermined display image information. 19. The image display method in an image display device of a pachinko machine according to claim 17, wherein a drawing process is performed by setting the image display device to the image processing apparatus. 21. In the depth processing, the number N of the superimposed image data is determined in response to a distance from a viewpoint of the predetermined display image information to be displayed. An image display method in the image display device for a pachinko machine according to any one of claims 17 to 20. 22. In the depth processing, a depth effect number is set, and in response to the depth effect, a shift width of the nth depth effect drawing position is determined or a color at the drawing position is determined. 22. The image display method for an image display device of a pachinko machine according to claim 17, wherein a density coefficient is calculated. 23. In the depth processing, the number of times of processing each time the addition processing is performed while shifting the depth effect number stored in the depth effect number storage unit and the plurality of image data whose color density is adjusted to be light. 23. The image display device of a pachinko machine according to claim 17, wherein a drawing process of the display image information is controlled by comparing a count value of a depth effect counter that counts the number of times. Image display method. 24. The depth processing according to claim 1, wherein after the image data itself relating to the predetermined display image information is drawn, a predetermined translucent area is provided around the image data of the drawn display image information via a predetermined shift amount. 18. The image display method for an image display device of a pachinko machine according to claim 17, wherein a plurality of pieces of the image data which have been subjected to the translucent processing using the coefficients are overwritten while shifting the drawing positions. 25. The depth process further comprising the depth effect number n in response to a depth effect number that determines the number of overwrites in response to the distance from the viewpoint of the predetermined display image information to be displayed. 25. The image display method for an image display device of a pachinko machine according to claim 24, wherein a shift width at the drawing position is set and a translucency coefficient at the drawing position is calculated. 26. In the depth processing, each time the depth effect number stored in the depth effect number storage means is added to the plurality of image data set with the translucent coefficient while being shifted, the processing is performed. 26. The image display device of a pachinko machine according to claim 17, wherein drawing processing of the display image information is controlled by comparing a count value of a depth effect counter for counting the number of times. Image display method. 27. In a pachinko machine image display device having a display means, when displaying image information on the display means, a first step of selecting a type of drawing processing for the selected display image information; A second step of determining whether or not to perform depth processing on the selected display image information; if not performing depth processing on the selected display image information, the display image information A third step of drawing processing, a fourth step of performing drawing processing to store the display image information in a temporary area when depth processing is performed on the selected display image information, A fifth step of determining a depth effect number for setting the number of image data used for overwriting in response to a distance from the viewpoint of an image position to be displayed in the information, A sixth step of calculating and calculating a color density coefficient of image data at the image position and a shift width for drawing the image data, respectively, based on display image information stored in the temporary area. A seventh step of reading the display image information from the viewpoint of the above, and an eighth step of adjusting the color density of the image data using the color density coefficient set for the image data of the read display image information. And a ninth step of drawing the image data, the color density of which has been adjusted, at a position determined according to the information of the set shift width while adding the background to the image data. Image display method in an image display device of a pachinko machine. 28. An image display device for a pachinko machine having a display means, wherein, when displaying image information on the display means, a first A step of selecting a type of a drawing process for the selected display image information; A 2A step of determining whether or not to execute the depth processing on the selected display image information; if the depth processing is not to be performed on the selected display image information, the display image information is A 3A step of drawing processing, a 4A step of performing drawing processing to store the display image information in a temporary area when depth processing is performed on the selected display image information, 5A: reading out display image information at a predetermined viewpoint from the display image information stored in the display image information and drawing the display image information in the display area; 6A: determining a depth effect number for setting the number of image data to be used for overwriting in response to the distance from the viewpoint of the position, and, based on the depth effect number, an image at the image position. A step 7A of determining the translucent coefficient of the data and the shift width for drawing the image data by arithmetic processing, and re-displaying the display image information at a predetermined viewpoint from the display image information stored in the temporary area. An 8A step of reading, and using the set translucency coefficient for the image data of the display image information at the predetermined viewpoint read in the 8A step, at the predetermined viewpoint. A 9A step of drawing at a position determined according to the information of the set shift width around the image data of the display image information while performing translucent processing. An image display method for an image display device of a copier. 29. In a pachinko machine image display device having display means, when displaying image information on the display means, a first step of selecting a type of drawing processing for the selected display image information; A second step of determining whether or not to perform depth processing on the selected display image information; if not performing depth processing on the selected display image information, the display image information A third step of drawing processing, a fourth step of performing drawing processing to store the display image information in a temporary area when depth processing is performed on the selected display image information, A fifth step of determining a depth effect number for setting the number of image data used for overwriting in response to a distance from the viewpoint of an image position to be displayed in the information, A sixth step of calculating and calculating a color density coefficient of image data at the image position and a shift width for drawing the image data based on the display image information stored in the temporary area. A seventh step of reading the display image information from the viewpoint of the above, and an eighth step of adjusting the color density of the image data using the color density coefficient set for the image data of the read display image information. And a ninth step of drawing the image data, the color density of which has been adjusted, at a position determined according to the information on the set shift width while adding the background to the image data of the pachinko machine. A program for causing a computer to execute an image display method on a display device. 30. An image display device of a pachinko machine having a display means, wherein, when displaying image information on the display means, a first A step of selecting a type of a drawing process for the selected display image information; A 2A step of determining whether or not to execute the depth processing on the selected display image information; if the depth processing is not to be performed on the selected display image information, the display image information is A 3A step of drawing processing, a 4A step of performing drawing processing to store the display image information in a temporary area when depth processing is performed on the selected display image information, 5A: reading out display image information at a predetermined viewpoint from the display image information stored in the display image information and drawing the display image information in the display area; 6A: determining a depth effect number for setting the number of image data to be used for overwriting in response to the distance from the viewpoint of the position, and, based on the depth effect number, an image at the image position. A step 7A of determining the translucent coefficient of the data and the shift width for drawing the image data by arithmetic processing, and re-displaying the display image information at a predetermined viewpoint from the display image information stored in the temporary area. An 8A step of reading, and using the set translucency coefficient for the image data of the display image information at the predetermined viewpoint read in the 8A step, at the predetermined viewpoint. A 9A step of drawing at a position determined according to the information on the set shift width around the image data of the display image information while drawing the image while translucent processing. A program for causing a computer to execute an image display method in a device.