JP4563732B2 - Game machine - Google Patents

Description

  The present invention relates to a gaming machine in which a ball is used as a game medium and the ball circulates in the gaming machine.

As a gaming machine using a ball as a game medium, for example, there are a pachinko and a parrot which is a slot machine for playing a game using a ball.
In conventional pachinko and parrots, a so-called back set is used to pay out the balls. And if it was pachinko, most of the front frame and the back of the game board were covered with the back set, and if it was a parrot, many parts of the back of the front door except the part of the perspective window were covered with the back set ( Patent Document 1). For this reason, with conventional pachinko machines and parrots, the front frame, game board, and the back of the front door cannot be used widely, so that, for example, a liquid crystal display or its control board is newly added to the front frame, game board, or front door. It was a big obstacle when trying to mount it.

Here, a lower guide passage for guiding the ball thrown into the gaming machine downward is provided at the lower back of the front portion, and the ball discharged from the lower end of the lower guide passage is provided at the lower rear of the front portion. A ball tank for storing, a ball feeding device for sending out the ball stored in the ball tank, an upper ball feeding passage for guiding the ball sent from the ball feeding device upward, and an upper ball feeding passage If a ball outlet for guiding the ball discharged from the upper end of the front side to the front side of the front part is provided, the back set can be eliminated, so that the rear side of the front part can be used widely and more effectively. Can be circulated, so that the burden on the ball collection mechanism on the island where the gaming machine is installed can be reduced.
JP 2003-79807 A

However, when the ball is circulated in the gaming machine, the ball gradually gets dirty.
(Claim 1 or 4 )
Therefore, the invention of claim 1 or 4, wherein, along with to be able to purify ball circulating Yu technique flight, the amount of the purification spheres and can be adjusted to suit the degree of contamination of the sphere, the sphere in the gaming machine The purpose is to provide a gaming machine that can achieve harmony between ensuring the merit of reducing the burden of the ball collection mechanism on the island where the gaming machine is installed and the disadvantage of “gradually soiling the ball” And

(Claim 2)
The invention according to claim 2 is provided with an overflow port for discharging the sphere to the outside of the sphere tank and an overflow sphere passage for guiding the sphere discharged from the overflow port when the amount of the sphere in the sphere tank exceeds a certain level. In addition, by providing an overflow regulator between the discharge port and the overflow port, the ball can be directly guided from the discharge port to the overflow port and the amount of the ball guided to the overflow port can be adjusted. It is an object of the present invention to provide a gaming machine that can achieve a balance between ensuring the above advantages and eliminating the disadvantages with a simple configuration.
(Claim 3)
According to the third aspect of the present invention, when the overflow adjuster is slid in the width direction of the discharge port, the width of the communication portion between the discharge port and the overflow adjuster is changed. It is an object of the present invention to provide a gaming machine that can achieve harmony between ensuring the above advantages and eliminating the disadvantages.

(Claim 1)
The invention according to claim 1 relates to a gaming machine 10 that uses a ball as a game medium, and is provided on the front part 30 constituting the front surface of the gaming machine 10 and the front side of the front part 30, and can store the ball. An upper plate 35, a lower guide passage 50 provided at the lower part of the back surface of the front part 30 and for guiding a ball thrown into the gaming machine 10 from the upper plate 35, and provided at the lower rear part of the front part 30. The ball tank 160 is located below the lower guide passage 50 and receives and stores the balls discharged from the lower end of the lower guide passage 50. The ball tank 160 is provided at the lower rear of the front surface 30 and is connected to the ball tank 160. And a ball-sending device 100 for delivering a ball stored in the ball tank 160, and a ball-sending device that is formed to extend upward from the ball-sending device 100 to a predetermined position between the upper end and the lower end of the front face 30. An upper pitching passage 180 for guiding the ball sent out from 100 upward , And a payout opening 34 for paying out the ball discharged from the upper end of the upper side throwing passage 180 to the upper tray 35, upper tray 35, the lower guide channel 50, spherical tanks 160, ball delivery device 100, and upper throwing passage A ball passage composed of 180 is used as a circulation passage, and a ball removal passage that branches from the middle of the circulation passage is provided. The branch passage where the ball removal passage branches from the circulation passage is guided downstream from the branch portion of the circulation passage. A ratio adjuster is provided to adjust the ratio of the amount of balls to be guided and the amount of balls to be guided to the ball passage, and at least the game machine installation island where the game machine 10 is installed is guided to the ball passage. And a purifying unit for purifying the balls collected by the ball collecting mechanism.

Here, examples of the “gaming machine 10 using a ball as a game medium” include a pachinko machine 11 and a parrot 12 which is a slot machine for playing a game using a ball.
Further, the “front surface portion 30” constitutes the front surface of the gaming machine 10. In the pachinko 11, the front frame 31 and the game board 40 constitute the front surface, and in the case of the parrot 12, the front door 32 constitutes the front surface. Therefore, the “front portion 30” means the front frame 31 and the game board 40 if the gaming machine 10 is the pachinko 11, and means the front door 32 if the gaming machine 10 is the parrot 12. .
Further, the “downward guide passage 50” is provided at the lower part of the rear surface of the front surface portion 30 and is used for guiding the ball thrown into the gaming machine 10 downward. The ball thrown into the pachinko 11 passes through the launching device 39 and the game area 42, passes through the winning hole 44 or the out port 48, and is guided to the back side of the game board 40, and the winning ball path 51 or the out ball path 52 Is guided downwards. Further, the ball thrown into the parrot 12 is guided to the back side of the front door 32 and guided downward by the throwing ball passage 53. Therefore, the “downward guide passage 50” means the winning ball passage 51 and the out ball passage 52 if the gaming machine 10 is a pachinko 11, and the throwing ball passage if the gaming machine 10 is a parrot 12. Means 53.

Further, the “ball tank 160” is provided at the lower rear of the front surface portion 30, is positioned below the lower guide passage 50, and receives and stores the sphere discharged from the lower end of the lower guide passage 50. belongs to. The ball tank 160 is provided at the lower rear of the front frame 31 if the gaming machine 10 is a pachinko 11, and is provided at the lower rear of the front door 32 if the gaming machine 10 is a parrot 12. That is, the ball tank 160 is provided at a position below the gaming machine 10.
The “ball feeding device 100” is provided at the lower rear of the front surface 30 and is connected to the ball tank 160 to send out the balls stored in the ball tank 160. That is, the ball-sending device 100 is also provided at a lower position of the gaming machine 10 like the ball tank 160. In addition, the ball sending device 100 is connected to the ball tank 160. Then, the ball sending apparatus 100 sends out the balls stored in the ball tank 160.

