JP2004174016A - Lamp device and game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lamp device which enables the arrangement of a desired number of illuminants or others regardless of the areas, wide or narrow, of the installing sites and a game machine equipped with such a lamp device. <P>SOLUTION: The lamp device is provided with a light reflector 860, the first illuminant 830 (for example, a cold cathode tube) arranged in front of the light reflector 860, the second illuminant 820 (for example, a LED) arranged behind the light reflector 860. The light reflector 860 reflects the light generated from the first illuminant 830 and lets the light generated from the second illuminants 820 pass ahead of the light reflector 830. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a "lamp device" and a game such as a so-called seven-machine, a wing, a right ball or a ball game machine such as an arrangement ball, and a coin-type game machine (spindle-type game machine) such as a slot machine. Machine). In particular, the present invention relates to a lamp device that can be suitably used as an illumination device of a game machine and the like, and a game machine provided with such a lamp device.
[0002]
[Prior art]
For example, in various game machines such as a ball game machine and a coin-type game machine, a luminous body (a light emitting element, a light bulb, or the like) is provided on a front portion (for example, a front surface of a game board of a ball game machine). It has been practiced to arrange the configured lamp devices. In such a gaming machine, it is common to perform a decoration (hereinafter, referred to as an “electric decoration”) for lighting and blinking this kind of lamp device to enhance the atmosphere of the game.
[0003]
On the other hand, there are few empty spaces on the front side of various game machines, and it may be difficult to arrange a desired number of light emitters. For example, a large number of board components and the like are arranged on the front side of the game board, and it may be difficult to secure a sufficient empty space.
[0004]
For this reason, various techniques have been proposed for improving the illumination effect with a small number of light emitters. For example, there has been proposed a gaming machine in which a light diffusion lens is provided on the front surface of a lamp case on which a light-emitting body is mounted, and a reflector is disposed in the lamp case (see Patent Document 1). In addition, a luminous body for decorating a board component is arranged on a game board, and a mirror member capable of projecting an image of the luminous body is provided in front of the luminous body and substantially with respect to the board surface of the game board. A vertically arranged gaming machine has also been proposed (see Patent Document 2). Further, there has been proposed a gaming machine provided with an illuminated display device capable of emitting more illuminant colors by illuminant groups emitting different luminescent colors (see Patent Document 3).
[0005]
[Patent Document 1]
JP 2001-95987 A (FIG. 5, paragraph numbers [0035], [0036], etc.)
[Patent Document 2]
JP 2001-112935 A (FIG. 4, paragraph [0007], etc.)
[Patent Document 3]
JP 2002-28288 A (FIG. 4 and the like)
[0006]
[Problems to be solved by the invention]
In these conventional examples, since the light emitters are merely arranged in a planar manner, the number of light emitters that can be arranged is reduced as the “installation site” becomes narrower. Therefore, even if the method shown in each conventional example is used, it may still be difficult to obtain the intended illumination effect.
[0007]
The present invention has been made to solve such a problem, and an object of the present invention is to provide a lamp capable of disposing a desired number of light emitters regardless of the size of an installation site. It is an object of the present invention to provide a device and a gaming machine provided with such a lamp device.
[0008]
Another object of the present invention is to provide a lamp device that can make use of the characteristics of different types of light emitters to achieve a higher illumination effect, and a gaming machine equipped with such a lamp device.
[0009]
It is still another object of the present invention to provide a more attractive and novel gaming machine which has a simple structure and has increased entertainment.
[0010]
[Means for Solving the Problems]
The lamp device according to claim 1, comprising a light reflector, a first light emitter disposed in front of the light reflector, and a second light emitter disposed behind the light reflector. ,
The light reflector reflects the light emitted by the first light emitter and transmits the light emitted by the second light emitter in front of the light reflector.
[0011]
In the lamp device of the first aspect, the first light emitter and the second light emitter are three-dimensionally arranged with the light reflector interposed therebetween, thereby forming a multilayer structure (for example, a three-layer structure). That is, if the installation site is simply used in a plane, if the installation site is narrow, it may be difficult to arrange a desired number of light emitters or to arrange a plurality of types of light emitters. On the other hand, according to the first aspect of the present invention, a plurality of luminous bodies (a plurality of luminous bodies and a plurality of kinds of luminous bodies may be arranged) in a three-dimensional (layered) manner. By arranging a desired number of light emitters (a plurality of light emitters and a plurality of light emitters may be provided), a desired illumination effect can be obtained.
[0012]
In the lamp device according to the present invention, it does not matter whether or not the first illuminant and the second illuminant have the same luminescent color. The lamp device can emit a plurality of colors. The number of the first light emitters and the number of the second light emitters are not particularly limited, and one or both of them may be plural. Further, the relative positional relationship between the first luminous body and the second luminous body can be variously selected, but the first luminous body and the second luminous body are positioned along the front-back direction of the lamp device. It is preferable that a shift occurs. This is because it is desirable that the light emitted from the second light emitter is not blocked by the first light emitter.
[0013]
The first illuminant and the second illuminant may be turned on or blinking at the same time, but either one of them may be selectively lit or blinked, or the lighting frequency or the blinking frequency of both luminous bodies may be different. Good. Then, if both light emitters are turned on or blinked simultaneously (in a superimposed manner), the light emitted from both light emitters overlaps, and the illumination effect is further improved. In addition, a plurality of light-emitting bodies (that is, a first light-emitting body and a second light-emitting body) that are selectively turned on or blinked are arranged three-dimensionally (in a layered manner), If a structure is adopted in which the illuminants that do not light are arranged in a three-dimensional (layered) manner so that the two illuminants can be selectively used, there is an effect that the installation space of the lamp device can be saved. That is, with respect to a plurality of lamp devices that are not used at the same time or lamp devices that are used at different frequencies, it is preferable to save space by arranging them three-dimensionally, rather than arranging them horizontally.
[0014]
The first light-emitting body and the second light-emitting body may be the same light-emitting body (for example, when both are “cold cathode tubes” or both are “LEDs”), Preferably, the body and the second illuminant are different illuminants. In the present specification, “different light emitters” refer to light emitters that differ in at least one of, for example, structure (system), shape, size, emission color, luminance, and the like. By the way, in general, if a plurality of light emitters having different shapes, sizes, and the like (for example, a light emitter having a long planar shape and a light emitter having a circular planar shape) are to be arranged in a plane, It is difficult to perform an efficient arrangement. On the other hand, when the first illuminant and the second illuminant are different in size and shape, if the two illuminants are three-dimensionally arranged according to the present invention, efficient arrangement can be performed. In addition, when the “first illuminant and the second illuminant” having different emission colors, luminances, and the like are arranged in a three-dimensional manner, a higher illumination effect can be obtained compared to a case in which the same illuminant is arranged in a three-dimensional manner. be able to.
[0015]
The lamp device according to claim 2 is the lamp device according to claim 1, wherein one of the first luminous body and the second luminous body is a cold cathode tube, and the other is a cold cathode tube. Is a different luminous body.
[0016]
According to the invention of claim 2, a synergistic illumination effect is obtained by combining the “cold cathode tube having a high illumination effect and good visibility” with “another illuminant different from the cold cathode tube”. It is intended to be obtained. Here, the “other luminous body” refers to a luminous body that differs from at least one of the structure (method), the shape, the size, the luminescent color, the luminance, and the like of the cold cathode tube, and examples thereof include an LED. .
[0017]
The "cold-cathode tube" may be turned on or off continuously or frequently, but may be turned on or off only when necessary. For example, if the cold-cathode tube is turned on all the time or is turned on frequently, the stimulus may become strong (that is, it may be "bright"). On the other hand, in order to emit a sharp “light”, if you select a special case (such as when you want to add an accent or emit an important message, etc.) and turn it on or blink, etc., this lighting or blinking will have an impact. This is because a strong "message" can be issued.
[0018]
In addition, when “LED” is used as “another illuminant different from a cold cathode tube”, not only can the manufacturing cost of the lamp device be reduced easily, but also multi-color light emitted from the lamp device can be obtained. It is even easier. If a plurality of elements emitting light of different colors are provided (embedded) in each LED, or a plurality of LEDs emitting light of different colors are provided, it is easy to achieve multicolor. Moreover, a mixed color can be obtained by simultaneously emitting light from a plurality of elements or simultaneously emitting a plurality of LEDs having different emission colors. Then, by combining the “LED that easily emits multi-color light” with the “cold-cathode tube that emits light in a predetermined color” by itself, it is easier to multi-color the light emitted by the lamp device. is there.
[0019]
The "cold cathode tube" generally means "a luminous body that is driven to light and / or blinks by starting discharge from the cathode at room temperature", in other words, "it does not require preheating of the cathode, and a filament is attached to the electrode. Luminous body not having ". This cold cathode tube is resistant to frequent lighting driving and blinking driving and has sufficient durability, so that it can be used in a good state for a long period of time. Therefore, when a light-emitting body is formed by using a cold cathode tube, the amount of light of the lamp device can be increased, and high-impact light can be frequently turned on or blinked. Is obtained.
[0020]
In addition, according to the “cold cathode tube”, even if frequent lighting driving or blinking driving is performed, the life is not shortened, and the structure of the lamp device and the structure of the driving circuit can be simplified. Manufacturing cost can be reduced as compared with a luminous body for use (a lamp device having a luminous body such as a hot cathode tube or a light bulb that performs a hot cathode operation). Further, in the “lamp device” using the “cold cathode tube”, the running cost can be reduced because the current when the lamp emits light is small. Further, this "cold cathode tube" does not require a filament, the non-light emitting portion can be shortened, and miniaturization (small tube) is easy.
[0021]
In addition, when the lamp device itself generates a large amount of heat, such as a lamp device using a hot cathode tube or a light bulb, and the heat of the lamp device itself may adversely affect electronic components arranged around the lamp device. Requires that a heat radiating means be provided around the lamp device. However, since the `` cold cathode tube '' does not require a filament and can reduce the amount of heat generated by the cold cathode tube itself, there is no need to provide heat radiating means around the cold cathode tube, or reduce the number of radiating means. Can be reduced. Further, in the cold cathode tube, by selecting the type of the phosphor applied to the tube body (glass tube), the color of the light emitted from the cold cathode tube (lamp device) can be selected from various colors.
[0022]
The lamp device according to claim 3 is the lamp device according to claim 1 or 2, wherein the light reflector has a reflecting surface formed at least on a front surface portion and a light passage hole penetrated from the front surface portion to the rear surface portion. With
The light emitted from the first illuminant is reflected by the reflection surface, and the light emitted by the second illuminant passes through the light passage hole in front of the light reflector.
[0023]
According to the third aspect of the invention, the effects of the first aspect of the invention can be reliably obtained by using a light reflector having a simple structure. In addition, in addition to holes (round holes, triangular holes, polygonal holes, and the like) that are opened only at the front and rear portions of the light reflector, the light passing holes include portions other than the front and rear portions of the light reflector. A hole (a notch-shaped hole or the like) that is open even at a portion (a side edge or the like) is included.
[0024]
According to a fourth aspect of the present invention, there is provided the lamp device according to the third aspect, wherein the light passage holes are formed by slit-shaped gap portions continuously arranged at predetermined intervals.
[0025]
According to the fourth aspect of the present invention, since the light passage hole is formed by the slit-shaped gaps that are continuously arranged, one light reflector can be variously arranged with different arrangement intervals, sizes, numbers, and the like. Can be used for general purposes.
[0026]
The lamp device according to claim 5 is the lamp device according to claim 1 or 2, wherein the light reflector reflects light emitted from the first light emitter and passes light emitted from the second light emitter. It is characterized by having a light selection unit for making the light.
[0027]
The invention according to claim 5 shows another specific example of the light reflector. As the “light selection section” of the light reflector, for example, a light selection film can be exemplified. That is, the light emitted from the first luminous body (that is, light having a certain range of wavelengths) is reflected on a transparent base material or the like, and the light emitted from the second luminous body (that is, light having another predetermined range of wavelengths). ) (For example, a “half mirror”) in which a light-selective film that allows (transmits) light to pass therethrough is formed.
[0028]
The lamp device according to claim 6, wherein in the lamp device according to any one of claims 1 to 5, the front surface of the light reflector is formed in a concave shape that is recessed behind the light reflector. The front surface constitutes a reflection surface that reflects light emitted from the first light emitter.
[0029]
According to the sixth aspect of the present invention, the light emitted from the first illuminant can be efficiently reflected by the concave reflecting surface that is depressed rearward. This is because a concave reflecting surface can increase the light receiving area as compared with a planar reflecting surface or the like, and has a high light-collecting power. In addition, the concave reflecting surface has an advantage that the reflected light is easy to see for a user located in front (a player in an application example to a gaming machine).
[0030]
The positional relationship between the first illuminant and the reflecting surface can be variously selected. However, if the positional relationship is such that the entire or at least the rear half of the first illuminant is surrounded by the concave reflecting surface, Light emitted from the first light emitter to the side can be reflected forward. Examples of the cross-sectional shape of the reflection surface include a substantially semicircular concave shape, a substantially semielliptical concave shape, and a substantially polygonal (for example, pentagonal and quadrangular) concave shape.
[0031]
The lamp device according to claim 7, wherein in the lamp device according to any one of claims 1 to 6, a light scattering lens body is arranged between the light reflector and the second light emitter. The light emitted from the second light emitting body is scattered by the light scattering lens body.
[0032]
In the invention according to claim 7, since the light emitted from the second illuminant is scattered (diffused) by the light scattering lens body, the number of the second illuminants is reduced or the size of the second illuminant is reduced. Is smaller, the light emitted from the second light emitter can be spread over a wide range. That is, efficient illumination can be performed with a small number of second light-emitting bodies or small-sized second light-emitting bodies, so that the lamp device can be downsized and the manufacturing cost can be reduced. it can.
[0033]
The lamp device according to claim 8, further comprising: a first illuminant disposed forward, and a second illuminant disposed rearward,
One of the first light emitter and the second light emitter is a cold cathode tube, and the other is another light emitter different from the cold cathode tube.