Further, the “upward pitching passage 180” is formed so as to extend upward from the pitching device 100 to a predetermined position between the upper end and the lower end of the front surface portion 30, and the sphere sent out from the pitching device 100 is moved upward. It is for guiding to.
Further, the “payout port 34” is provided at a predetermined position between the upper end and the lower end of the front surface portion 30, and is used for guiding the sphere discharged from the upper end of the upper ball feeding passage 180 to the front side of the front surface portion 30. Is.
That is, the payout opening 34 is provided at a predetermined position between the upper end and the lower end of the front surface portion 30, and the upper pitching passage 180 is directed upward from the pitching device 100 to the position where the payout outlet 34 is provided. It is formed to extend. Then, in the pachinko 11, when the ball enters the predetermined winning opening 44, and in the parrot 12, when the predetermined symbols are aligned in a predetermined arrangement on the effective winning line and the predetermined winning is achieved, the ball sending device 100 is activated. Then, the ball is sent out from the ball sending device 100. The ball sent out from the ball sending device 100 is guided upward by the upper ball feeding passage 180 and is paid out from the payout outlet 34.

The “circulation passage” refers to a spherical passage composed of the lower guide passage 50, the ball tank 160, the ball-sending device 100, and the upper ball-feeding passage 180.
According to the above configuration, the balls circulate in the gaming machine 10, and the balls thrown into the gaming machine 10 are thrown into the gaming machine 10 again without being returned to the gaming machine installation island. Specifically, in the case of the pachinko 11, the ball stored in the upper plate 35 is inserted from the insertion port 37 provided in the corner of the upper plate 35, and passes through the launching device 39 and the game area 42, thereby winning the winning port. 44 or the out port 48, guided to the back side of the game board 40, guided downward by the winning ball passage 51 or the out ball passage 52, and once stored in the ball tank 160, when there is a winning, etc. 100 is sent out from the ball tank 160, passes through the upper ball-feeding passage 180, is paid out from the payout outlet 34, and is stored in the upper plate 35. Further, in the case of the parrot 12, the sphere stored in the upper plate 35 is introduced from the insertion port 37 provided in the corner of the upper plate 35, guided to the back side of the front door 32, and is lowered downward by the introduction ball passage 53. When it is guided and temporarily stored in the ball tank 160, and there is a winning or the like, it is sent out from the ball tank 160 by the ball sending device 100, paid out from the payout outlet 34 through the upper ball feeding passage 180, and stored in the upper plate 35. Is done. At this time, since the ball passage composed of the lower guide passage 50, the ball tank 160, the ball feeding device 100, and the upper ball feeding passage 180 becomes a ball passage circulating in the gaming machine 10, in the present invention, these Is a circulation passage.

In addition, the “ball passage” is a passage that branches off from the middle of the circulation passage.
Further, the “branch portion” is a portion where the ball removal passage branches from the circulation passage.
Further, the ball removal passage may be branched from the middle of the upper ball feeding passage 180 constituting the circulation passage, or may be branched from a predetermined position of the ball tank 160 constituting the circulation passage. That is, for example, a branching portion may be provided in the middle of the upper pitching passage 180 constituting the circulation passage, and a ball passage may be formed so as to guide the ball from the branching portion to the outside of the gaming machine 10, For example, a branch portion may be provided at a predetermined position of the ball tank 160 constituting the circulation passage, and the ball removal passage may be formed so as to guide the ball from the branch portion to the outside of the gaming machine 10.

In addition, the sphere that has flowed from the upstream of the branching portion of the circulation passage toward the branching portion is guided to either the branching portion of the circulation passage, downstream of the branching portion of the circulation passage, or to the ball passage. .
In addition, the ball guided downstream from the branch portion of the circulation path circulates in the gaming machine 10 again, and the ball guided to the ball removal path is guided to the outside of the gaming machine 10. .
In addition, the “ratio adjuster” is provided at the branch portion, and adjusts the ratio between the amount of the sphere guided to the downstream of the branch portion of the circulation passage and the amount of the sphere guided to the ball removal passage. belongs to.
In addition, the ratio adjuster sets the ratio of the amount of spheres guided downstream from the branch portion of the circulation passage and the amount of spheres guided to the ball removal passage to 0: 100 or 20:80, for example. , 50 to 50, 80 to 20, or 100 to 0. That is, the ratio adjuster is formed so that the ratio of the amount of the sphere guided downstream from the branch portion of the circulation passage and the amount of the sphere guided to the ball removal passage is not fixed but can be appropriately changed.

In addition, the ratio adjuster, for example, changes the width and diameter of the communication portion between the circulation passage and the ball passage to guide the amount of the ball guided downstream from the branch portion of the circulation passage and the ball passage. The ratio with the amount of spheres to be adjusted can be adjusted.
The “gaming machine installation island” is a structure for installing the gaming machines 10 side by side, and is installed in a game hall such as a pachinko hall.
In addition, on the gaming machine installation island, at least a “ball collection mechanism” for collecting the balls guided to the ball removal passage and a “purification unit” for purifying the balls collected by the ball collection mechanism. Provided. In addition, it is sufficient that the gaming machine installation island has at least a ball collection mechanism and a purification unit. Therefore, in addition to the ball collection mechanism and the purification unit, for example, the balls purified by the purification unit are stored. For example, a storage unit for supplying a ball to the gaming machine 10 with a ball stored in the storage unit may be provided.

The purifying unit may purify the spheres collected by the sphere collecting mechanism, for example, by washing with a cleaning liquid, or may be purified by polishing, or after polishing. You may make it purify | clean by washing with a washing | cleaning liquid.
As described above, according to the present invention, since the ball is dispensed at the time of winning or the like by the ball tank 160 and the ball feeding device 100 provided at the lower rear of the front portion 30, the back set can be eliminated. The back surface of the front part 30 can be used widely and effectively. As a result, for example, a liquid crystal display or its control board 90 can be newly mounted on the front frame 31, the game board 40, or the front door 32. .

Further, according to the present invention, the ball circulates in the gaming machine 10, and the ball thrown into the gaming machine 10 is thrown into the gaming machine 10 again without being returned to the gaming machine setting island. The burden of the ball collection mechanism and ball supply mechanism can be reduced.
Furthermore, according to the present invention, the balls circulating in the gaming machine 10 can be removed from the circulation path and purified by the purification unit of the gaming machine installation island, and the amount of the balls purified by the purification unit It can be adjusted with a ratio adjuster. For example, if the ball is not very dirty, the ratio of the amount of the ball that continues to circulate in the gaming machine 10 and the amount of the ball that is removed from the circulation passage and purified by the purification unit is 20:80, and the ball on the island where the gaming machine is installed Priority can be given to reducing the burden on the recovery mechanism. On the other hand, if the ball is very dirty, the ratio of the amount of the ball that continues to circulate in the gaming machine 10 and the amount of the ball that is removed from the circulation passage and purified by the purification unit is set to 80:20, and priority is given to the purification of the ball. Can do.