[0034]
Also in the invention according to claim 8, a desired illumination effect can be obtained regardless of the size of the installation site of the lamp device (even if it is narrow). The number of the first light emitters and the number of the second light emitters are not particularly limited, and one or both may be plural. Various relative positional relationships between the first light emitter and the second light emitter can be selected, but the first light emitter and the second light emitter are positioned along the front-rear direction of the lamp device. It is preferable that a shift occurs. Furthermore, also in the invention of claim 8, synergistic illumination is achieved by combining the "cold-cathode tube with high illumination effect and good visibility" and "another light-emitting body (especially, LED)". It is intended to be effective.
[0035]
A gaming machine according to a ninth aspect is characterized in that the lamp device according to any one of the first to eighth aspects is disposed at a predetermined portion on the front side.
[0036]
The invention of claim 9 shows a preferred use example of the lamp device according to any one of claims 1 to 8. The gaming machine according to claim 9 may be any one of a ball-and-ball gaming machine and a coin-type gaming machine (turn-type gaming machine).
[0037]
The gaming machine according to claim 10, an outer frame, a middle frame rotatably attached to the outer frame and holding a game board, and a front frame rotatably mounted on the front side of the middle frame, A dish member for storing game media, and
The lamp device according to any one of claims 1 to 8, wherein at least one of the game board, the middle frame, the front frame, and the dish member is arranged.
[0038]
The invention of claim 10 shows a specific example of the game machine of claim 9, that is, an example of application to a "ball game machine" using "game balls" as a game medium. When the lamp device according to any one of claims 1 to 8 is arranged on a game board, the lamp device is used not only for mere illumination but also for predetermined board parts (windmill, central device, various accessories, (A winning opening, a gate, etc.) or the like, or may be used as a part of these board components. In addition, when the lamp device is arranged on the game board, (a) a mode in which both the “first luminous body” and the “second luminous body” are arranged so as to protrude forward of the game board, B) a mode in which one of the “first luminous body” and the “second luminous body” protrudes forward of the game board surface and the other is located on the game board surface, (c) “first luminous body” and A mode in which one of the “second luminous bodies” is disposed so as to be depressed from the game board surface, and the other is located on the game board surface, (d) “first luminous body” and “second luminous body” One of them is arranged to protrude forward of the game board surface, and the other is arranged to be depressed from the game board surface.
[0039]
A gaming machine according to claim 11, comprising: a cabinet holding a reel device; a front frame rotatably attached to a front side of the cabinet; and a plate member for storing game media,
The lamp device according to claim 1, wherein the lamp device according to claim 1 is disposed on at least one of the reel device, the cabinet, the front frame, and the plate member.
[0040]
The invention of claim 11 shows one specific example of the game machine of claim 9, that is, an example of application to a "coin-type game machine (turn-type game machine)" using "coins" as game media. .
[0041]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, examples showing embodiments of the present invention will be described with reference to the drawings.
(1) Mechanical structure of pachinko machine
In the present embodiment, as a specific example of a gaming machine, a first-type pachinko machine (ball game machine) of a type called a so-called "seven machine" is illustrated. First, the mechanical structure of the pachinko machine will be described with reference to FIGS.
[0042]
As shown in FIGS. 1 and 2, the front portion of the pachinko machine 1 mainly includes an outer frame (main body frame) 2, a middle frame 3, a front frame 4, an upper plate portion 5, a lower plate portion 6, And a locking device 7. In FIGS. 1 and 2, a game board is omitted for simplicity. The upper plate portion 5 and the lower plate portion 6 show a specific example of a “dish member”.
[0043]
The outer frame 2 is obtained by assembling and fixing a wooden plate-like body into a substantially rectangular frame shape. The middle frame 3 is entirely made of plastic, has a frame body 3a and a lower plate 3b (see FIG. 2), and is pivotally supported on the outer frame 2 so as to be openable and closable. Further, a locking device 7 (see FIG. 1) is provided at the center of the right end of the middle frame 3. The locking device 7 has a substantially rectangular shape with a keyhole when viewed from the front, and locks when the front frame 4 is closed. It is for.
[0044]
Here, the frame portion 3a is formed in a substantially rectangular frame shape from the upper end to about 2/3 of the entire middle frame 3 downward, and a substantially triangular frame decoration LED lens of the front frame 4 is provided at the upper end portion. In correspondence with 4c and 4e, a prize ball display LED (not shown) and a prize ball display LED board 4d (see FIG. 16) are provided on the left side, and a stop display LED (not shown in FIG. 2) and a stop display LED board are provided on the right side. 4f (see FIG. 16) is provided.
[0045]
The lower plate portion 3b occupies approximately 1/3 of the entire middle frame 3 from the lower end to the upper side, and the left end corresponds to the speaker surface 5a formed on the upper plate portion 5 according to the gaming state. A speaker 400a (see FIG. 16) for generating sound effects and other sounds (voices) is provided, and is stored in the upper plate portion 5 at a substantially center with respect to a launching device unit (not shown) for launching a game ball. A supply device (not shown) for supplying the game balls is provided.
[0046]
Further, below the lower plate portion 3b, there is provided a lower plate portion 6 provided with an ashtray, a ball-drawing lever, and the like, and approximately in the center of the lower plate portion 6, for discharging game balls from the inside of the pachinko machine 1. A discharge handle 6 for operating a firing device unit (not shown) is provided at the right end. A touch switch 9a for detecting that the player is touching is mounted on the firing handle 9, and a fire stop switch 9b for temporarily instructing a stop of the fire is arranged near the touch switch 9a.
[0047]
As shown in FIGS. 1 and 2, the front frame 4 is entirely made of plastic, and a game area 11 (FIG. 3) formed on the game board 10 so that the game board 10 (see FIG. 3) can be visually recognized from the front. (See FIG. 2) has an opening 4a formed in a substantially circumferential shape. A substantially rectangular glass frame 4s (see FIG. 2) in which two glass plates 4r are fitted according to the openings 4a is mounted on the back surface.
[0048]
The front frame 4 occupies about ／ of the entire front surface of the pachinko machine 1 and is pivotally mounted on the left end of the middle frame 3 so as to be openable and closable. On the other hand, a frame decoration lamp lens 4b is provided at the upper end of the front frame 4. Inside the lens 4b, a frame decoration lamp substrate 4g (see FIG. 16) and a frame decoration lamp substrate 4g are formed along the arc at the upper end of the opening 4a. A plurality of game effect lamps (not shown) are provided.
[0049]
The upper plate portion 5 is pivotally attached to the left end of the middle frame 3 below the front frame 4 so as to be openable and closable. On the outer edge portion 5b of the dish, a ball removal button, a game ball lending / returning button, and the like are provided. The upper plate 5 is provided with a discharge port 5c for discharging game balls from the inside of the pachinko machine 1. A speaker surface 5a having a plurality of long holes is formed on the left end, and a volume switch board 12 (see FIG. 16) is provided on the back surface. On the left end side of the pachinko machine 1, a prepaid card unit 13 is mounted.
[0050]
Next, the surface structure of the game board 10 of the present embodiment will be described with reference to FIG. The game board 10 is a substantially rectangular wooden plate-like body, is held by the middle frame 3 (see FIGS. 1 and 2), and its back side is covered by a back mechanism board 102 (see FIG. 15) described later. ing. In the game board 10, a substantially circular game area 11 is formed by an outer rail 14 and an inner rail 15 provided on the surface of the game board 10, and a central device 26 and a first device A seed starting port (ordinary electric accessory) 17, a variable winning device 18, a left winning opening 19, a right winning opening 20, a lower left winning opening 21, a lower right winning opening 22, and a number of obstacle nails (not shown). ), And a pair of lamp windmills 24, 25 and the like.
[0051]
As shown in FIG. 3, the central display device 26 is arranged at a substantially central portion of the game area 11. As shown in FIG. 4, a main display device (special symbol display device) 27 for displaying a special symbol, a normal symbol display device 32, a special symbol holding display device 16a, movable devices 8a and 8b, A change possibility determination lamp 8c, a re-lottery display lamp 8d, a re-change start display lamp 8e, a positive change transition display lamp 8f, a positive change status display lamp 8g, a normal symbol status display lamp 8h, and a hit line display lamp 8i. , Is provided.
[0052]
As shown in FIG. 4, the main display device 27 includes nine display units 27a, 27b, 27c, 27d, 27e, 27f, 27g, 27h, and 27i arranged in a matrix of three rows and three splits. I have. In the following description, the display portions 27a to 27i and the special symbols displayed on the display portions 27a to 27i may be referred to as follows.
[0053]
That is, the upper display units 27a to 27c are referred to as “upper left display unit 27a”, “upper middle display unit 27b”, and “upper right display unit 27c” in order from the left, and are displayed on these display units 27a to 27c. In this order, the upper left symbol (when it comes off, the upper left left symbol), the upper middle symbol (when it comes off, the upper upper middle symbol), and the upper right symbol (when it comes off, "Missing upper right symbol"). The middle display units 27d to 27f are referred to as “middle left display unit 27d”, “middle middle display unit 27e”, and “middle right display unit 27f” in order from the left, and are displayed on these display units 27d to 27f. In this order, the middle left design (in the case of a miss, "middle middle left design"), the middle middle design (in the case of a miss, "middle middle middle design"), the middle right design (in the case of a miss, "Middle right symbol". Further, the lower display units 27g to 27i are referred to as “lower left display unit 27g”, “lower middle display unit 27h”, and “lower right display unit 27i” in order from the left, and are displayed on these display units 27g to 27i. In this order, the lower left symbol (when it comes off, the "lower left left design"), the lower middle design (when it comes off, the "lower lower middle design"), and the upper right design (when it comes off, "Missing upper right symbol").
[0054]
Each of the display units 27a to 27i is configured by two display elements (or also referred to as “display elements”) 27M and 27N. Among them, one of the display elements 27M, that is, the first display element 27M is configured by a “single segment display (light emitting body)” in a state of occupying substantially the right half of each of the 27a to 27i. At the time of light emission, the numeral "7" is displayed. Further, the other display element 27N, that is, the second display element 27N is composed of "seven segment display bodies (light-emitting bodies)" occupying substantially the left half of each of the 27a to 27i. , Numbers (1 to 6, 8, 9) excluding "7" are sequentially displayed. In each of the display portions 27a to 27i, the first display element 27M emits light with a larger size than the second display element 27N and emits a conspicuous color (for example, the first display element 27M emits red light). The second display element 27N emits green light.)
[0055]
In the main display device 27, a “first display area” is configured by the “first display elements 27M” of the nine display units, and the “second display element 27N” of the nine display units is configured by the “second display element 27N”. Display area "is configured. Further, for each of the display units 27a to 27i, only one of the two display elements 27M and 27N is selectively and sequentially turned on to display the identification information (a number in this embodiment). For example, as shown in FIG. 5A, for each of the display units 27a to 27i, after using "second display element 27N" to display numbers "1 to 6" in this order, A series of display operations in which “7” is displayed on the “first display element 27M”, and numbers “8” and “9” are displayed in this order using the “second display element 27N” Can be exemplified.
[0056]
However, the display mode in each of the display units 27a to 27i is not limited to this. For example, after displaying the numbers “9” and “8” in this order using the “second display element 27N”, , "7" is displayed on the "first display element 27M", and furthermore, the display operation is performed by using the "second display element 27N" to display the numbers "6-1" in this order. 5B, the "second display element 27N" may be a number of "1 to 6, 8, 9" (a number of 9, 8, 6 to 1 may be used). ) Are sequentially displayed in this order, a series of display operations of displaying “7” on the “first display element 27M” may be repeated. Further, each of the display units 27a to 27i may randomly display a number, may display the identification information synchronously, or may display the identification information asynchronously.
[0057]
In the main display device 27, when a game ball enters the first-type starting port (ordinary electric accessory) 17, the special symbols displayed on the respective display portions 27a to 27i are respectively changed and stopped and displayed. Things. When the winning symbol {for example, the winning symbol shown in FIG. 7B or FIG. 8B) is stopped and displayed (fixed display) by the main display device 27, the winning symbol is arranged in the variable winning device 18. A special winning opening 311 of the special winning device 31 described later is opened.
[0058]
In the main display device 27, using the "first display area", a "line-type reach state (hereinafter, also referred to as" line-reach display ")" and a "line-type big hit state (hereinafter, referred to as" line-reach display "). The display can also be referred to as "line display".) ". Also, by using the "second display area", a "matrix type reach state (hereinafter, also referred to as" matrix reach display ")" and a "matrix type big hit state (hereinafter, also referred to as" matrix per display "). .) "Can be displayed.
[0059]
Here, the “reach state (reach display)” refers to “the jackpot is possible before the final result is displayed in the display area (both or both of the first display area and the second display area)”. Effect display that is displayed in this display area when the character is in a continuous state. " That is, the symbols other than the display symbol which is the final stop symbol displayed in the display area are continuously stopped, rocked, enlarged, reduced, or deformed for a predetermined time in a state in which the symbol coincides with the specific stop symbol mode of the big hit. Or a state in which a plurality of display symbols fluctuate synchronously with the same symbol, or the positions of the display symbols are switched.
[0060]
The “line-type big hit state (display per line)” refers to, for example, a linear big hit state constituted by a plurality of display units linearly arranged in a horizontal direction, a vertical direction, an oblique direction, and the like. The “line-type reach state (line reach display)” refers to, for example, a linear reach state formed by a plurality of display units linearly arranged in a horizontal direction, a vertical direction, an oblique direction, and the like.
[0061]
The “matrix-type big hit state (display per matrix)” is the same for all of a plurality of display units (for example, nine) arranged in a matrix (for example, three rows and three columns as in the present embodiment). The case where a symbol is displayed is a case where a big hit is made. Further, the "matrix-type reach state (matrix-reach display)" refers to a predetermined one display when the possibility of the "matrix-type big hit state (matrix-period display)" continues. A state in which display units other than the unit (for example, the central display unit) are stopped at the same symbol.
[0062]
Returning to FIG. 6, the first display area is provided with eight hit lines as shown by the dashed line in FIG. Specifically, {circle around (1)} three "first display elements 27M" of "upper left display section 27a", "upper middle display section 27b", and "upper right display section 27c" arranged horizontally in the upper row. (2) Three "first display elements" of "middle left display section 27d", "middle middle display section 27e", and "middle right display section 27f" arranged side by side in the middle row. 27M ", and (3) three" first lower left display units 27g "," lower middle display units 27h ", and" lower right display units 27i "arranged horizontally in the lower row. The display element 27M has a lower horizontal line.
[0063]
(4) In the three display portions 27a, 27e and 27i arranged in an inclined manner from the upper left end to the lower right end, the three display portions 27a, 27e and 27i are constituted by three "first display elements 27M" arranged in an inclined manner from the upper left end to the lower right end. In the three display units 27c, 27e, and 27g, which are inclined from the upper right end to the lower left end, the three first display elements that are inclined from the upper right end to the lower left end. 27M "is provided.
[0064]
(6) In the three display portions 27a, 27d, and 27g arranged from the upper left end to the lower left end, the "left vertical" composed of three "first display elements 27M" linearly arranged from the upper left end to the lower left end. "7" is composed of three "first display elements 27M" linearly arranged from the upper left end to the lower left end in the three display units 27b, 27e, and 27h arranged from the upper center to the lower center. And (8) three display units 27c, 27f, and 27i arranged from the upper right end to the lower right end, and three "first display elements 27M" arranged linearly from the upper left end to the lower left end. The right vertical line.
[0065]
In the main display device 27, according to the "eight hit lines ((1) to (8) hit lines)" shown here, that is, the "effective line", the "line type reach state (line reach display)" is displayed. Note that, in the gaming machine 1 of the present embodiment, a plurality of effective lines (hit lines) that can be in the reach state are provided in the first display area, and the apparent jackpot probability is high. In the case where the number of “effective lines” is plural in the area (the first area in the present embodiment) in which the line-type reach state (line reach display) is performed, The number of valid lines may be fixed at “predetermined plural values” or may be varied between “1 and predetermined plural values” (in this embodiment, varied between 1 and 8).
[0066]
When the "display per line" is performed on the main display device 27, "line reach display" is first performed, for example, as shown in FIG. In this line reach display, the “first display element 27M” of the display units 27d and 27f located on both sides of the target active line stops displaying the same symbol (“7” in the present embodiment) ( (Lighted display), and the middle-stage middle display section 27e continues the fluctuation state (the vertical arrow in the figure indicates that the fluctuation state is continuing).
[0067]
This change is performed by selectively turning on the “first display element 27M” and the “second display element 27N” that constitute the middle display unit 27e. Further, in the present embodiment, in the display units 27a to 27c and 27g to 27i that are not targets of the reach display, appropriate numbers are stopped and displayed (lighted display) on the "second display element 27N". Further, FIG. 7A illustrates “single reach display” using the middle horizontal line in (2), but the main display device 27 displays a reach display using another activated line. , Reach displays over a plurality of (2 to 8) active lines can be displayed.
[0068]
After the "line reach display", when the "first display element 27M" of the middle display section 27e stops changing at the same symbol ("7" in the present embodiment) as the symbol constituting the line reach display. , One mode of “predetermined specific symbol” is displayed (that is, the same symbol is arranged on a predetermined effective line). Then, a special game state (a state advantageous to the player) is established, and a special winning opening 311 of the special winning device 31 described later provided in the variable winning device 18 is opened. In this embodiment, when performing the “line reach display”, the “hit line display” disposed at a position surrounding the “display units (27a to 27i) constituting the hit line” related to the “line reach display” The lamp 8i "is turned on to notify the player of the hit line.
[0069]
When "display per matrix" is performed on the main display device 27, a matrix type reach state (hereinafter, referred to as "matrix reach display") is performed. For example, as shown in FIG. 8A, in the "matrix reach display", only the middle middle display section 27e continues the fluctuation state (the vertical arrow in the figure indicates that the fluctuation state is continuing). In the other display units (27a to 27d, 27f to 27i), the “second display elements 27N” stop display (lit display) of the same symbol (for example, “6”). .
[0070]
After the “matrix reach display”, as shown in FIG. 8B, the “second display element 27N” of the middle middle display unit 27e is the same as the symbol constituting the matrix reach display (in this embodiment, , "6"), the other mode of the "predetermined specific symbol" is displayed (that is, the second area is aligned with the same symbol). Then, a special game state (a state advantageous to the player) is established, and a special winning opening 311 of the special winning device 31 described later provided in the variable winning device 18 is opened.
[0071]
In this embodiment, the “display per matrix” and the “matrix reach display” are performed in the “second display area” as described above, but the “first display area” is also used in the second display area. Similarly to the above, “display per line” and “line reach display” may be performed, and conversely, “display per matrix” and “matrix reach display” may be performed in the “first display area”. In the “second display area”, “display per matrix” may be performed without going through “reach mode”.
[0072]
When performing the “matrix reach display”, various stop modes of the “other display units (27a to 27d, 27f to 27i)” can be selected. For example, all the fluctuations of the “other display units (27a to 27d, 27f to 27i)” may be stopped at the same time, or the main display device 27 may go around as shown by the arrow R in FIG. Along the direction, the fluctuation of the “other display units (27a to 27d, 27f to 27i)” may be sequentially stopped (hereinafter, referred to as “swirl stop”).
[0073]
In the present embodiment, "large 7" is displayed on the first element M, and is not only noticeable, but also has a plurality of effective lines such as a double reach, a triple reach, etc., by the nine display portions 27a to 27i arranged in a matrix. Can be displayed. Further, in the second area, since a large number of elements 2N are targeted, various stop modes such as the above-mentioned "spiral stop" can be realized. Therefore, in the present embodiment, it is possible to obtain the gaming machine 1 having more amusement while configuring the main display device 27 by using a "segment display" having a simpler structure than the liquid crystal display panel and the like and inexpensive. Can be.
[0074]
In the present embodiment, the main display device (variable display means) 27 is exemplified by a single-segment display device or a seven-segment display device. A display device, a CRT, a dot matrix, electroluminescence, a device using a fluorescent display tube, or the like may be used.
[0075]
Unlike the embodiment, when a display screen is configured by the main display device 27 (such as when a liquid crystal display device is used as the main display device 27), one or more special symbols (identification information) are displayed on the display screen. ) May be displayed while being sequentially changed in a predetermined direction, and then a special symbol display area (identification information display area) to be stopped and displayed may be formed. For example, a left special symbol display area for displaying a left special symbol, a middle special symbol display area for displaying a middle special symbol, and a right special symbol display area for displaying a right special symbol are arranged in an arrangement direction set substantially in a row. They are formed in this order. Then, in each special symbol display area, a direction substantially orthogonal to the arrangement direction of these display areas, in this case, a symbol change direction is set in the vertical direction, and a plurality of pieces of identification information as (Special symbols) may be sequentially displayed. Further, on this display screen, it is also possible to display auxiliary symbols other than the special symbols (identification information).
[0076]
As shown in FIGS. 3 and 4, the normal symbol display device 32 is arranged at the upper center of the central device 26. The ordinary symbol display device 32 has a 7-segment display 32a and an ordinary symbol hold display LED 32b. The 7-segment display 32a is for displaying an odd number of 1 to 9 in a variable manner, and is changed by passing a game ball through one of the left and right ordinary symbol operation gates 36 and 37, which will be described later, and a predetermined time has elapsed. Later, one odd number is stopped and displayed. Then, when the stop display is performed at, for example, “7”, the normal symbol hits, and the first-type starting port (normal electric accessory) 17 is opened for a predetermined time (for example, 0.5 seconds). When the ordinary symbol is hit, the ordinary symbol status display lamp 8h is turned on.
[0077]
As shown in FIG. 3, under the central device 26 are diagonally lower left and right ordinary symbol operation gates 36 and 37, respectively, and left and right ordinary symbol operation gate detection switches are provided in the left and right ordinary symbol operation gates 36 and 37, respectively. 36s and 37s (see FIG. 16) are provided. Then, the 7-segment display 32a of the normal symbol display device 32 variably displays when the game ball passes through the normal symbol operation gate passage detection switches 36s and 37s.
[0078]
As shown in FIG. 4, the normal symbol holding display LED 32b is composed of four round red LEDs, and is disposed close to the right and left sides of the 7-segment display 32a. In this method, the number of game balls that have passed through the left and right normal symbol operation gates 36 and 37 is held up to four, and each time they pass, they are sequentially lit and shifted and displayed. Each time the next variable display of the 7-segment display 32a is started, the number of unstarted times is exhausted, and one ordinary symbol hold display LED 32b is turned off.
[0079]
As shown in FIG. 4, the special symbol reservation display LED 16a is arranged at the lower center of the central device 26 and is configured using a 7-segment display unit capable of displaying a two-digit number. In this method, the number of game balls that have entered the first-type starting port (ordinary electric accessory) 17 is held up to 40, and each ball is sequentially turned on and shifted for each entry. Each time the change of the next special symbol is started, the number of unstarted times is exhausted, and the number in the 7-segment display section is decreased by one.
[0080]
As shown in FIG. 4, the movable devices 8a and 8b are disposed on both sides of the central device 26, and each of the movable devices 8a and 8b includes a gong 81a, 81b and a hammer 82a, 82b swung up above the gongs 81a, 81b. It has. Among these, in the movable device 8a on the left side (the left and right sides are defined based on the player in the present specification), the hammer 82a is swung down when performing the “determination of the possibility of re-change” described later. Strikes gong 81a. In the movable device 8b on the right side, when starting a “re-lottery” described later, the hammer 82b is swung down and beats the gong 81b. Since the gongs 81a, 81b and the hammers 82a, 82b are all made of rubber, the hammer 82a, 82b itself can obtain a gong sound (sound effect) by hitting the gongs 81a, 81b. Although it is not possible, a “gong sound” is generated from the above-described speaker 400 a in accordance with the timing of the beating.
[0081]
As shown in FIG. 4, the re-change permission lamp 8c is configured using a plurality of light-emitting bodies (for example, LEDs) continuously arranged in a substantially L-shape on the upper left side of the central device 26. Then, as described later, when determining whether or not “re-variation” is possible, after the light emitter at one end located on the lower side is turned on, the adjacent light emitters are sequentially turned on, and finally, the upper side is turned on. Is turned on. The re-change start display lamp (REPREY lamp) 8e is arranged at a position adjacent to the other end of the re-change permission / inhibition lamp 8c, and indicates that re-change is started. That is, on the premise that the re-fluctuation is started, the light is turned on at the time when all the light emitters constituting the re-fluctuation possibility determination lamp 8c are turned on. At this time, the main display device 27 which has once stopped the symbol change starts the change again.
[0082]
As shown in FIG. 4, the re-lottery display lamp 8d is configured using a plurality of light-emitting members (for example, LEDs) continuously arranged in a substantially L-shape on the upper right side of the central device 26. Then, as will be described later, when performing the “re-lottery”, after the light emitter at one end located at the lower side is turned on, the adjacent light emitters are sequentially turned on, and finally located at the upper side. The light emitter at the other end lights up. The probable change display lamp (probable change lamp) 8g is arranged at a position adjacent to the other end of the re-lottery display lamp 8d, and is turned on when the display changes from the non-probable change state to the probable change state. That is, on display, on the premise that the state changes from the non-probable change state to the probable change state, the light is turned on when all the light emitters constituting the re-lottery display lamp 8d are turned on.
[0083]
Here, "transition from the non-probable state to the probable state on the display" means "from the non-probability state to the probabilistic state on the display, despite the fact that the state is the probability state from the beginning. Produce as if it had transitioned. " In the present specification, “re-lottery” means that after “display indicating that probability change is not performed (hereinafter, referred to as“ non-probable change display ”)” is once performed, the non-probable change display is changed in probability. Means that the display is changed to a display of the effect (hereinafter, referred to as “probable change display”).
[0084]
As shown in FIG. 4, the probable change status display lamp 8g is disposed diagonally below and to the right of the ordinary symbol display device 32, and indicates whether or not the gaming machine 1 is in the probable change state. Then, in this embodiment, the light is turned on when the state is changed to the probable state (high probability state), and is turned off when the state is in the non-probable state (low probability state) (both the probable state and the non-probable state). However, the lighting color may be different for each state.) The ordinary symbol status display lamp 8h is disposed diagonally below and to the right of the ordinary symbol display device 32, and displays the determination result of the ordinary symbol display device 32. In the present embodiment, the light is normally turned on when the symbol is in the hit state, and turned off when the symbol is in the off state (the light is turned on in both the hit state and the off state, but the lighting color is different for each state) May be the case).
[0085]
As shown in FIG. 3, the first-type starting port (ordinary electric accessory) 17 is integrated with a variable winning device 18 described later, and is disposed below the central device 26 so as to be separated therefrom. The first-type starting port (ordinary electric accessory) 17 is a so-called tulip type, and a pair of left and right wing pieces are formed to open and close, and is provided with a decoration on a front surface thereof and attached to a substrate 34 described later. Inside, a first-type starting port (normally-powered accessory) winning detection switch 17s (see FIG. 16) for detecting the passage of a game ball and a first-type starting port (normally-powered role) for operating a wing piece portion are provided. Object) solenoid 17c (see FIG. 16). When the pair of wing pieces open left and right, the game ball enters an open state in which the possibility of entering the ball is increased, and the pair of wing pieces are erected, and a normal state in which the possibility of entering the game ball is reduced. . The first-type starting port (ordinary electric accessory) winning detection switch 17s is a specific example of the starting detecting means.
[0086]
As shown in FIG. 3, the variable prize winning device 18 is disposed below the first-type starting port (ordinary electric accessory) 17, and is provided on a substrate 34 having a substantially inverted trapezoidal front surface. A winning device 31, a lower left winning opening 21 and a lower right winning opening 22 are provided. Here, the special winning device 31 is formed substantially in the center, and has a special winning opening 311 opened in a belt shape, an opening and closing plate 312 for opening and closing the special winning opening 311, and an opening and closing plate for opening and closing the opening and closing plate 312. A special winning opening solenoid 313 (see FIG. 16), a specific area (V winning opening and general winning opening / not shown) through which a game ball passes after winning the special winning opening 311, an interlocking rod (not shown), and a winning It is mainly composed of a winning ball detection switch 318 (see FIG. 16) for detecting a ball, a back box (not shown), and a winning port relay board (not shown).