As described above, according to the present invention, it is possible to secure the merit of “reducing the burden of the ball collecting mechanism on the island where the gaming machine is installed” generated by circulating the ball in the gaming machine 10 and “the ball gradually gets dirty”. Harmony with elimination of disadvantages can be achieved.
(Claim 2)
The invention according to claim 2 limits the invention according to claim 1, wherein the lower opening of the lower guide passage 50 is used as a discharge port 54, and the amount of spheres in the sphere tank 160 exceeds a certain level. Then, an overflow port 162 for discharging the sphere out of the sphere tank 160 and an overflow ball passage 164 for guiding the sphere discharged from the overflow port 162 are provided, and between the discharge port 54 and the overflow port 162, An overflow regulator 210 that can guide the sphere discharged from the discharge port 54 to the overflow port 162 without being stored in the sphere tank 160 is provided. The ratio of the ball guided to the overflow port 162 without being stored in the ball tank 160 can be adjusted, and the overflow ball passage 164 is used as a ball discharge passage, and the overflow adjuster 210 is adjusted in proportion. And characterized in that a vessel.

Here, the “exhaust port 54” refers to the lower opening of the lower guide passage 50.
Further, the “overflow port 162” is for discharging the sphere out of the sphere tank 160 when the amount of the sphere in the sphere tank 160 exceeds a certain level.
That is, when the amount of spheres in the sphere tank 160 exceeds a certain level, the spheres are discharged out of the sphere tank 160 from the overflow port 162 before the spheres overflow from the upper edge of the sphere tank 160.
The “overflow ball passage 164” is for guiding the sphere discharged from the overflow port 162.
Further, the “overflow adjuster 210” is provided between the discharge port 54 and the overflow port 162, and the sphere discharged from the discharge port 54 is not stored in the ball tank 160 to the overflow port 162. It is inducible.

The overflow adjuster 210 is formed so that the ratio between the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 can be adjusted.
That is, a part of the sphere discharged from the discharge port 54 is directly guided to the overflow port 162 by the overflow regulator 210 without being stored in the sphere tank 160 and discharged out of the sphere tank 160, and the rest is It is guided into the sphere tank 160 and stored in the sphere tank 160.
Further, the adjustment of the ratio between the amount of the sphere stored in the sphere tank 160 and the amount of the sphere guided to the overflow port 162 without being stored in the sphere tank 160 is, for example, the mounting position or width of the overflow adjuster 210. It can be realized by changing the width of the communication portion between the discharge port 54 and the overflow regulator 210 and the width of the communication portion between the discharge port 54 and the ball tank 160 by changing the diameter.

In the present invention, the overflow ball passage 164 is a ball passage and the overflow adjuster 210 is a ratio adjuster.
As described above, according to the present invention, it is possible to achieve harmony between ensuring the above-described merits and eliminating the disadvantages with a relatively simple configuration.
(Claim 3)
The invention according to claim 3 limits the invention according to claim 2, and the overflow regulator 210 is formed in a bowl shape with a predetermined width and is slidable in the width direction of the discharge port 54. When the overflow regulator 210 is slid in the width direction of the discharge port 54, the width of the communication portion between the discharge port 54 and the overflow regulator 210 and the width of the communication portion between the discharge port 54 and the ball tank 160 change. It is characterized by doing.

Here, the overflow adjuster 210 is formed in a bowl shape having a predetermined width.
The overflow adjuster 210 is slidable in the width direction of the discharge port 54.
When the overflow regulator 210 is slid in the width direction of the discharge port 54, the width of the communication portion between the discharge port 54 and the overflow regulator 210 and the width of the communication portion between the discharge port 54 and the ball tank 160 change. To do.
Specifically, when the overflow adjuster 210 is slid in the width direction of the discharge port 54 and the width of the communication portion between the discharge port 54 and the overflow adjuster 210 is narrowed, the discharge port 54 and the ball tank 160 are correspondingly reduced. If the width of the communication portion between the discharge port 54 and the overflow regulator 210 is increased, the width of the communication portion between the discharge port 54 and the ball tank 160 is reduced accordingly. Like that. Then, the ratio between the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 can be adjusted.

As described above, according to the present invention, it is possible to achieve harmony between ensuring the above-described merits and eliminating the disadvantages with a relatively simple configuration.
(Claim 4)
The invention according to claim 4 relates to a gaming machine 10 that uses a ball as a game medium, and is provided on the front surface portion 30 constituting the front surface of the gaming machine 10 and the front surface of the front surface portion 30, and can store the ball. An upper plate 35, a game area in which a ball stored in the upper plate 35 is launched through a launching device, a lower guide passage 50 for guiding the ball launched into the game area downward, and a front portion 30 is provided at the lower rear of the lower guide passage 50 and is located below the lower guide passage 50 for receiving and storing the balls discharged from the lower end of the lower guide passage 50, and provided at the lower rear of the front portion 30. Further, the ball feeding device 100 connected to the ball tank 160 and for sending out the balls stored in the ball tank 160, and extends upward from the ball feeding device 100 to a predetermined position between the upper end and the lower end of the front surface portion 30. The ball formed in this way and sent out from the ball feeder 100 is invited upward. And an upper outlet 35 for paying out the balls discharged from the upper end of the upper outlet passage 180 to the upper plate 35. The upper plate 35, the game area, the lower guide passage 50, the ball A ball path composed of the tank 160, the ball-sending device 100, and the upper ball-sending path 180 is used as a circulation path, and a ball passage that branches off from the circulation path excluding the game area is provided in the middle of the circulation path. In the branching portion where the ball removal passage branches from, a ratio adjuster for adjusting the ratio of the amount of the sphere guided to the downstream of the branching portion of the circulation passage and the amount of the sphere guided to the ball removal passage is provided, In the gaming machine installation island where the gaming machine 10 is installed, at least a ball collection mechanism for collecting the sphere guided to the ball passage and a purification unit for purifying the sphere collected by the ball collection mechanism It is characterized by comprising.

(Claim 1 or 4 )
According to the invention described in claim 1 or 4, the balls circulating in the gaming machine can be purified, and the amount of the balls to be purified can be adjusted according to the degree of dirt on the balls, so that the balls are circulated in the gaming machine. It is possible to provide a gaming machine that can achieve harmony between securing the merit of “reducing the burden on the ball collecting mechanism on the island where the gaming machine is installed” and eliminating the demerit of “the ball gradually gets dirty”.
(Claim 2)
According to the second aspect of the present invention, the ball discharged from the discharge port can be guided to the overflow port between the discharge port and the overflow port without being stored in the ball tank, and is guided to the overflow port. Since an overflow adjuster capable of adjusting the amount of balls is provided, a gaming machine can be provided that can achieve a balance between ensuring the above advantages and eliminating the disadvantages with a relatively simple configuration.

(Claim 3)
According to the third aspect of the present invention, when the overflow adjuster is slid in the width direction of the discharge port, the width of the communication portion between the discharge port and the overflow adjuster is changed. Thus, it is possible to provide a gaming machine that can achieve harmony between ensuring the above-mentioned merits and eliminating the disadvantages.