[0087]
Also, as shown in FIG. 3, the lower left winning opening 21 is disposed substantially diagonally lower left of the first-type starting opening (ordinary electric accessory) 17 and has a lower left winning opening passage detection switch 21s (FIG. 16). Reference). Below the lower left winning opening 21, a plurality of lower left winning opening LEDs 223 are attached to a lower left winning opening LED board 21f (see FIG. 16), and are covered with a decorative lens. Further, the lower right winning opening 22 is disposed substantially diagonally lower right of the first type starting opening (ordinary electric accessory) 17, and a lower right winning opening passage detection switch 22s (see FIG. 16) is provided inside. Have been. Below the lower right winning opening 22, a plurality of lower right winning opening LEDs 224 are attached to a lower right winning opening LED board 22f (see FIG. 16) and covered with a decorative lens.
[0088]
As shown in FIG. 3, a pair of side devices 38 and 39 are arranged in a vertically arcuate and symmetrical manner at both left and right ends of the game area 11. As shown in FIG. 9, these side devices 38 and 39 include a base 700 fixed to the surface of the game board 10, and a side lamp device 800 protrudes from the surface of the base 700. Further, the base portion 700 constituting the left side device 38 is integrally provided with the left winning opening 19 below the surface, and the base portion 700 constituting the right side device 38 is provided below the surface. A right winning opening 20 (see FIG. 3) is integrally provided. Incidentally, as in the present embodiment, the size when the left winning opening 19 and the right winning opening 20 are integrated with the side lamp device 800 is smaller than the size when both are separated. The winning opening 19 and the right winning opening 20 are positioned diagonally above and to the left and right of the variable winning device 18, and have a left winning opening passing detection switch 19s (see FIG. 16) and a right winning opening passing detection switch, respectively. 20 s (see FIG. 16) is provided.
[0089]
The side lamp device 800 is a specific example of a “lamp device”. As shown in FIGS. 10 and 11, a rear light emitter 820, a spacer 840, a rear lens body 850, a reflector 860, The front light-emitting body 830 and the front lens body 870 are three-dimensionally arranged in this order from the surface of the game board 10 toward the front thereof. The front light emitter 830 is a specific example of a “first light emitter”, and the rear light emitter 820 is a specific example of a “second light emitter”. Further, the reflector 860 shows a specific example of a “light reflector”, and the rear lens body 850 shows a specific example of a “light scattering lens body”.
[0090]
The rear light-emitting body 820 is constituted by LEDs arranged on the left and right ends of the game area 11 on the surface of the game board 10. That is, a total of 20 LEDs (rear luminous elements 820) are arranged in a horizontal two-column, vertical ten-row array on a portion of the surface of the game board 10 which constitutes the left end side of the game area 11. A total of 20 LEDs (rear light emitters 820) are also arranged in two rows and ten rows on a portion of the surface of the board 10 that constitutes the right end side of the game area 11. Note that all of these LEDs may emit the same color, but all or some of the LEDs may include a plurality of elements that emit different colors, or the LEDs may emit different colors. LEDs may be mixed. In such a case, the plurality of elements may emit light individually, LEDs of different emission colors may emit light individually, or they may emit light simultaneously to obtain a composite color (for example, “red light emission”). Simultaneously with "green emission", "orange emission color" is obtained.)
[0091]
The spacer 840 is formed in a frame shape that can surround the rear light emitting body 820. The spacer 840 is for securing a predetermined gap between the protruding end of the LED constituting the rear light-emitting body 820 and a rear lens body 850 described later (see FIG. 11).
[0092]
As shown in FIG. 10, the rear lens body (for example, made of resin or glass) 850 is configured using a substantially long flat transparent plate or translucent plate. A rear surface of the rear lens body 850 (a surface facing the rear light emitting body 820 but facing the direction opposite to the player) has a triangular cross section and a short length of the rear lens body 850 as shown in FIG. Fine ridges 851 along the hand direction are equally spaced along the longitudinal direction of the rear lens body 850 (in the present embodiment, a pitch of 0.3 to 0.7 mm, preferably a pitch of about 0.5 mm). (That is, a substantially knurled projection is formed). In the present embodiment, the rear lens body 850 has a uniform structure (structure as a lens) throughout the entire rear lens body 850, but a part having a different structure (structure as a lens) is provided in a part of the rear lens body 850. It may be provided. For example, in the above-described “an embodiment in which LEDs having different emission colors are mixed in the LEDs constituting the rear light emitter 820”, the structure of each part of the rear light emitter 820 is different for each light emission color of the LED disposed behind the same. May be different. More specifically, an LED (hereinafter, referred to as “the former”) that emits light in one predetermined color (for example, red) and another predetermined color (for example, blue) behind the rear light emitting body 820. In the case where LEDs that emit light (hereinafter, referred to as “the latter”) are mixed, the rear surface portion of the portion of the rear illuminator 820 located in front of the “latter” (the entirety of the portion located in front of the latter may be used). ) Are continuously formed on the rear surface of the rear luminous body 820, and a crimped pattern is formed on the rear surface portion of the rear luminous body 820 (the entire front portion may be also used). Examples can be given.
[0093]
As shown in FIG. 10, the reflector 860 has a long and substantially ladder shape, and is formed by applying plating (for example, chrome plating) having a metallic luster to a base portion formed of a resin integrally molded product. Have been. That is, as shown in FIGS. 13A to 13C, the reflector 860 has a concave portion 861a on the front surface (a surface facing the player) and a rear surface (facing the rear lens body 850). A large number (29 in the present embodiment) of plate-like bodies 861 having a plane portion 861b with the plane portion facing the opposite side to the player direction being arranged at a predetermined interval in the longitudinal direction of the reflector 860. It is configured. In addition, a gap 862 having a width corresponding to substantially the thickness of the plate 861 is formed between adjacent plate 861. The entirety of the reflector 860 is configured such that a large number (28 in the present embodiment) of the gap portions 862 are continuously arranged along the longitudinal direction of the reflector 860.
[0094]
That is, the reflector 860 has a configuration in which the plate members 861 and the gap portions 862 are alternately arranged along the longitudinal direction. As a result, on the front surface of the reflector 860, the concave portions 861a of the plate-shaped body 861 are continuously arranged, and these concave portions 861a constitute the reflection surface 863. In the present embodiment, a “pentagonal cut” having a substantially pentagonal concave shape is used as the concave surface portion 861a. Further, along the longitudinal direction of the reflector 860, a large number of slit-shaped gap portions 862 arranged continuously form a light passage hole 865. Further, the reflecting surface 863 is a surface for reflecting light emitted from the front light emitter 830 forward (toward the player), and the light passage hole 865 causes light emitted from the rear light emitter 820 to move forward (toward the player). It is a hole to reach.
[0095]
In this embodiment, since the light passage hole 865 is formed by the “slit-shaped gap portions 862” that are continuously arranged, the versatility of the reflector 860 can be increased. For example, even when the rear light emitters 820 are arranged at a different arrangement interval from that of the present embodiment, or when the rear light emitters 820 of a different size and number from the present embodiment are arranged, the slit-shaped gap 862 (light This is because the through holes 865) are arranged continuously, so that the light emitted from these rear light emitters 820 can be surely passed. When the width of the gap 862 (the width along the direction to the other adjacent gap 862) is d and the interval (pitch) between the adjacent gaps 862 is p, d / The value of p is 0.5 to 1.5 (preferably 0.75 to 1.25, particularly preferably about 1.0). The reflection ability of the reflector 860 (the ability of the front light emitter 830 to reflect light) is affected by the total area of the concave portion 861a, and the light passing ability of the reflector 860 (the ability of the rear light emitter 820 to pass light) is a gap It is affected by the total area of the portion 862. When the value of d / p is determined as described above, the reflector 860 has a sufficient reflection capability and a sufficient light transmission capability at the same time. In addition, a reflector having a light selecting section (for example, a half-mirror-shaped reflector having a transparent base member and a light selecting film formed of a vapor-deposited plating layer formed at least on the front surface of the base member) In ()), it is not necessary to form the gap 862. However, in this case, since the light emitted from the rear light emitter 820 is easily attenuated when passing through the light selection part (light selection film), the amount of light reaching the front of the reflector from the rear light emitter 820 However, the number tends to be smaller than in the embodiment {the embodiment using the gap portion 862 (light passing hole 865)}.
[0096]
Further, in the present embodiment, the front surface of the reflector 860 is formed in a concave shape recessed to the rear side of the reflector 860, and the front surface forms a reflection surface 863 for reflecting light emitted by a front light emitter 830 described later. . For this reason, the light emitted from the front light emitting body 830 can be efficiently reflected by the reflecting surface 863. That is, since the reflecting surface 863 is formed in a concave shape, has a large light receiving area, and has a high light-collecting power, the light emitted from the front light emitting body 830 can be efficiently reflected. Furthermore, since substantially the entire front light emitting body 830 is surrounded by the concave reflecting surface 863, light emitted from the front light emitting body 830 to the side thereof can be reflected in the player direction (forward).
[0097]
The front light emitter 830 is configured using a long cold cathode tube, and is disposed in front of the reflection surface 863 of the reflector 860 with its axis extending along the longitudinal direction of the reflector 860. In the present embodiment, the position of the front light emitter 830 and the position of the rear light emitter 820 are displaced along the front and rear direction of the side lamp device 800 (see FIG. 11). That is, the rear light emitters 820 are arranged on the rear side of the portions located on both sides of the front light emitters 830. That is, since the rear light emitter 820 is arranged so as to avoid “directly behind” the front light emitter 830, light emitted from the rear light emitter 820 is not blocked by the front light emitter 830. As the front light emitting body 830, in addition to the cold cathode tube, a hot cathode tube (neo tube), a so-called “acryl bar (LED in which a LED is arranged in a cylinder body made of acrylic resin)” and the like are used. The luminous body of the embodiment may be used.
[0098]
Note that, unlike the present embodiment, the rear light emitter 820 can be configured using a long light emitter (for example, a long cold cathode tube). In this case, the long light emitter is not used. The emitted light is split by the reflector 860. That is, the light split through the gap 862 reaches the player direction.
[0099]
As shown in FIG. 10, the front lens body 870 is formed using a long transparent body having a substantially tunnel shape (for example, formed of resin, glass, or the like). As shown in FIG. 11, the front lens body 870 is arranged so as to cover the front light emitting body 830 and the reflector 860 while keeping the longitudinal direction along the longitudinal direction of the front light emitting body 830. In addition, a flat portion 872 is formed on the inner surface side of the top portion 871 disposed in front of the front lens body 870 (on the side closer to the player). That is, the top 871 of the front lens body 870 constitutes a convex lens, and the top 871 has a structure that allows the light “right behind” to pass straight through.
[0100]
Although the side lamp device 800 configured as described above can be used in various modes, in the present embodiment, when a winning is made in the left winning opening 19, the rear light emitter 820 of the left side device 38 is turned on. When there is a winning in the right winning opening 20, the rear light emitter 820 of the right side device 39 is turned on. Further, when the gaming machine is in a standby state, that is, in a "waiting for customer" state, the rear light emitters 820 of the left and right side devices 38 are turned on. When the “re-variation” described later is started, the front lamp device (cold cathode tube) 830 of the left side device 38 is turned on together with the “re-variation start indication lamp (REPREY lamp) 8e”. Furthermore, when the “probable change transition” described later is determined, the front lamp device (cold cathode tube) 830 of the right side device 38 is turned on together with the “probable change display lamp (probable change lamp) 8g”. I have.
[0101]
In the present embodiment, the “rear light emitter 820” that emits soft light is frequently turned on. On the other hand, although the illumination effect is high and the visibility is good, the “front illuminator (cold cathode tube) 830” which may be “bright” when lit frequently, is a particularly important message in the game. (Only when "re-variation" is started and "transition to probable change" is confirmed). Unlike the present embodiment, the luminous body (front luminous body 830) composed of a cold cathode tube is used for other scenes (for example, when a reach state, a big hit state, various notices, etc.) are performed. ) Can be lit or flashed.
[0102]
In addition, considering the longitudinal direction of the reflector 860 as a reference, in the present embodiment, as shown in FIGS. 14A and 14B, one rear passage is provided for three light passing holes 865 arranged in the longitudinal direction. Only the light emitters 820 (two in the short direction of the reflector 860) are arranged. However, since the rear lens body 850 has many protrusions 851, the light emitted from each rear light emitting body 820 not only passes through the rear lens body 850 but is refracted in various directions.
[0103]
Therefore, as shown by the oval broken line in FIG. 14B, the light emitted from the rear light emitter 820 is scattered in various directions, so that each of the rear light emitters 820 has a plurality (3 in this embodiment). The light passing hole 865 is set as its defense range. That is, by using the rear lens body 850 provided with the ridge 851, a wide range of light emission can be performed using a small number of rear light emitters 820. The rear lens body 850 having such an operation is not limited to the one shown in the present embodiment. For example, a similar effect can be obtained by using a rear lens body having a “diamond cut” applied to the rear surface or the whole. Can demonstrate. Also in this modification, a part having a different structure (structure as a lens) may be provided in a part of the rear lens body 850. For example, in the above-described “an embodiment in which LEDs having different emission colors are mixed in the LEDs constituting the rear light emitter 820”, the structure of each part of the rear light emitter 820 is different for each light emission color of the LED disposed behind the same. May be different. More specifically, an LED (the former) that emits one predetermined color (for example, red) and an LED (the latter) that emits another predetermined color (for example, blue) behind the rear light emitter 820. When both are mixed, a “diamond cut” is formed on the rear surface portion of the rear luminous body 820 that is located in front of the “latter” (or the entire portion located in front of the latter). In the light-emitting body 820, a mode in which a grain pattern, a continuous knurled projection, or the like is formed on the rear surface portion of the portion located in front of the “latter” (or the entire portion located in front of the latter) may be used. Can be illustrated.
[0104]
Returning to FIG. 3, a pair of lamp windmills 24 and 25 are respectively disposed diagonally above left and right of the central device 26. Further, a pair of side lamps 38 and 39 are disposed at both left and right end portions of the game area 11 symmetrically in a vertical arc shape. A number of obstacle nails (not shown) are provided in the game area 11 so as to be suitable for the pachinko game in consideration of the positional balance with each of the gaming machines described above.