(First embodiment)
1 to 16 show a first embodiment of the present invention.
1 is a front perspective view of a pachinko machine 11 as a gaming machine 10, FIG. 2 is a perspective view showing a state in which a front frame 31 as a front part 30 is opened, and FIG. 3 is an external view of a ball tank 160 and a ball feeder 100. 4 is a side sectional view of the ball tank 160 and the ball feeding device 100, FIG. 5 is an exploded perspective view of the ball tank 160 and the ball feeding device 100, and FIG. 6 is an exploded perspective view of the ball tank 160, FIG. 9 is a plan view of the ball tank 160, FIG. 10 is a top view of the base 110, FIG. 11 is a top view of the rotating disk 120, FIG. 12 is a bottom view of the rotating disk 120, and FIG. 14 is a side sectional view of the base 110, the rotating disk 120, and the bucket 170, FIG. 15A is a top view of the main part of the rotating disk 120, and FIG. 15B is FIG. 15A. FIG. 16 is a sectional side view of the payout detection mechanism 190.

(Machine 10 / Pachinko 11)
As shown in FIG. 1, the gaming machine 10 according to the present embodiment is a pachinko 11.
As shown in FIGS. 1 and 2, the pachinko machine 11 includes a back frame 20 fixed to a game machine installation island of a game arcade, a front frame 31 attached to the back frame 20 through a hinge 25 so as to be openable and closable, And a game board 40 to which the frame 31 is detachably attached. The front frame 31 and the game board 40 constitute the front surface of the pachinko 11. That is, the front frame 31 and the game board 40 form a front surface portion 30 that constitutes the front surface of the pachinko 11 as the gaming machine 10.
(Back frame 20)
The back frame 20 is fixed to the gaming machine installation island.

As shown in FIG.1 and FIG.2, the back frame 20 is comprised from the square frame type wooden frame.
In addition, the back frame 20 is fixed to the gaming machine installation island by, for example, driving with nails.
Further, as shown in FIG. 2, a supply ball tray 230 is provided on the upper inner surface of the back frame 20 to receive balls supplied from the ball supply mechanism on the gaming machine installation island.
(Front frame 31)
The front frame 31 is attached to the back frame 20 through a hinge 25 so as to be opened and closed.
As shown in FIG. 1, a window 33 through which the game board 40 faces is provided at the center of the front frame 31.
In addition, as shown in FIG. 1, at a position corresponding to the lower side of the game board 40 on the front surface of the front frame 31, a payout outlet 34 from which a ball is paid out at the time of winning a prize, and a ball paid out from the payout outlet 34 are An upper plate 35 for receiving and storing is provided. Further, the upper plate 35 is provided at a position corresponding to the lower side of the payout port 34 on the front surface of the front frame 31. Further, the discharge outlet 34 and the upper plate 35 are provided at predetermined positions between the upper end and the lower end of the front frame 31 as the front surface portion 30.

Further, the payout opening 34 penetrates the front frame 31 and is formed so as to guide a ball discharged from the upper end of an upper ball feeding passage 180 described later to the front side of the front frame 31 as the front surface portion 30.
The upper plate 35 is formed so as to protrude forward from the front surface of the front frame 31.
In addition, the bottom surface of the upper plate 35 is smoothly inclined so that the height gradually decreases toward the right back direction, and the ball is inserted into the pachinko 11 at the right back side of the upper plate 35. An input port 37 is provided. The sphere stored in the upper plate 35 is introduced into the pachinko 11 from the insertion port 37 and supplied to the launching device 39.
In addition, a lower plate 36 for storing balls that cannot be stored in the upper plate 35 is provided at a position corresponding to the lower side of the upper plate 35 on the front surface of the front frame 31, and to the right of the lower plate 36. Is provided with an operation handle 38 for operating the launching device 39.

(Game board 40)
As shown in FIG. 1, the game board 40 is composed of a veneer that is formed in a substantially square shape. An arc-shaped guide rail 41 is provided on the front surface of the game board 40, and the inside of the guide rail 41 is a game area. In addition, a symbol display device 43 is provided in the center of the game area 42, and a plurality of winning holes 44 are provided around the symbol display device 43 in the game region 42. Further, as the winning award 44, a general winning award 45 relating to the payout of a predetermined number of balls, a starting winning award 46 relating to the operation of the symbol display device 43, and a combination of specific symbols are displayed on the symbol display device 43. There is a big prize opening 47 that operates. In addition, an out port 48 for receiving a ball that has not entered the winning port 44 is provided at the lowermost center of the game area 42.

In addition, a through-hole penetrating the game board 40 is provided at a position where the winning opening 44 and the out-port 48 are provided. The balls that have entered the winning opening 44 and the out opening 48 are guided to the back side of the game board 40 through the through holes.
(Downward guide passage 50, winning ball passage 51, out ball passage 52)
On the back side of the gaming board 40, a winning ball passage 51 for guiding the ball that has entered the winning slot 44 and led to the back side of the gaming board 40 to the lower side, and enters the out port 48 and led to the back side of the gaming board 40. An out-ball passage 52 is provided for guiding the drawn ball downward. Further, the winning ball passage 51 and the out ball passage 52 merge in the middle and reach the lower part of the back surface of the front frame 31. A winning detection sensor for detecting passage of a ball is provided in the middle of the winning ball passage 51. The winning ball passage 51 and the out ball passage 52 are formed by a collective cover fixed to the back of the game board 40 on the back side of the game board 40, and on the back side of the front frame 31, It is formed by a passage forming member fixed to the lower part of the back surface. That is, the collective cover is a member that forms the winning ball passage 51 and the out ball passage 52 on the back side of the game board 40, and the passage forming member is the winning ball passage 51 and the out ball passage on the back side of the front frame 31. 52. The collective cover is fixed to the back surface of the game board 40 with screws, and the passage forming member is fixed to the back surface of the front frame 31 with screws.

As described above, in the present embodiment, the balls stored in the upper plate 35 are inserted into the pachinko 11 from the insertion port 37, and the winning ball passage 51 and the out ball are passed through the launching device 39 and the game area 42. It is guided to the passage 52.
Further, in the present embodiment, the winning ball passage 51 and the out ball passage 52 are provided in the lower part of the back surface of the front frame 31 and the game board 40, and guide the ball thrown into the pachinko 11 downward. ing. In other words, the winning ball passage 51 and the out ball passage 52 serve as a lower guide passage 50 that is provided in the lower part of the back surface of the front portion 30 and guides a ball thrown into the gaming machine 10 downward.
In addition, the lower opening of the lower guide passage 50 is a discharge port 54.

(Launching device 39)
As shown in FIG. 2, a launching device 39 for launching a sphere is provided at a position below the back surface of the front frame 31 and corresponding to the back side of the operation handle 38. Then, when the operation handle 38 is turned clockwise by a predetermined angle, the launching device 39 is activated and the ball is launched toward the game area 42.
(Control board 90)
As shown in FIG. 2, a control board 90 for controlling the game is fixed to the back surface of the game board 40. The control board 90 includes a main board 91 for controlling the game, a sound board 92 for generating sound effects in accordance with the game on the main board 91, and a design that matches the game on the main board 91. Is displayed on the symbol display device 43.

When a ball enters the start winning opening 46, the main board 91 performs a lottery using random numbers. Then, the main board 91 determines which symbol combination is to be displayed on the symbol display device 43 by this lottery, and causes the display control board 93 to display the symbol combination on the symbol display device 43. Command, determine which sound effect is to be generated, and instruct the sound board 92 to generate the sound effect, and turn on / off the light emitter for decoration or production Or the blinking is controlled. Further, when a predetermined symbol combination is displayed on the symbol display device 43, the main board 91 operates the special winning opening 47 for a predetermined time.
The main board 91, the sound board 92, and the display control board 93 are fixed to the back surface of the collective cover with screws. That is, the main board 91, the sound board 92, and the display control board 93 are indirectly fixed to the back surface of the game board 40 through the collective cover.

(Ball tank 160)
As shown in FIG. 2, the ball tank 160 is provided at the lower rear of the front frame 31 as the front portion 30, and is positioned below the winning ball passage 51 and the out ball passage 52 as the lower guide passage 50, In addition, the balls discharged from the lower ends of the winning ball passage 51 and the out ball passage 52 as the lower guide passage 50 are received and stored.
As shown in FIGS. 3 to 6, the ball tank 160 is formed in a box shape whose upper side is open. A ball dropping hole 161 penetrating the bottom surface of the sphere tank 160 is provided at the center of the bottom surface of the sphere tank 160.

Further, as shown in FIGS. 3 to 6, the ball tank 160 includes an overflow port 162 for discharging the ball to the outside of the ball tank 160 and an overflow port 162 when the amount of the balls in the ball tank 160 exceeds a certain level. An overflow ball receiving portion 163 for receiving the discharged ball and an overflow ball passage 164 for guiding the ball discharged from the overflow port 162 and received by the overflow ball receiving portion 163 are provided.
As shown in FIGS. 4 to 6, the overflow port 162 opens near the upper end of the side surface of the ball tank 160. When the amount of spheres in the sphere tank 160 exceeds a certain value, the spheres are discharged from the overflow port 162 to the outside of the sphere tank 160 before the spheres overflow from the upper edge of the sphere tank 160. .

Further, as shown in FIGS. 5 to 9, the overflow ball receiving portion 163 protrudes from the position where the overflow port 162 is provided to the outside of the ball tank 160, and the upper and overflow port 162 directions are open. It is formed into a box shape.
Further, as shown in FIGS. 4 to 6, the overflow ball passage 164 protrudes downward from the lower surface of the overflow ball receiving portion 163, and is formed in a pipe shape.
As shown in FIGS. 2 to 6, the ball tank 160 includes a tank cover 200 for closing the upper opening.
Further, as shown in FIGS. 3 to 6, the tank cover 200 includes an upper convex portion 201 projecting upward from the upper surface thereof, a receiving port 202 opened at one end of the upper convex portion 201, An overflow closing portion 203 protruding from the other end of the upper convex portion 201 toward the outside of the tank cover 200, and two parallel long screw holes 204 extending in a direction perpendicular to the longitudinal direction of the upper convex portion 201; And a cylindrical replenishing port 205 protruding obliquely upward from the upper surface of the tank cover 200.

As shown in FIGS. 3 to 6, the upper convex portion 201 protrudes greatly upward from the upper surface of the tank cover 200 on one side, and the height from the upper surface of the tank cover 200 from one side to the other side. Is smoothly inclined so as to gradually become lower, and the other side is substantially the same height as the upper surface of the tank cover 200.
The receiving port 202 is for receiving the sphere discharged from the discharge port 54 of the lower guide passage 50. As shown in FIGS. 3 to 6, the receiving port 202 is formed at one end of the upper convex portion 201. It is open. As shown in FIGS. 3 to 9, the receiving port 202 is provided on the side opposite to the overflow port 162 when viewed from the center of the ball tank 160. That is, the receiving port 202 is provided on one side of the ball tank 160 and the overflow port 162 is provided on the other side. Further, as shown in FIGS. 3 to 6, the receiving port 202 is provided at a position higher than the overflow port 162. Further, the width of the receiving port 202 is substantially equal to the width of the discharge port 54, and the height of the receiving port 202 is approximately equal to the height of the discharge port 54. That is, the size of the opening of the receiving port 202 is substantially equal to the size of the opening of the discharge port 54. When the front frame 31 as the front surface portion 30 is closed, the receiving port 202 and the discharge port 54 face each other. Further, the width of the receiving port 202 is substantially equal to the width of the overflow port 162.

The overflow closing portion 203 is for closing the upper opening of the overflow ball receiving portion 163, and as shown in FIGS. 3 to 6, the upper protruding portion 201 is opposite to the receiving port 202. Projecting from the end toward the outside of the tank cover 200.
Further, the long screw hole 204 is for slidably mounting the overflow adjuster 210, and as shown in FIGS. 3 to 9, in a direction perpendicular to the longitudinal direction of the upper convex portion 201, that is, The outlet 54 and the receiving port 202 are formed so as to extend in the width direction. Further, the length of each long screw hole 204 is substantially equal to the width of the discharge port 54 and the receiving port 202, and the width of each long screw hole 204 is slightly larger than the diameter of the mounting screw 220.

  The replenishing port 205 is for replenishing a ball to the ball tank 160, and is formed in a cylindrical shape as shown in FIGS. 2 to 6, and from the vicinity of the corner on the upper surface of the tank cover 200. It protrudes diagonally upward. As shown in FIGS. 2, 4, and 6, one end of a pipe-shaped supply ball passage 231 is connected to the supply port 205. The other end of the supply ball passage 231 is connected to the supply ball tray 230. That is, the supply port 205 is connected to the supply ball tray 230 via the supply ball passage 231. The balls supplied to the supply ball tray 230 from the ball supply mechanism on the gaming machine installation island are stored in the ball tank 160 via the supply ball passage 231 and the supply port 205.

Also, as shown in FIGS. 3 to 9, an overflow adjuster 210 is attached to the lower surface of the tank cover 200 so as to be positioned between the discharge port 54 and the overflow port 162.
Further, as shown in FIGS. 3 to 9, the overflow regulator 210 is formed in a bowl shape and smoothly inclines so that the height gradually decreases from the discharge port 54 side to the overflow port 162 side. A flat inclined passage portion 211, a flat left guide portion 212 protruding upward from the left end portion of the inclined passage portion 211, and an upward protruding portion from the right end portion of the inclined passage portion 211. It has a flat plate-like right guide portion 213 and a flat plate-like attachment portion 214 that protrudes horizontally from the upper end of the right guide portion 213 toward the side opposite to the inclined passage portion 211.