[0105]
As shown in FIG. 3, an out port 48 is provided below the game board 10, and a back ball preventing member 58 is provided below the out port 48, and has returned without reaching the game area 11. This prevents the game ball from returning to the firing position again. On the other hand, the foul ball prevention member 59 is attached to the distal end of the inner rail 15, and the return rubber 60 is located on the right half side of the game board 10, substantially opposite to the position of the foul ball prevention member 59. , Are fitted along the outer rail 14.
[0106]
Next, the back surface structure of the pachinko machine 1 of the present embodiment will be described with reference to FIG. The front frame 4 (see FIGS. 1 and 2) is located in the middle frame 3 and is supported by a pair of hinges 101 provided at the upper and lower ends of the front frame 4 so as to be openable and closable. The back mechanism board 102 is supported by a pair of hinges 103 provided at the upper and lower ends of the back mechanism board 102 in the middle frame 3 so as to be openable and closable. The game board 10 (see FIG. 3) is detachably attached to the front side of the middle frame 3. On the left side when viewed from the position of the hinge 101 at the upper end, a prize ball tank 105 having a tank ball out detection switch 104 at the bottom of the tank, and a tank rail 106 connected to the prize ball tank 105 are attached. ing. A ball release lever 107 is provided on the right side of the tank rail 106, a supply ball out detection switch (not shown) is provided downstream thereof, and a prize as a backside game device is provided downstream thereof. A ball payout device 109 is provided.
[0107]
Subsequently, a game ball distribution unit (not shown) is provided on the downstream side of the prize ball payout device 109. Below the tank rail 106, a back case 111 with a lid storing the main display device 27 (see FIG. 3) is provided. Below the back case 111, a main control unit 140 (see FIG. 17), a main control board case 112 is provided as a storage container that stores a main control board 340 (see FIG. 17A) as a backside gaming machine. On the lower rear side of the main control board case 112, a launcher control board case 113 storing a launcher control board as a launcher control section 193 (see FIG. 16), and a launch control collective relay board (not shown) are provided. ing. In the lower left part of the back mechanism panel 102, the above-described firing device unit (not shown) is provided. In the lower right part, a payout control board 350 is also provided as a payout control unit 150 (see FIG. 16). A payout control board case 118 is provided as a storage container storing the reference｝. A relay board 190 as a back-side gaming device is mounted on the upper right side of the main control board case 112.
[0108]
As shown in FIG. 16, the relay board 190 is a board for relaying the winning ball detection switches 318, 19 s to 22 s and the like to the main control unit 140. In the present embodiment, the main control board case 112, the relay board 190, and the payout control board case 118 are detachably mounted on a metal plate (not shown), and the metal plate rotates with respect to the back mechanism board 102. It is suspended freely.
[0109]
On the other hand, a fuse box 119, a power switch 120, a power terminal board 121, and a jackpot, a launch device control, a ball out, a door open, a prize ball, a ball renting machine frame, etc. are provided at the upper right end of the back mechanism panel 102. A terminal board 122 having external connection terminals is provided. In addition, a power cable 123 for receiving power supply from outside is also provided above the terminal board 122. A connection cable 124 extends upward from the payout control board case 118 storing the payout control board 350 {see FIG. 17B}, and is connected to the prepaid card unit 13 having a power cable 125. A ball passage member 126 for a lower plate portion is provided substantially at the lower end of the center of the back mechanism panel 102. In this embodiment, a ram clear switch (not shown) for generating a ram clear signal is connected to the power supply terminal board 121. However, the connection of the ram clear switch is omitted or the ram clear switch is connected. The location may be changed.
[0110]
(2) Electronic control device 130 of pachinko machine 1
Next, the electronic control unit 130 of the pachinko machine 1 according to the present embodiment will be described with reference to FIGS.
[0111]
First, as shown in FIG. 16, the electronic control unit 130 includes a main control unit 140 and a plurality of sub-control units. The main control unit 140 is a control unit that governs the basic progress of the game, such as control for determining whether or not the game is successful. The sub-control unit is connected to the primary sub-control unit directly via the signal transmission path 500a to the main control unit 140, and to the first sub-control unit connected to the primary sub-control unit via the signal transmission path (eg, 500b). It is divided into a secondary sub-control unit. In the present embodiment, there may be a tertiary or subsequent sub-control unit such as a tertiary sub-control unit connected to the secondary sub-control unit.
[0112]
In the present embodiment, the payout control unit (prize ball payout control unit that mainly performs award ball payout control) 150 and the special symbol control unit 160 correspond to the primary sub-control unit, and the launch device control unit 193 and the audio -The lamp control unit 170a and the like correspond to the secondary sub control unit. Here, as shown in FIGS. 17A and 17B, the main control unit 140 includes a main control board 340, and the payout control unit 150 includes a payout control board 350. Also, as shown in FIG. 18, the special symbol control unit 160 has a special symbol control board 360, and as shown in FIG. 19, the audio / lamp control unit 170a has an audio / lamp control board 370a. As shown in FIG. 19, the sound / ramp control board 370a includes one part (the lamp control board part 370) having the virtual line A as a boundary and the other part (the sound control board part 380). Are provided integrally.
[0113]
Here, although the details will be described later, in the present embodiment, the main control unit 140 transmits a change command, a stop symbol command, and a change stop command to the special symbol control unit 160. Further, the special symbol control unit 160 receives the change command, and determines the change mode by lottery using a random number or the like from the plurality of change modes. A predetermined command can be transmitted from the special symbol control unit 160 to the voice / lamp control unit 170a in accordance with various symbol changes selected by the special symbol control unit 160.
[0114]
As shown in FIG. 17A, the main control board 340 includes a main circuit section 400 including a CPU 401 and an input / output circuit section 500 (see FIG. 33). The main control board 340 is usually housed in a case (ie, the main control board case 112) that is difficult to open and close for a wrongdoer. An external terminal unit 145 is connected to the input / output circuit unit 500, and a “hole computer” of a pachinko hall is connected to the external terminal unit 145. Then, the main control board 340 turns on the RAM clear signal after the execution of the RAM clear processing, and turns off after a certain period of time. However, the main control board 340 outputs this RAM clear signal to the outside of the pachinko machine 1, and the pachinko hall system or the like. I can inform you. Therefore, the manager of the pachinko hall can know the wrongdoing while the wrongdoer is unknown.
[0115]
Note that the CPU 401 includes a “determination unit that determines whether or not the game ball detected by the start detection unit is hit” or a “probability that changes the probability that the identification information displayed on the main display device 27 becomes a specific symbol”. It also functions as a “variation unit”, “a hold storage unit that stores hold information when there is hold information for which identification information is not displayed by the variable display unit even if detected by the start detection unit”. Further, when the "probability changing means" functions, the probability of the success / failure determination (big hit probability) after the end of the predetermined special game state until the next big hit is improved (for example, about 4 to 5 times). Have been.
[0116]
As shown in FIG. 34, the CPU 401 includes a CPU core 480, and controls the operation of the entire pachinko machine 1 (that is, the basic progress control of the game) using the RAM 481 as a work area by a control program stored in the ROM 482. In addition, the CPU 401 performs the determination control based on the determination program stored in the ROM 482.
[0117]
As shown in FIG. 33, the main circuit section 400 includes a CPU 401, an oscillation section 410, a reset circuit section 450, an I / O decode circuit section 420, a data bus stabilization section 411, and a first external input circuit section 430. ing. As shown in FIG. 34, the CPU 401 includes a CPU core 480, a built-in RAM 481, a built-in ROM 482, a memory control circuit 483, a clock generator 484, an address decoder 485, a watch dog timer 486, a counter / timer 487, and a parallel input / output port. 488, a reset / interrupt controller 489, an external bus interface 490, and an output control circuit 491.
[0118]
Returning to FIG. 16, the above-described signal transmission path 500a is connected to the input / output circuit section 500 shown in FIG. 17 (a), and the payout control section 150 and the special symbol control are transmitted from the input / output circuit section 500 to the signal transmission path 500a. Command data as a command signal for instructing the processing content is transmitted to the unit 160. Note that data is transmitted from the main control unit 140 to the payout control unit 150 and the special symbol control unit 160 in a one-way format or a two-way format. In addition, a mode in which data is transmitted in a one-way format from the special symbol control unit 160 to the voice / lamp control unit 170a is illustrated, but a bidirectional format is used between the special symbol control unit 160 and the voice / lamp control unit 170a. Data may be transmitted. Further, power is supplied to each of the control units 140 to 180 from the power receiving board 410 via the power supply unit 420 and the power distribution board 430 (see the broken line in FIG. 16). Is transmitted to all the control boards.
[0119]
The winning board detection switches 318, 19 s to 22 s and the like are connected to the relay board 190, and the output terminal of the relay board 190 is connected to the input / output circuit section 500 of the main control section 140. In addition, a first-class starter (ordinary electric accessory) winning detector (winning detection switch) 17s, a normal symbol display device board 32f, various solenoids 17c and 313, a right ordinary symbol operating gate passage detector (right ordinary symbol operating gate) The passage detection switch 37 s and the left ordinary symbol operation gate passage detector (left ordinary symbol operation gate passage detection switch) 36 s are connected to the input / output circuit unit 500 of the main control unit 140.
[0120]
The payout terminal board 191 is connected to the touch switch 9a, the firing stop switch 9b, the volume switch 192, the tank ball out detecting switch 104, the supply ball out detecting switch 108, and the like. The output terminals of the payout terminal board 191 are shown in FIG. 17 (b) is connected to the input / output circuit unit 700 of the payout control unit 150.
[0121]
As shown in FIG. 17B, the payout control unit 150 includes a main circuit unit 600 and an input / output circuit unit 700 similar to the main control unit 140. In the input / output circuit unit 700, signals shown in FIG. It is connected to the transmission path 500a. The input / output circuit unit 700 is connected to the prize ball payout device 109, the launching device control unit 193, and the like.
[0122]
As shown in FIG. 18, the special symbol control unit 160 includes a CPU 161, a RAM 162, a ROM 163, an input / output port 164, and a VDP (Video Display Processor) 166 as arithmetic circuit components. The components are interconnected by a bus 165 and connected to the signal transmission path 500a at an input / output port 164. The main display device 27 is connected to the input / output port 164, and the CPU 161 controls the operation of the central device 26 (the main display device 27 and the like) using the RAM 162 as a work area according to a control program stored in the ROM 163.
[0123]
As shown in FIG. 19, the lamp control board unit 370 constituting the audio / lamp control unit 170a includes a CPU 171, a RAM 172, a ROM 173, and an input / output port 174 as arithmetic circuit components. . These elements (171, 172, 173, and 174) are mutually connected by a bus 175, and are connected to a signal transmission path 500b at an input / output port 174. The input / output port 174 is connected to a frame decoration lamp board 4g, various lamp boards 261f and 262f, various LED boards 4d, 4f, 21f and 22f, and an effect board 3f shown in FIG. . One or more lamps, LEDs, and cold cathode tubes are connected to each of these substrates. These lamps and the like are turned on / off or flashed in accordance with the progress of the game. Further, the lamp control board unit 370 performs drive control of a solenoid, a motor, and the like that constitute a movable part and the like.
[0124]
As shown in FIG. 19, the sound control board unit 380 constituting the sound / lamp control unit 170a includes the same arithmetic circuit components 181 to 185 as the lamp control board 370, and a sound generator 188. The port 184 is connected to the signal transmission path 500b. The sound generator 188 outputs various sounds corresponding to the progress of the game from the speaker 400a connected via the volume switch board 12 shown in FIG. 16 based on the stored sound data and the sound output module. The volume switch board 12 connected to the input / output port 184 sets an output volume in response to operation of a volume switch (not shown).
[0125]
Further, various lamps such as the frame decoration lamp board 4g and the sound generator 188 are provided with a special symbol change / stop display mode under the control of the special symbol control section 160, presence or absence of reach, a reach display mode (described later), a special game mode. The mode is controlled according to the game mode (probability change, time saving, etc.). The command signal of the control command is transmitted via the above-described signal transmission path 500b as a command signal that targets the voice / lamp control unit 170a as an operation command.
[0126]
In addition, the above-mentioned special symbol control unit 160 and voice / lamp control unit 170a may be configured by the same circuit units as the main control unit 140 and the payout control unit 150. That is, a CPU having a main circuit section and an input / output circuit section and having a ROM and a RAM built therein can also be used.
[0127]
Next, the prize ball operation is executed in the following order.
When the game ball passes the prize ball detection switch 318, the main control unit 140 outputs 15 prize ball number data, and when the game ball passes the first-type start-up port (ordinary electric accessory) prize detection switch 17s, the 6 prize ball number data. In other cases, for example, when the passage detection switches 21 s and 22 s of the left and right lower winning openings 21 and 22 are detected to pass, the ten prize balls number data are sent to the payout control unit 150. In the order of the detection, the payout control unit 150 is transmitted via the above-mentioned signal transmission path 500a as a command signal to be an operation command target. (That is, the number of unique prize balls is 6, 10, or 15 here.) The payout control unit 150 receives the prize ball number data from the main control unit 140, and transmits the prize ball payout signal to transmit the prize ball. The ball payout device 109 is operated.
[0128]
In addition, the main control unit 140 determines the game state based on the outputs of the various detection switches described above, determines whether or not the game is successful based on the game state, and displays the image in a corresponding symbol display mode according to the determination content. Reads data for display control. For example, the main control unit 140 uses the detection result of the first-type start-up port (ordinary electric accessory) prize detection switch 17s, the prize ball detection switch 318, and the like, the acquired value of the special symbol success / failure determination random number, and the like, , A game is being played but there is no starting prize (variable preparation state), a starting prize has been won, and a special game state has been determined. Further, when the start winning is detected, a win / fail determination is performed based on a random number value to be described later, and based on the determination result, a special symbol change (including a reach display mode) or a display mode control such as confirmation is performed. The data is read. This data is transmitted via the above-described signal transmission path 500a as a command signal for setting the special symbol control unit 160 as an operation command target.