Further, as shown in FIGS. 4 to 9, the inclined passage portion 211 is formed with an equal width from the end on the discharge port 54 side to the end on the overflow port 162 side, and the width of the inclined passage portion 211 is Is substantially equal to the width of the discharge port 54, the receiving port 202, and the overflow port 162, and the length of the inclined passage portion 211 is approximately equal to the distance from the discharge port 54 and the receiving port 202 to the overflow port 162.
Further, as shown in FIGS. 5 to 9, the mounting portion 214 is provided with two circular screw holes 215. The interval between the two circular screw holes 215 is approximately equal to the interval between the two long screw holes 204, and the diameter of each circular screw hole 215 is slightly larger than the diameter of the mounting screw 220.
Then, as shown in FIGS. 3 to 6, the overflow adjuster 210 is positioned below the upper convex portion 201 of the tank cover 200, and the position of each circular screw hole 215 and the position of each long screw hole 204 are matched, When an attachment nut 221 is screwed into the front end side of each of these via an attachment screw 220, an overflow adjuster 210 is attached to the lower surface of the tank cover 200. When the upper opening of the ball tank 160 is closed with the tank cover 200, the overflow adjuster 210 is positioned between the discharge port 54 and the overflow port 162.

The long screw hole 204 is formed so as to extend in the width direction of the discharge port 54, and the overflow adjuster 210 is slidable in the longitudinal direction of the long screw hole 204. Therefore, the overflow adjuster 210 is slidable in the width direction of the discharge port 54. Specifically, when each mounting nut 221 is loosened and each mounting screw 220 is slid in the longitudinal direction of the long screw hole 204, the overflow adjuster 210 can be slid in the width direction of the discharge port.
7 to 9, when the overflow regulator 210 is slid in the width direction of the discharge port 54, the width W of the communication portion between the discharge port 54 and the overflow regulator 210, and the discharge port 54, The width of the communication part with the ball tank 160 changes. Specifically, by sliding the overflow regulator 210 in the width direction of the discharge port 54, the width W of the communication portion between the discharge port 54 and the overflow regulator 210 is increased, and accordingly the discharge port 54 and the ball If the width W of the communication part between the discharge port 54 and the overflow regulator 210 is reduced, the width of the communication part between the discharge port 54 and the ball tank 160 is reduced accordingly. Becomes wider.

As shown in FIG. 7, when the overflow regulator 210 is moved to one side, the width W of the communication portion between the discharge port 54 and the overflow regulator 210 becomes equal to the width of the discharge port 54 and becomes the maximum. At the same time, the width of the communication portion between the discharge port 54 and the ball tank 160 becomes zero. At this time, the ratio between the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 is 100: 0.
As shown in FIG. 8, when the overflow adjuster 210 is positioned in the middle of the sliding range, the width W of the communication portion between the discharge port 54 and the overflow adjuster 210 becomes half of the width of the discharge port 54. At the same time, the width of the communication portion between the discharge port 54 and the ball tank 160 is half the width of the discharge port 54. That is, the width W of the communication portion between the discharge port 54 and the overflow adjuster 210 is equal to the width of the communication portion between the discharge port 54 and the ball tank 160. At this time, the ratio of the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 is 50:50.

Further, as shown in FIG. 9, when the overflow adjuster 210 is moved to the other side, the width W of the communication portion between the discharge port 54 and the overflow adjuster 210 becomes zero, and the connection between the discharge port 54 and the ball tank 160 is reduced. The width of the communication part becomes equal to the width of the discharge port 54 and becomes the maximum. At this time, the ratio between the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 is 0: 100.
Thus, when the overflow adjuster 210 is slid in the width direction of the discharge port 54, the width W of the communication portion between the discharge port 54 and the overflow adjuster 210, and the communication portion between the discharge port 54 and the ball tank 160 As a result, the ratio of the amount of spheres stored in the sphere tank 160 and the amount of spheres guided to the overflow port 162 without being stored in the sphere tank 160 can be adjusted.

4 and 6, the ball tank 160 includes a first ball amount sensor 165 for detecting that the amount of the ball in the ball tank 160 is below a certain level, A second sphere amount sensor 166 is provided for detecting that the amount of spheres is greater than a certain value. The first ball quantity sensor 165 is provided at the lower part of the ball tank 160, and the second ball quantity sensor 166 is provided at the upper part of the ball tank 160.
(Pitching device 100)
As shown in FIG. 2, the ball-sending device 100 is provided behind the front frame 31 as the front surface portion 30, is connected to the ball tank 160, and sends out a ball stored in the ball tank 160. Is for.

As shown in FIGS. 3 and 5, the pitching device 100 includes a base 110, a frame 140 that is fixed to the lower surface of the base 110 and supports the base 110, and a rotating disk 120 that rotates on the upper surface of the base 110. A motor 150 for rotating the rotating disk 120 and a cylindrical bucket 170 projecting upward from the upper surface of the base 110 so as to surround the rotating disk 120 are provided.
Further, as shown in FIG. 3, a ball tank 160 is connected to the upper end of the bucket 170. In this way, the ball tank 160 and the ball feeder 100 are connected in series. A ball dropping hole 161 provided in the center of the bottom surface of the ball tank 160 allows the ball tank 160 and the bucket 170 to communicate with each other. The sphere stored in the sphere tank 160 is supplied to the rotating disk 120 via the sphere dropping hole 161 and the bucket 170.

As shown in FIG. 2, the frame 140 is fixed to the upper surface of the lower portion of the back frame 20. In this way, the ball tank 160 and the ball feeding device 100 are provided behind the lower part of the front frame 31 as the front surface portion 30.
Hereinafter, the pitching device 100 will be described in more detail.
(Base 110)
As shown in FIGS. 5 and 10, the base 110 is formed in a substantially square shape.
Further, the base 110 is arranged horizontally.
Further, in the center of the upper surface of the base 110, a circular recess 111 large enough to fit the rotating disk 120, and a circular shape extending from the edge of the circular recess 111 in the tangential direction of the circular recess 111 and extending vertically to one end of the base 110 A discharge passage 112 having the same depth as the recess 111 is provided.

Further, the distal end of the discharge path 112 is opened at one end of the base 110, and serves as a ball outlet 113 from which a ball is discharged. In addition, at the four corners of the base 110, screw holes penetrating the base 110 vertically are provided. A shaft hole 114 is provided in the center of the circular recess 111 so as to penetrate the base 110 up and down. In the present embodiment, the rotation of the drive shaft 151 of the motor 150 is transmitted to the rotary disk 120 via the shaft 155. The shaft hole 114 is for passing the shaft 155. In addition, a guide groove 115 having a semicircular cross section is provided on the bottom surface of the circular recess 111 along the circumferential direction of the circular recess 111.
The guide groove 115 is formed in a C shape along the rotation locus of the through hole 124 of the rotary disk 120. That is, a guide groove 115 formed in a C shape is provided on the upper surface of the base 110 along the rotation locus of the through hole 124 of the rotary disk 120. In the present embodiment, the rotating disk 120 rotates counterclockwise (counterclockwise), and the guide groove 115 extends from the 1 o'clock position of the timepiece as shown in FIG. , Counterclockwise, it is formed so as to pass through the position of 12 o'clock, 11 o'clock, 10 o'clock, 9 o'clock, 8 o'clock, 7 o'clock, 6 o'clock, 5 o'clock, 4 o'clock to 3 o'clock .

Here, the rear end (position at 1 o'clock) in the rotation direction of the rotary disk 120 in the guide groove 115 is a guide groove rear end 117, and the guide groove 115 has a front end in the rotation direction of the rotary disk 120. The end (position at 3 o'clock) is the guide groove front end 116. A bank portion 119 is provided between the guide groove front end 116 and the guide groove rear end 117.
In addition, on the bottom surface of the discharge passage 112, a lead-out groove 118 having a semicircular cross section formed in a straight line along the longitudinal direction of the discharge passage 112 is provided. Further, the lead-out groove 118 extends from the guide groove front end 116 toward the tangential direction of the rotation locus of the through hole 124 of the rotary disk 120. That is, on the upper surface of the base 110, the guide groove 115 is provided with a lead-out groove 118 extending from the front end in the rotation direction of the rotary disk 120 toward the tangential direction of the rotation locus of the through hole 124 of the rotary disk 120. ing. Further, the guide groove 115 and the outlet groove 118 are smoothly connected.

The depths of the guide groove 115 and the lead-out groove 118 are slightly shallower than the radius of the sphere. That is, the depth of the guide groove 115 and the lead-out groove 118 is slightly smaller than the radius of the sphere.
The widths of the guide groove 115 and the lead-out groove 118 are slightly narrower than the diameter of the sphere. That is, the width of the guide groove 115 and the lead-out groove 118 is slightly smaller than the diameter of the sphere.
As a result, the guide groove 115 and the lead-out groove 118 are fitted with portions below the center of the sphere.
(Frame 140)
The frame 140 is for supporting the base 110.

As shown in FIGS. 3 and 5, the frame 140 is formed in a square plate shape and is formed so as to support the base 110 horizontally. A support hole 141 that penetrates the frame 140 vertically is provided in the center of the frame 140. The support hole 141 is inserted in the vicinity of the tip of the shaft 155 and is for supporting the shaft 155. Further, four screw holes penetrating the frame 140 up and down are provided at predetermined positions around the support hole 141. These screw holes are for fixing the frame 140, the base 110, and the bucket 170.
In the present embodiment, the base 110 is placed on the upper surface of the frame 140, and the rotating disk 120 is placed on the upper surface of the base 110, and the bucket 170 is placed so as to surround the rotating disk 120. When the frame 140, the base 110, and the bucket 170 are overlapped, the screw holes provided in the frame 140, the base 110, and the bucket 170 are aligned in a straight line. Then, the screws are fastened through the screw holes arranged in a straight line vertically. In addition, screw holes penetrating the frame 140 up and down are provided at four corners of the frame 140, respectively. This screw hole is for fixing the ball-sending device 100 at the installation location.

(Rotating disk 120)
As shown in FIGS. 11 to 13, the rotary disk 120 is formed in a substantially disk shape.
In the present embodiment, since the base 110 is disposed horizontally, the rotating disk 120 is also disposed horizontally.
In addition, a bearing portion 121 to which the shaft 155 is fixed is provided at the center of the rotating disk 120. The bearing portion 121 includes a bearing hole 122 that passes through the rotary disk 120 in the vertical direction and a slit 123 that penetrates the bearing hole 122 in the lateral direction. Further, the inner diameter of the bearing hole 122 is substantially equal to the diameter of the shaft 155. Further, pins 156 orthogonal to the shaft 155 protrude on both sides near the tip of the shaft 155. Then, when the shaft 155 is passed through the bearing hole 122 and the pin 156 is fitted into the slit 123, the torque of the shaft 155 is transmitted to the rotating disk 120.

In addition, the rotary disk 120 is provided with six through holes 124 penetrating from the upper surface to the lower surface at equal intervals from the center thereof. That is, the six through holes 124 are provided at equal intervals along the circumferential direction of the rotating disk 120. Further, the inner diameter of each through hole 124 is slightly larger than the diameter of the sphere. Thereby, each through-hole 124 can pass a sphere.
Further, as shown in FIGS. 14 and 15, the vertical thickness of the rotating disk 120 is about 1.5 times the diameter of the sphere, and the vertical length of each through hole 124 is also a sphere. About 1.5 times the diameter. Thereby, each through-hole 124 can store two balls in the vertical direction. In addition, a portion above the center of the sphere accommodated at the top of each through-hole 124 projects upward from the opening above the through-hole 124.

Further, the distance from the lower surface of the rotating disk 120 to the bottom of the guide groove 115 is slightly larger than the diameter of the sphere.
In addition, on the lower surface of the rotating disk 120, ball pressing portions 128 that protrude toward the bottom of the guide groove 115 are provided at positions corresponding to the rear in the rotating direction of the rotating disk 120 when viewed from the respective through holes 124. It has been. In addition, the sphere pressing unit 128 is used to move the sphere that has entered the guide groove 115 from the rear along with the rotation of the rotary disk 120 and move along the guide groove 115. Further, the same number of ball pressing portions 128 as the through holes 124, that is, six, are provided. Further, each ball pressing portion 128 is provided at the rear in the rotation direction of the rotary disk 120 when viewed from the corresponding through hole 124.

  Further, as shown in FIGS. 11 and 12, in the present embodiment, six through holes 124 from the first to the sixth are provided. A first ball pressing portion 128 (128-1) is provided corresponding to the first through hole 124 (124-1), and a second corresponding to the second through hole 124 (124-2). The ball pressing portion 128 (128-2) is provided, and the third ball pressing portion 128 (128-3) is provided corresponding to the third through hole 124 (124-3), and the fourth through hole is provided. A fourth ball pressing portion 128 (128-4) is provided corresponding to 124 (124-4), and a fifth ball pressing portion 128 (128) corresponding to the fifth through hole 124 (124-5) is provided. -5), and a sixth ball pressing portion 128 (128-6) is provided corresponding to the sixth through hole 124 (124-6). That is, the through hole 124 and the ball pressing portion 128 are in a one-to-one correspondence.

Further, as shown in FIGS. 11 and 12, each ball pressing portion 128 is smoothly curved so as to bend backward in the rotation direction of the rotary disk 120 as the distance from the center of the rotary disk 120 increases. Further, the distance from the lower end of each sphere pressing portion 128 to the bottom of the guide groove 115 is smaller than the diameter of each sphere. That is, the lower end of each sphere pressing portion 128 is positioned below the center of the sphere fitted in the guide groove 115 (on the bottom side of the guide groove 115). Further, the thickness of each ball pressing portion 128 in the vertical direction is larger than the radius of the sphere.
Here, the front surface in the rotation direction of the rotating disk 120 in each ball pressing portion 128 is referred to as a ball pressing surface 129. Further, the rear edge portion of each through-hole 124 in the rotation direction of the rotary disk 120 is defined as a rear edge portion 125. As shown in FIGS. 11, 12, and 15, in the present embodiment, the ball pressing surfaces 129 of the ball pressing portions 128 are respectively connected to the rotating disk 120 from the rear edge portions 125 of the corresponding through holes 124. It is formed at a position shifted by a predetermined distance behind the rotation direction.