[0129]
Next, a main job executed by the main control unit 140 will be described with reference to FIG. This is an example of a job executed by the CPU 401 based on a program stored in the ROM 482 (see FIG. 18) of the main control unit 140. First, after setting the stack pointer to a predetermined address of the RAM 481 (see FIG. 18) (S10), it is determined whether or not the RAM clear switch is operated (pressed) (S12). Initialization processing is performed (S13), and if no operation has been performed, it is determined whether a backup flag has been set (S15). Then, if the backup flag is set (S15: YES), the "power restoration process for power cut-off" in FIG. 22 is performed.
[0130]
In this embodiment, when a power failure occurs due to a power failure or the like, as shown in FIG. 21, the contents of the used register are saved (saved) in the RAM 481 (S630), and the value of the stack pointer is saved in the RAM 481. (S632). Then, the special winning opening solenoid and the first type starting opening solenoid are turned off (S634), the polling processing time of the prize ball sensor (for example, about 85 ms) is set (S636), and the prize ball pre-sensor and the prize ball count are set. The passing of the game ball is monitored by the rear sensor (S638). Next, when the polling processing time has elapsed (S640), a checksum (excluding the checksum, the backup flag, and the stack area) of the RAM 481 used is created (S642), saved, and the backup flag is set in the RAM 481 (S640). S646). Then, access to the RAM 481 is prohibited (S648), and preparation for power-down is performed in an infinite loop process. It is also possible to execute a HALT process or a STOP process instead of the unlimited loop process.
[0131]
In the “return process” of FIG. 22, the checksum is calculated (S664), the checksum values stored when the power is turned off are compared, and if they do not match, the RAM 481 is initialized (S13). ). If they match, the stack pointer before power-off is restored (S668), the backup flag is cleared (S670), and a command for returning the sub-board to the state before power-off is transmitted (S672). Then, each register is restored to the state before the power-off (S674), the permission / non-permission of the interrupt is returned to the state before the power-off (S676, S678), and the address returns to the address before the power-off (S680). In the present embodiment, a backup power supply for power cut-off measures is added to the pachinko machine 1, so that even in the event of a power failure in a pachinko hall or the like, "information advantageous to a player" generated before the power failure is stored. it can.
[0132]
Returning to FIG. 20, if the backup flag is not set (S15: NO), it is determined that the initialization is completed (S20). If the initialization has been completed (S20: YES), the jobs from the LED job (S30) to the switch job (S70) are executed. If the initialization has not been completed (S20: NO), the initialization job (S190) is executed, and the completion of the initialization is determined again (S20). When the pachinko machine 1 is turned on for the first time after shipment, when the RAM clear switch is operated (pressed), when the backup flag is abnormal, or when the checksums do not match, the RAM 481 is not used. Is performed.
[0133]
In the LED job (S30), the display mode data of the normal symbol and the normal symbol unstarted number, the display mode data of the special symbol unstarted number, and the like are output. In the constant speed random number job (S40), a special symbol hit / failure random number memory and a general-purpose count memory of the RAM 481 described later are updated. In the non-constant-speed random number job (S50), the initial value counter and the out-of-place normal symbol random number memory (not shown) are updated. The general-purpose count memory (not shown) is used, for example, for creating values of “0” to “255” for each interruption, executing a command job, a decoration job, and the like.
[0134]
In the audio job (S60), data relating to music and audio is read, and in the switch job (S70), various detection switches are read. That is, various signals such as the right and left winning opening passage detection signal are transmitted to the main control unit 140 via the relay board 200, and various signals such as the firing stop detection signal, the touch detection signal, and the volume detection signal are transmitted via the payout terminal board 200a. The payout control unit 150 takes in each of them, and also receives a first-class start-up prize detection signal from the first-class start-up (normal electric accessory) prize detection switch 17s, a prize-ball detection signal from the large prize device 31, and a normal symbol operation. The gate passage detection signal is taken into the main control unit 140.
[0135]
Further, it is determined whether there is an abnormality in the switches 318 (see FIG. 16) such as the count detection switch, the count detection and the specific area passage detection switch (S80), and if there is no abnormality (S80: YES), the special symbol main Jobs from the job (S90) to the ordinary symbol main job (S100) are executed. If there is an abnormality (ball clogging, disconnection, etc.) (S80: NO), an error job (S130) is executed.
[0136]
In the special symbol main job (S90), a job relating to data necessary for the main control unit 140 and the special symbol control unit 160 to operate in cooperation is executed. In the normal symbol main job (S100), the display mode data of the normal symbol and the normal symbol unstarted count is read.
[0137]
Thereafter, each flag state is set in the backup memory (S140), and the award ball signal job (S150), the information signal job (S160), the command job (S170), and the remaining time job (S180) are executed. In the prize ball signal job (S150), data related to prize ball payout is read and output, and in the information signal job (S160), data necessary for information output to another control unit is read. Further, in the command job (S170), a command for special symbol management or the like is output, and in the remaining time job (S180), non-constant random numbers are called. Note that the initial value random number is also updated in the remaining time job (S180).
[0138]
Next, FIG. 23 and FIG. 24 relate to a success / failure determination job relating to a special symbol at the time of a start winning (winning to the first type starting port (ordinary electric accessory) 17), which is executed in a series of flows of the main job. This will be described with reference to FIG. Note that various memories and the like used in these jobs are stored in the RAM 481 (see FIG. 18) of the main control unit 140 shown in FIG. 34, and typical ones (481a to 481m, 481o to 481t, 481v, and 481w) are stored. As shown in FIG.
[0139]
First, in S200, it is checked whether or not there is a start winning. If NO, the process proceeds to S203, and it is determined whether or not there is a reserved number (number of unstarted times) stored in the special symbol reserved number memory 481b (see FIG. 25). I do. If the number of reservations is not present (that is, zero), the process is terminated, and if there is a reservation, the process proceeds to S270. On the other hand, if there is a start winning (S200: YES), the process proceeds to S206, and it is determined whether or not the number of holds is 40 or more. If the number of reservations is 40 or more, the process proceeds to S270, and if the number of reservations is less than 40, the process proceeds to S210. Then, in S210, the hold number is incremented by 1, and the process proceeds to S220. Note that the upper limit of the number of reservations is not limited to the present embodiment, and may be another number such as “4”, for example, or may be unlimited by eliminating the upper limit of the number of reservations.
[0140]
In S220, a special symbol success / failure judgment random number (hereinafter, also referred to as a success / failure random number or a judgment random number) and a hit symbol random number are generated (either by generating a program or by using a predetermined random number generation circuit ( In step S230, these random numbers are read. In S240, the random number value thus read is stored in a special symbol hit / failure determination random number memory 481a (see FIG. 25; hereinafter, also referred to as a determination random number memory) and a big hit symbol determination random number memory 481d. This memory stores the read random judgment values in a shift memory format in chronological order of the start winning.
[0141]
In S270, if it is not the start of the change, the process is terminated. If the start of the change, in S275, the oldest judgment random number stored in the special symbol hit / fail random memory 481a (see FIG. 25) is stored. At the same time, the oldest winning symbol random number is read from the big hit symbol determining random number memory 481d. Then, the special symbol success / failure random number memory 481a and the big hit symbol determining random number memory 481d are shifted.
[0142]
Next, in S274, the big hit number (hit determination value) is read out from the special symbol big hit number memory (in the built-in ROM 482), and in S278, the big hit number is compared with the special symbol hit / fail judgment random number. If they match, a jackpot determination is made, and if they do not match, a disconnection determination is made. Then, in the case of the jackpot determination, the process proceeds to S280, where the winning symbol random number value is read and stored in the jackpot symbol determining random number memory 481d. Then, in S290, a reach mode determination random number is generated, and this is read and stored in the reach mode determination random number memory 481q. Further, in S300, the determination result of "big hit"("1" in this embodiment) is stored in the special symbol determination result memory (symbol determination result memory) 481p (see FIG. 25).
[0143]
On the other hand, if it is determined that the job is out of order, the process advances from step S278 to step S310 to determine whether to perform the out-of-order reach job using a random number. That is, in S310, a reach mode determination random number is generated and read, and in S320, the reach number stored in the reach number memory 481o (see FIG. 25) is read. Then, in S330, if they match, the job is a missed reach job. If they do not match, the job is a normal missed job.
[0144]
In the case of the out-of-reach job, the process proceeds to S380, and the determination result of “out-of-reach” (“2” in this embodiment) is stored in the special symbol determination result memory 481p (see FIG. 25). On the other hand, if the job is a non-normal job, the process proceeds to S450, and in S450, the result of the determination of “normally out” (“3” in this embodiment) is stored in the special symbol determination result memory 481p (see FIG. 25).
[0145]
Next, a schematic flow of the special symbol main job, which is executed in a series of flows of the main job, will be described with reference to FIGS. First, in S500, based on a prize of a game ball to the first-type starting port (ordinary electric accessory) 17, the variation display of each special symbol is started for each display section (27a to 27i) of the main display device 27. .
[0146]
Next, in S510, the determination result for each winning obtained in the success / failure determination job shown in FIGS. 23 and 24 is read from the determination result memory 481p (see FIG. 25). Specifically, in the case of a big hit determination ("1") (S520: YES), the process proceeds to S800, and a big hit display job is performed. In this jackpot display job, as shown in FIG. 27, the process proceeds to S805, in which the reach mode determination value stored in the reach mode determination value memory 481r corresponding to the reach mode determination random number value described above is read, and further, in S810. Then, the jackpot number (identification information determination value) is read from the jackpot number memory (in the built-in ROM 482), and if the re-change job is not to be performed (S815; NO), the process proceeds to S840 to display the line reach (valid). The number of lines may be any of 1 to 8) or after performing a matrix reach display, a big hit display (per line or per matrix) is performed.
[0147]
In the case of performing the re-variable job (S815; YES), after performing “gassing reach display (reach display of“ fake ”different from the reach display to be displayed in S840)”, “missing display (S840) Is performed, a "fake display" which is different from the big hit display to be displayed) is performed. Next, in S824, the number counter P is initialized, and a re-variation availability determination display is performed (S826). Note that this re-variation availability determination display includes (a) an operation of swinging down the hammer 82a of the left movable device 8a and hitting the gong 81a and at the same time generating a “gong sound” from the speaker 400a, and (b) re-variation. The operation is performed by turning on the start availability determination lamp 8c.
[0148]
Next, it is determined whether or not the re-fluctuation is started based on a predetermined random number or the like (S828). If the re-fluctuation is started (S828; YES), after "re-fluctuation start display" is performed (S826) , A re-change (the main display device 27 changes again) is started (S828). This "re-change start display" is performed by the operation of turning on the re-start change display lamp (REPREY lamp) 8e and the operation of turning on the front lamp device (cold cathode tube) 830 of the left side device 38. .
[0149]
On the other hand, if it is determined in S828 that re-change does not start (S828; NO), if the value of the number counter P is 1 or less (S832; NO), P is incremented by 1 (S834), and again After performing the re-variation availability determination display, the determination of S828 is performed. Then, when it is determined that re-variation is to be started (S828; YES), the flow shifts to S836 and S838. If it is determined that re-variation is not to be started (S828; NO), the process is performed again in the order of S832, S834, S826, and S828. However, if it is determined in S832 that the value of the number counter P is 2 or more (S832; YES), the process proceeds to S836, and a re-variation start display is performed.
[0150]
That is, even if the re-variation determination is displayed twice in S826 and the determination that the re-variation is not started is performed twice consecutively in S828, after the third re-variation determination display is performed in S826, the process returns to S828. Regardless of the determination result, the re-variation is started. In other words, when shifting to the re-change job, the re-change is always executed, and the same "reach display (reach display as planned)" and "big hit display (spot display as planned)" are performed as in the case of not shifting to the re-change job. Is obtained. In other words, this re-change job is merely for display (for presentation) and does not change the “reach mode” or “big hit symbol” determined by the “main control unit 140”.
[0151]
Returning to FIG. 27, after performing the reach display and the jackpot display (S840), the probability change state (high probability state, that is, the probability that the identification information displayed on the main display means 27 becomes the symbol of the jackpot becomes high probability. (S843). Then, when it is not in the probable change state (S843; NO), it is determined whether or not to perform the “non-probabilistic effect job (S850)” (S845). , The “non-probable change display” is performed as it is (S846). In this embodiment, the "non-probable change display" is performed by turning off the probable change status display lamp 8g.
[0152]
When the “non-probable change effect job (S850)” is to be performed (S845; YES), as shown in FIG. This is performed by turning off the display lamp 8g.) ”(S852), and a re-lottery display is performed (S854). The re-lottery display includes (d) an operation of swinging down the hammer 82b of the movable device 8b on the right side and hitting the gong 81b, and simultaneously generating a “gong sound” from the speaker 400a, and (e) displaying the re-lottery display lamp 8d. The lighting operation is performed. Then, after the re-lottery display is performed (S854), "non-probable change display" is performed in S846, and the process is terminated.
[0153]
Returning to FIG. 27 again, when it is determined in S843 that the state is in the probable change state (S843; YES), it is determined in S847 whether or not to perform the “probable change effect job (S870)” (S847). If the “production job” is not performed (S847; NO), “probable change display” is performed as it is (S848). In this embodiment, the “probable change display” is performed by turning on the probable change status display lamp 8g.
[0154]
When the “probable change effect job (S870)” is to be performed (S847; YES), as shown in FIG. 29B, “gase non-probable change display (non-probable change display of“ fake ”and probable change state display This is done by turning off the lamp 8g.) ”(S872), and a re-lottery display is performed (S874). This re-lottery display also includes (d) an operation of swinging down the hammer 82b of the movable device 8b on the right side and hitting the gong 81b, and simultaneously generating a "gong sound" from the speaker 400a, and (e) displaying the re-lottery display lamp 8d. The lighting operation is performed. After the re-lottery display is performed (S874), the “probable change display” is performed (S876), and the “probable change display” is performed in S848, and the process ends.
[0155]
In the present embodiment, the “probable change transition display” is performed by turning on the “probable change transition display lamp (probable change lamp) 8g”. It should be noted that even if the process shifts to the probabilistic effect job, no change is made to the actual state of the gaming machine 1 (probable state or non-probable state). In other words, this probabilistic effect job is merely for display (producing), and the “state of the actual gaming machine 1 (state of probable state or non-probable state) determined by the“ main control unit 140 ”. It does not change anything.
[0156]
Returning to FIG. 26, in the case of the out-of-reach determination ("2") (S530: YES), the flow proceeds to S900, and the out-of-reach display job is performed. That is, as shown in FIG. 30, the out-reach symbol number is read from the out-reach symbol number memory 481s (see FIG. 25), and the out-of-intermediate symbol number memory 481i (see FIG. 25) is read out. (S905). Then, in S910, the read-out reach symbol number is compared with the out-of-place middle symbol number, and the out-of-reach mode is determined based on the difference therebetween (S915). The reach mode may be a line reach display (the number of active lines may be any of 1 to 8) or a matrix reach display.
[0157]
The process in S913 will be specifically described by taking a line reach display of “(2) Naka-yoko Line” as an example. Specifically, the difference between the off-reach symbol number and the off-center middle symbol number (that is, for example, The difference reach mode data is read out from the shift reach mode memory 481t based on the difference. For example, when the difference is “−1” (that is, for example, when the middle middle symbol is the symbol immediately before the middle left symbol), one of a plurality (three, for example) of out-of-reach superreach is selected. If it is selected (for example, it can be selected by obtaining a predetermined random number) and read out, and if the re-variable job is not to be performed (S915; NO), the process proceeds to S925 and the predetermined reach display is performed. After that, a departure display is performed (S925).
[0158]
In the case of performing a re-change job (S915; YES), processing is performed according to the number of steps in parentheses in FIG. That is, a “re-change job” similar to the above “big hit display job S800” is executed. In other words, after performing the “gase reach display (reach display of“ fake thing ”different from the reach display to be displayed in S925)”, the “gase out display (the“ fake thing ”different from the off display to be displayed in S925) is displayed. Off display) ". Then, the number-of-times counter P is initialized (S924), whether or not re-variation is possible is displayed (S926), and whether or not re-variation is started is determined (S928). If necessary, after the processes of S932 and S934, Then, re-variation is started via the re-variation start display (S936) (S938).
[0159]
Returning to FIG. 26 again, in the case of a normal deviation determination ("3") (S540), a "normal deviation display job" is performed (S550). In the normal deviation display job (S550), as shown in FIG. 31, in step S555, each deviation symbol number is read from the deviation number memory (481e to 481m), and when the re-variable job is not performed (S558; NO). Proceeds to S570 and performs the off display. For example, the special symbols are stopped and displayed at timings shifted from each other and fixed.
[0160]
In the case of performing the re-change job (S560) (S558; YES), as shown in FIG. 32, "missing display (missing display of" seized object "different from the missing display to be displayed in S570)" Is performed (S562), the re-variation is determined via a re-variation availability display (S564), and a re-variation start display (S566) is started (S568). Note that the “re-variation determination display” in S562 also includes (a) an operation of swinging down the hammer 82a of the movable device 8a on the left side and hitting the gong 81a, and simultaneously generating a “gong sound” from the speaker 400a; b) The operation of turning on the lamp 8c for determining whether or not to start the re-variation. In addition, the "re-change start display" is performed by an operation of turning on the re-change start display lamp (REPREY lamp) 8e and an operation of turning on the front lamp device (cold cathode tube) 830 of the left side device 38.
[0161]
Further, when the process shifts to the re-change job, the re-change is always executed, and the same "missing display" as when the process does not shift to the re-change job is obtained. In other words, the re-change job is merely for display (for effect), and does not change the “out-of-design” determined by the “main control unit 140”.
[0162]
Note that, unlike the present embodiment, when the main display device 27 performs scroll display, the display mode can be changed to various modes by "slip display" or the like even in the case of a normal deviation determination. In this case, the display mode image value data (not shown) in the RAM 481 (see FIG. 25) of the main control unit 140 is used as the display mode determination value in association with the reach mode determination random number value. ) May be stored, and the read out state determination random number value and the read out state display state determination value may be compared to determine the out-of-normal state to be displayed.
[0163]
Along with the jackpot determination, special symbols are fixedly displayed in a predetermined arrangement on the main display device 27 (see FIG. 3) ("per line" or "per matrix"), and then a special game is executed (special game). Gaming state or jackpot gaming state). In such a special game state, first, the opening and closing plate 312 of the special winning device 31 (see FIG. 3) is in an open state, and the winning of game balls into the special winning opening 311 is a game ball receiving state in which the player is superior.
[0164]
In the special game state, the special winning device 31 continues the game ball receiving state until the end condition is satisfied. For example, when the open state is the predetermined time ₁ (For example, 30 seconds) or a predetermined number n is set to the winning ball detection switch 318 (see FIG. 5). ₁ When the winning (for example, 10) is detected, the end condition is satisfied, the game ball receiving state is temporarily ended, the open / close plate 312 is closed, and one round is ended. The opening and closing plate 312 is closed for a predetermined time t. ₂ After a lapse of (for example, 0.5 seconds), if a predetermined continuation condition (passing to a specific area (not shown)) is satisfied, the opening / closing plate 312 is again opened, and the special winning device 31 is switched to the game ball receiving state. Become. It should be noted that the game ball receiving state in which the end condition is set to one round is repeatedly continued up to a predetermined maximum continuous round number (16 rounds in the present embodiment). When the continuation condition is not satisfied when the end condition is satisfied, the special game state ends (so-called puncture) in the round.
[0165]
(3) Effects of the embodiment
In the side lamp device 800 of the present embodiment, the front light emitter 830 and the rear light emitter 820 are three-dimensionally arranged with the reflector 860 interposed therebetween. That is, a plurality of and a plurality of types of light emitters 830 and 820 are arranged three-dimensionally (layered). That is, the front light emitter 830, the reflector 860, and the rear light emitter 820 constitute a three-layer structure. Therefore, a desired illumination effect can be obtained regardless of the size of the installation site of the lamp device.
[0166]
In addition, the combination of the front illuminant (cold cathode tube) 830 with high illumination effect and good visibility and the rear illuminator (LED) 820 that emits soft “light” provides a synergistic illumination. The effect can be obtained. In addition, since a difference is provided between the light emission frequencies of the light emitters 830 and 820, important messages issued by the gaming machine 1 can be emphasized.
[0167]
As described above, the embodiments of the present invention have been described. However, the present invention is not limited thereto, and is not limited to the language described in each claim as long as it does not deviate from the scope described in each claim. Can easily be replaced therefrom, and improvements based on the knowledge usually possessed by those skilled in the art can be appropriately added.
[0168]
That is, in the embodiment and the modified examples, “probable change display” and “non-probable change display” are displayed by turning on / off the probable change status display lamp 8g, but based on the type of the special symbol stopped and displayed on the main display device 27, “Probable change display” or “non-probable change display” may be performed. In this case, the jackpot symbol determination random number value stored in advance is composed of a probability change random number value and a non-probability change random value, and the probability change symbol or the non-probability change The symbol is stopped and displayed.
[0169]
In the embodiments and the modified examples, the reflector 860 has a so-called “five-sided cut” reflecting surface 863, but the shape of the reflector 860 is not limited thereto. For example, as shown in FIG. 35, a reflection surface 863 having a “polygonal cut shape other than five” such as a “four-sided cut shape” and a reflective surface 863 having various shapes such as a circle and an ellipse are provided. A thing may be used. In the “five-sided cut” reflecting surface 863 shown in the embodiment, the center is a horizontal plane, and in the “four-sided cut” reflecting surface 863 shown in FIG. 35, the center is a valley shape. Therefore, the light emitted from the first light emitter (front light emitter 830) reaches the player in a different manner. That is, by appropriately changing the shape of the reflecting surface 863, reflected light in different modes can be obtained.
[0170]
In the embodiment and the modification, the reflector 860 having the reflection surface 863 and the light passage hole 865 is illustrated, but the structure of the reflector 860 is not limited thereto. For example, the reflector 860 may be configured by a “half mirror” that transmits light emitted by the rear light emitter 820 but does not transmit light reflected by the front light emitter 830 but reflects the light. In this case, since it is not always necessary to form the light passage hole 865 in the reflector 860, the structure of the reflector 860 can be simplified, the strength of the reflector 860 can be improved, and the like.
[0171]
The arrangement of the rear light-emitting members 820 may be different from that of the present embodiment. For example, the rear light-emitting members 820 may be arranged in a “staggered shape” as shown in FIG. Further, the light passage hole is not limited to the one formed by the slit-shaped gap, and may be formed by, for example, a round hole, a triangular hole, a polygonal hole, a notched hole, or the like. Furthermore, various arrangement methods of the light passage holes can be selected, and for example, the light passage holes may be arranged in a “staggered shape” or randomly. In addition, a reflector having a light selecting portion (for example, a half mirror-shaped reflector including a transparent base portion and a light selecting film formed of a vapor-deposited plating layer formed on at least a front portion of the base portion) In (2), it is not necessary to form the gap 862. However, in this case, since the light emitted from the rear light emitter 820 is easily attenuated when passing through the light selection part (light selection film), the amount of light reaching the front of the reflector from the rear light emitter 820 However, the number tends to be smaller than in the embodiment {the embodiment using the gap portion 862 (light passing hole 865)}.
[0172]
Further, as a side lamp device according to a modified example, a side lamp device having a rear lens body 1850 shown in FIGS. 37 and 38 can be exemplified. However, also in the side lamp device according to this modification, as the constituent members other than the rear lens body 1850, the same constituent members as those in the embodiment (a reflector 860, a rear light emitter 820, a spacer 840, a front light emitter 830, and a front lens) are used. Body 870). The rear lens body 1850 according to this modified example is configured using a predetermined transparent integrally molded product {for example, an integrally molded product of a transparent resin (polycarbonate) or the like}. Further, it includes a flat plate portion 1850a formed in a long shape, and a plurality of protruding portions 1850b protruding forward from the front surface of the flat plate portion 1850a. In the rear lens body 1850, the plane dimension of the flat plate portion 1850a is slightly larger than the plane dimension of the reflector 860 (may be substantially the same or may be smaller).
[0173]
The protruding portion 1850b has a convex shape in which the irregularities are substantially inverted from the “space shape of the gap portion 862 (light passage hole 865) of the reflector 860”. That is, the protruding portion 1850b has substantially the same shape as the plate-shaped body 861 of the reflector 860, and the front end surface 1851b has a “five-side cut” concave shape. The number of the protrusions 1850b is equal to the number of the gaps 862 (28 in the present modification), and the arrangement interval of the adjacent protrusions 1850b is also equal to the arrangement interval of the adjacent gaps 862. I have. In this modification, the rear lens body 1850 is disposed behind the reflector 860, and when each of the protrusions 1850b is inserted into the corresponding gap portion 862 {see FIG. 38 (b)}, the reflector 860 and the rear The lens body 1850 is integrated. At this time, the concave portion 861a of the plate-shaped body 861 and the front end surface 1851b of the protruding portion 1850b are substantially flush.
[0174]
In the case where the reflector 860 is provided with a gap 862 (light passage hole 865) penetrating the front and back (front and back), as in this modification, the gap 862 (light passage hole) is provided from the front surface of the rear lens body 1850. When the protrusion 1850b inserted into the rear lens body 865 is protruded, it is easy to position the reflector 860 and the rear lens body 1850. Further, as in this modification, the front end surface 1851b of the protruding portion 1850b and the front end surface (concave portion 861a) of the plate-like body 861 have the same shape, and when the protruding portion 1850b is inserted into the gap 862, When the front end surfaces (851b and 1861a) are substantially flush with each other, the design of the “internal structure of the side lamp device” visible through the front lens body 870 is improved. Note that the “insertion” of the respective protruding portions 1850b into the corresponding gap portions 862 may be performed in the “fitted state” or in the “free-in state”. In addition, the shape of the front end surface 1851b of the protruding portion 1850b can be changed according to the shape of the front end surface (concave surface portion 861a) of the plate-like body 861, and for example, the front end surface (concave surface portion 861a) has a “quadrilateral cut shape”. Or other concave shape such as “semi-cylindrical shape”, it is preferable that the shape of the front end face 851b also be this “other concave shape”.
[0175]
In addition, the front light emitting body 830 configured using the cold cathode tube is not limited to the linear shape shown in the embodiment, but can be formed into various shapes such as a substantially U shape, a substantially circular shape, and a substantially L shape. . Further, in the present embodiment, the mode in which the LEDs are arranged (continuously) at the rear portions on both sides of the cold-cathode tube is exemplified. However, the LEDs are disposed at the rear portions on one side of the cold-cathode tube. It may be arranged.
[0176]
In the electronic control unit 130 that constitutes the embodiment and the modified example, the main control unit 140 includes not only the payout control unit 150 and the special symbol control unit 160 but also the sound / lamp control unit 170a and the signal transmission path 500a. May be connected directly. Further, instead of the sound / lamp control unit 170a, separate lamp control units and sound control units may be used. In this case, the lamp control unit or the voice control unit may be connected to the special symbol control unit 160 via the signal transmission path 500b, or the lamp control unit or the voice control unit may be connected to the main control unit via the signal transmission path 500a. 140 may be connected directly. The transmission direction in these cases may be one-way or two-way.
[0177]
For example, as shown in a modification of FIG. 39, the main control unit 140 and the sound / lamp control unit 170 are connected by a signal transmission path 500b, and the sound / lamp control unit 170 and the special symbol control unit 160 are The connection may be made by the transmission path 500c. Then, data is transmitted in one-way format from the main control unit 140 to the sound / lamp control unit 170, and data can be transmitted in two directions between the sound / lamp control unit 170 and the special symbol control unit 160. Good. In this case, it is easy to achieve synchronization between the sound / lamp control unit 170 and the special symbol control unit 160, and the generation of sound, the lighting of the lamp, the display of the symbol, and the like are performed to determine the symbol and reach the symbol. At the same time, control can be performed at an accurate timing.
[0178]
In the present embodiment, a gaming machine satisfying the related inventions 1 and 2 described below has been described. However, a gaming machine satisfying only one of the related inventions 1 and 2 or the related inventions 1 and 2 The inventions of claims 1 to 11 are also applicable to gaming machines that do not satisfy Condition 2.
[0179]
That is, the gaming machine according to the related invention 1 includes a “starting port (first-type starting port 17) and start detecting means (first-type starting port winning detection switch 17s) for detecting a game ball entering the starting port. Determining means (CPU 401) for determining whether or not the game ball detected by the start detecting means is hit; and variable display means (main display device 27) capable of variably displaying the determination result by the determining means as identification information. And a variable winning means (large winning opening 311) capable of changing to a state advantageous to the player when the identification information displayed on the variable display means has a predetermined specific symbol. A first display area for displaying the identification information in a predetermined display mode, and a second display area for displaying the identification information in a display mode different from the first display area. Having a display area The features.
[0180]
Further, the gaming machine according to the related invention 2 includes a “starting port (first-type starting port 17) and start detecting means (first-type starting port winning detection switch 17s) for detecting a game ball entering the starting port. Determining means (CPU 401) for determining whether or not the game ball detected by the start detecting means is hit; and variable display means (main display device 27) capable of variably displaying the determination result by the determining means as identification information. And a variable winning means (large winning opening 311) capable of changing to a state advantageous to the player when the identification information displayed on the variable display means has a predetermined specific symbol. The variable display means includes a display unit including a first display element (2M) belonging to a first display area and a second display element (2N) belonging to a second display area. , More than one In each display unit, and wherein the "displaying selectively said identification information using a first display element and a second display element.
[0181]
Here, in Related Invention 1 and Related Invention 2, at least one of the first display area and the second display area (for example, the first display area) may be an area for performing reach display. . The area in which the reach display is performed is “an area where, when the reach state is reached, part of the displayed identification information continues to fluctuate and others stop fluctuating”. Further, the “identification information” is a constituent unit of a design, and may be, for example, a “number”, a “character”, a “graphic”, a “character”, or the like.
[0182]
In the related invention 1, the “different display mode” means, for example, (1) a case where the display method of the identification information displayed in the first display area is different from the display method of the identification information displayed in the second display area. (For example, when one display area displays identification information with a “seven-segment display” and the other display area displays identification information with a “single-segment display”), (2) the first If the form of the color, shape, etc. of the identification information displayed in the display area is different from the form, such as the color, shape, etc. of the identification information displayed in the second display area, (3) the identification displayed in the first display area When the size of the information is different from the size of the identification information displayed in the second display area, (4) the identification information displayed in the first display area and the identification information displayed in the second display area are: In cases where there are two or more differences among the above (1) to (3), etc. It can be shown. In the related invention 1, in order to perform a display with a higher impact, a display element (ie, a display element) constituting the first display area and a display element (ie, a display element) constituting the second display area are provided. Element) may be separate. However, the display element forming the second display area exists in a part of the display element forming the first display area, or the first element is formed in a part of the display element forming the second display area. There may be a display element constituting the display area.
[0183]
Further, in the invention of Related Invention 2, the “first display element belonging to the first display area” means that the first display element is configured by the first display elements of all the display units, The “second display element belonging to the second display area” means that the second display element is configured by the second display elements of all the display units.
[0184]
Further, in the inventions of the related inventions 1 and 2, the "variable winning means changes to a state advantageous to the player when all pieces of identification information displayed in the second display area are the same or the same kind. That ". Here, "all the identification information is the same" indicates a case where all the identification information displayed in the second display area are aligned with the same symbol. As the “identical”, for example, a case in which all pieces of identification information displayed in the second display area are aligned with the same symbol (number, character, symbol, character, etc.) can be exemplified. In addition, “all types of identification information are the same type” refers to a case where all pieces of identification information displayed in the second display area are aligned with related symbols. As the same type, for example, “when all the identification information displayed in the second display area includes a symbol (numeral, character, symbol, etc.) that differs only in size or expression form (character style, etc.)” For example, "a case where all pieces of identification information displayed in the second display area are arranged under the same theme" can be exemplified. To align with the same theme, for example, when all are provided with floral designs, when all are aligned with fruit designs, when all are aligned with animal designs, all are presenters of a certain story (old tale, animation, etc.) For example.
[0185]
Further, in each invention, unlike the above-described embodiment, the upper limit of the number of reservations may be set to “4” as in the related art, and the processing (digestion) of the reservation information may be performed as follows. For example, the processing may be performed by "providing a game machine with a gain providing means capable of providing a game gain to a player when the unexecuted hold information is information in a predetermined state". For example, when “the number of reservations becomes a predetermined number (an integer exceeding the conventional upper limit number 4 (an integer of 5 or more) can be exemplified)”, “increase the probability that the determination means makes a hit determination”, “variable Various gains such as "displaying the reach mode uniformly by the display means", "open control of the electric accessory to facilitate winning", "increase the number of prize balls at the next prize ball" are given. Is also good. Further, the processing may be performed by “providing a gaming machine with a suppression unit that suppresses an increase in the number of pieces of hold information”. For example, on-hold information generated when in the special gaming state, or on-hold information generated when the on-hold information is equal to or more than a predetermined number, by lottery means for lottery whether or not to store in the on-hold storage means, This suppression means can be configured.
[0186]
【The invention's effect】
As described above, according to the embodiments of the present invention, it is possible to obtain a lamp device capable of disposing a desired number of luminous bodies, regardless of the size of the installation site, and a gaming machine including such a lamp device. .
[Brief description of the drawings]
FIG. 1 is a front view showing a gaming machine according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a state in which a front frame is opened in the gaming machine according to the embodiment of the present invention.
FIG. 3 is a front view showing a game board in the gaming machine according to the embodiment of the present invention.
FIG. 4 is a front view showing a main display device in the gaming machine according to the embodiment of the present invention.
FIG. 5 (a) is an explanatory view illustrating one variation mode of a symbol in each display section constituting a main display device in a gaming machine according to an embodiment of the present invention, and FIG. FIG. 16 is an explanatory diagram illustrating another variation of the symbol in each display unit constituting the main display device in the gaming machine according to the embodiment.
FIG. 6 is an explanatory diagram for explaining an effective line (hit line) formed on the main display device in the gaming machine according to the embodiment of the present invention.
FIG. 7A is an explanatory diagram for explaining a specific example of “line reach display” displayed on the main display device in the gaming machine according to the embodiment of the present invention, and FIG. FIG. 24 is an explanatory diagram for describing a specific example of “per line” displayed on the main display device in the gaming machine according to the embodiment of the present invention.
FIG. 8A is an explanatory diagram for describing a specific example of “matrix reach display” displayed on the main display device in the gaming machine according to the embodiment of the present invention, and FIG. FIG. 24 is an explanatory diagram for describing a specific example of “per matrix” displayed on the main display device in the gaming machine according to the embodiment of the present invention.
FIG. 9 is a front view showing a side device in the gaming machine according to the embodiment of the present invention.
FIG. 10 is an exploded perspective view of an electric decoration device constituting the side device in the gaming machine according to the embodiment of the present invention.
FIG. 11 is a longitudinal sectional view of an electric decoration device constituting the side device in the gaming machine according to the embodiment of the present invention.
12A is a rear view of a rear lens body provided in a side device in a gaming machine according to an embodiment of the present invention, and FIG. 12B is a gaming machine according to an embodiment of the present invention. It is a longitudinal cross-sectional view of the rear lens body provided.
13A is a front view of a reflector included in a side device in a gaming machine according to an embodiment of the present invention, FIG. 13B is a vertical cross-sectional view taken along a line aa of FIG. FIG. 13C is a vertical sectional view taken along line bb of FIG.
14A is an explanatory diagram showing a relationship between a light passage hole of a reflector and a rear lamp device in a gaming machine according to an embodiment of the present invention, and FIG. 14B is a diagram illustrating an embodiment of the present invention. FIG. 14C is an explanatory diagram illustrating a relationship between the light passage hole of the reflector and the rear lamp device that is emitting light in the gaming machine, and FIG. 14C is a cross-sectional view taken along line dd of FIG.
FIG. 15 is a rear view showing the gaming machine according to the embodiment of the present invention.
FIG. 16 is a block diagram illustrating an electronic control device according to an embodiment of the present invention.
FIG. 17A is an explanatory diagram of a main control unit included in an electronic control device provided in a gaming machine according to an embodiment of the present invention, and FIG. 17B is an explanatory diagram of an electronic device provided in the gaming machine according to an embodiment of the present invention. It is explanatory drawing of the payout control part which comprises a control apparatus.
FIG. 18 is an explanatory diagram of a special symbol control unit included in the electronic control device provided in the gaming machine according to the embodiment of the present invention.
FIG. 19 is an explanatory diagram of a sound / lamp control unit included in the electronic control device provided in the gaming machine according to the embodiment of the present invention.
FIG. 20 is a flowchart illustrating a main job performed by a main control unit of the gaming machine according to the embodiment of the present invention.
FIG. 21 is a flowchart showing processing when a power interruption (power failure or the like) occurs in the gaming machine according to the embodiment of the present invention.
FIG. 22 is a flowchart showing a power restoration process when a power interruption (power failure or the like) occurs in the gaming machine according to the embodiment of the present invention.
FIG. 23 is a flowchart illustrating a first half of a hit / failure determination job in the gaming machine according to the embodiment of the present invention.
FIG. 24 is a flowchart illustrating a latter half of a hit / failure determination job in the gaming machine according to the embodiment of the present invention.
FIG. 25 is an explanatory diagram showing a representative example of various memories and the like stored in a built-in RAM of the main control unit in the gaming machine according to the embodiment of the present invention.
FIG. 26 is a flowchart illustrating an outline of a special symbol main job in the gaming machine according to the embodiment of the present invention.
FIG. 27 is a flowchart illustrating an outline of a jackpot display job in the gaming machine according to the embodiment of the present invention.
FIG. 28 is a flowchart illustrating one mode of a re-change job in the gaming machine according to the embodiment of the present invention.
FIG. 29A is a flowchart for explaining an outline of a non-probability display job in the gaming machine according to the embodiment of the present invention, and FIG. 9 is a flowchart illustrating an outline of a display job.
FIG. 30 is a flowchart illustrating an outline of a missed reach display job in the gaming machine according to the embodiment of the present invention.
FIG. 31 is a flowchart illustrating an outline of a normal-missing display job in the gaming machine according to the embodiment of the present invention.
FIG. 32 is a flowchart illustrating another mode of the re-change job in the gaming machine according to the embodiment of the present invention.
FIG. 33 is an explanatory diagram illustrating a main control unit in the gaming machine according to the embodiment of the present invention.
FIG. 34 is an explanatory diagram showing a CPU constituting a main control unit in the gaming machine according to the embodiment of the present invention.
35 (a) is a front view of a reflector according to a modification of the embodiment of the present invention, FIG. 35 (b) is a vertical sectional view taken along line ff of FIG. 35 (a), and FIG. It is a gg longitudinal sectional view of 35 (a).
FIG. 36 is an explanatory diagram showing a relationship between a light passage hole of a reflector and a rear lamp device in a gaming machine according to a modification of the embodiment of the present invention.
FIG. 37 is a perspective view showing a reflector and a rear lens body in a lamp device provided in a gaming machine according to a modification of the embodiment of the present invention.
38 (a) is a plan view showing a reflector and a rear lens body included in the lamp device of FIG. 37, and FIG. 38 (b) is a kk longitudinal sectional view of FIG. 38 (a).
FIG. 39 is a block diagram showing an electronic control device according to a modification of the embodiment of the present invention.
[Explanation of symbols]
1: pachinko machine (game machine),
2; outer frame,
3; middle frame,
4: Front frame,
5, 6; upper plate, lower plate (dish member),
10; game board,
800; side lamp device (lamp device);
820; rear luminous body (second luminous body),
830; front illuminant (first illuminant);
860; reflector (light reflector),
861a; concave part (front part),
863; reflective surface,
865; light passage hole,
850; rear lens body (light scattering lens body).

Claims (11)

A light reflector, a first light emitter disposed in front of the light reflector, and a second light emitter disposed behind the light reflector,
The lamp device, wherein the light reflector reflects light emitted from the first light emitter and passes light emitted from the second light emitter in front of the light reflector. The lamp according to claim 1, wherein one of the first light emitter and the second light emitter is a cold cathode tube, and the other is another light emitter different from the cold cathode tube. apparatus. The light reflector has a light-passing hole formed at least on a front surface portion and having a light-passing hole penetrated from the front surface portion to the rear surface portion.
The light emitted from the first luminous body is reflected by the reflection surface, and the light emitted from the second luminous body passes through the light passage hole in front of the light reflector. 2. The lamp device according to 2. 4. The lamp device according to claim 3, wherein the light passage holes are formed by slit-shaped gaps continuously arranged at predetermined intervals. The lamp device according to claim 1, wherein the light reflector includes a light selector that reflects light emitted by the first light emitter and passes light emitted by the second light emitter. . A front surface of the light reflector is formed in a concave shape recessed rearward of the light reflector, and the front surface constitutes a reflection surface for reflecting light emitted by the first light emitter. The lamp device according to claim 1. 2. A light scattering lens body is arranged between the light reflector and the second light emitter, and the light emitted by the second light emitter is scattered by the light scattering lens body. The lamp device according to any one of claims 1 to 6. A first illuminant disposed forward and a second illuminant disposed rearward;
A lamp device, wherein one of the first luminous body and the second luminous body is a cold cathode tube, and the other is another luminous body different from the cold cathode tube. A gaming machine, wherein the lamp device according to any one of claims 1 to 8 is disposed at a predetermined portion on a front side. An outer frame, a middle frame rotatably attached to the outer frame and holding a game board, a front frame rotatably mounted on the front side of the middle frame, and a plate member for storing game media And with
9. A gaming machine, wherein the lamp device according to claim 1 is disposed on at least one of the gaming board, the middle frame, the front frame, and the dish member. A cabinet holding a reel device, a front frame rotatably attached to the front side of the cabinet, and a plate member for storing game media,
A gaming machine comprising the lamp device according to any one of claims 1 to 8 disposed on at least one of the reel device, the cabinet, the front frame, and the plate member.

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