  Specifically, the ball pressing surface 129 of the first ball pressing portion 128 (128-1) is rearward in the rotational direction of the rotary disk 120 from the rear edge portion 125 of the first through hole 124 (124-1). In addition, it is formed at a position shifted by a predetermined distance. The same applies to the second to sixth ball pressing portions 128 and the through holes 124. Then, as shown in FIGS. 11, 12, and 15, the ball pressing surfaces 129 of the respective ball pressing portions 128 are respectively rearward from the rear edge portions 125 of the corresponding through holes 124 in the rotation direction of the rotary disk 120. By shifting, the ball retaining portion 126 is formed below the lower surface of the rotating disk 120 and in front of the ball pressing surface 129 of each ball pressing portion 128. Then, the sphere that has passed through the through-hole 124 and has entered the guide groove 115 is retained in the sphere retaining portion 126.

Further, between the adjacent ball pressing portions 128, a passage 130 is provided for passing a ball.
As shown in FIG. 13, a cylindrical center protrusion 131 that protrudes upward from the center portion is provided on the upper surface of the rotating disk 120.
As shown in FIG. 14, the distance between the outer peripheral surface of the central protrusion 131 and the inner peripheral surface of the bucket 170 is slightly larger than the diameter of the sphere.
Further, as shown in FIG. 13, at the position corresponding to the front in the rotation direction of the rotary disk 120 when viewed from each through hole 124 on the upper surface of the rotary disk 120, each tilts toward the through hole 124. An inflow slope 127 is provided. Since the flow-in inclined portion 127 is provided, when the rotary disk 120 rotates, the spheres on the upper surface of the rotary disk 120 can easily flow into the through holes 124.

(Bucket 170)
As shown in FIGS. 3 and 5, the bucket 170 is formed in a cylindrical shape. As shown in FIG. 14, the bucket 170 protrudes upward from the upper surface of the base 110 so as to surround the rotating disk 120. That is, the rotating disk 120 is completely covered with the bucket 170. As shown in FIG. 5, a rectangular plate-like flange portion 171 that extends outward is provided at the lower end of the bucket 170. In addition, at the four corners of the flange portion 171, screw holes that penetrate the flange portion 171 vertically are provided. These screw holes are for fixing the frame 140, the base 110, and the bucket 170 as described above. Further, when the bucket 170 is fixed to the upper surface of the base 110, the upper surface of the discharge path 112 of the base 110 is closed by the flange portion 171 of the bucket 170.

(Motor 150)
The motor 150 is for rotating the rotary disk 120. As shown in FIGS. 3 and 5, in the present embodiment, the motor 150 is disposed above the rotating disk 120. That is, the motor 150 is provided on the ball tank 160 side when viewed from the rotating disk 120. Specifically, as shown in FIGS. 3 and 5, a square plate-like stay 145 is provided on the upper part of the sphere tank 160 so as to straddle the upper opening of the sphere tank 160. Further, in the present embodiment, the stay 145 is positioned above the rotary disk 120. The ball tank 160 and the stay 145 are fixed with screws. In addition, a through hole 146 that penetrates the stay 145 up and down is provided in the center of the stay 145. The through hole 146 is for passing the drive shaft 151 of the motor 150. In addition, at a predetermined position around the through hole 146, four screw holes penetrating the stay 145 up and down are provided. These screw holes are for fixing the motor 150 and the stay 145. The motor 150 is fixed to the upper surface of the stay 145 with the drive shaft 151 directed downward (toward the rotating disk 120) and through the through hole 146. In the present embodiment, the center of the drive shaft 151 of the motor 150 and the center of the rotary disk 120 are made to coincide. A shaft 155 is fixed to the drive shaft 151 of the motor 150. The shaft 155 and the rotating disk 120 are fixed as described above. In this way, in the present embodiment, the motor 150 is disposed above the rotating disk 120, and the rotation of the drive shaft 151 of the motor 150 is transmitted to the rotating disk 120 via the shaft 155 to rotate. The disk 120 is rotated.

(Upward pitching passage 180)
As shown in FIGS. 2, 3, and 5, the upper pitching passage 180 is formed to extend upward from the pitching device 100 to a predetermined position between the upper end and the lower end of the front frame 31 as the front portion 30. And for guiding the ball sent out from the ball-sending device 100 upward.
In the present embodiment, an upper ball feeding passage 180 is connected to the ball outlet 113 of the base 110. Further, the upper ball feeding passage 180 is configured by using a pipe bent halfway. Further, the inner diameter of the upper ball feeding passage 180 is formed to be slightly larger than the diameter of the sphere.
(Discharge detection mechanism 190)
As shown in FIGS. 2, 3 and 5, a payout detection mechanism 190 for detecting the payout of a ball is provided at the upper end of the upper ball feeding passage 180. As shown in FIG. 16, the payout detection mechanism 190 includes a square box type case 191. A spherical passage 192 that is bent in an inverted L shape is formed inside the case 191. The spherical passage 192 includes a vertical portion 193 in the vertical direction and an inclined portion 194 that inclines slightly downward from the horizontal from the upper end of the vertical portion 193. Further, as shown in FIG. 16, a vertically long bar-like arm 195 whose lower end is pivotally supported by the case 191 is provided inside the case 191 and on the opposite side of the inclined portion 194 of the ball passage 192. Yes. Also, as shown in FIG. 16, a roller 196 is pivotally supported at a position slightly above the middle of the upper and lower sides of the arm 195 so as to face the vertical portion 193 of the ball passage 192. Further, as shown in FIG. 16, the roller 196 is positioned in the vicinity of the upper end of the vertical portion 193 of the ball passage 192. A spring 197 that urges the upper end of the arm 195 toward the inclined portion 194 of the ball passage 192 is attached near the upper end of the arm 195. A payout detection sensor 198 for detecting the passage of the ball is provided in the middle of the inclined portion 194 of the ball passage 192.

(Discharge control device 95)
The payout control device 95 is for controlling the operation of the ball sending device 100 based on a winning or the like.
As shown in FIG. 2, in this embodiment, the payout control device 95 is fixed at a predetermined position on the back surface of the game board 40, and includes a payout number counter for counting the number of balls to be paid out, A payout number adding means for adding a predetermined number to the payout number counter based on the winning detection signal from the detection sensor, and a payout for subtracting 1 from the payout number counter based on the payout detection signal from the payout detection sensor 198 A number subtracting means and a motor control means for rotating the motor 150 when the payout number counter is 1 or more and stopping the motor 150 when the payout number counter is 0 are provided.

The payout number adding means adds a predetermined number, for example, “15” to the payout number counter each time a winning detection signal from the winning detection sensor is transmitted to the payout control device 95.
For example, when the payout number counter is “0”, if there is a win detection signal from the win detection sensor, the payout number adding means adds “15” to the payout number counter. Becomes “15”.
Further, in the pachinko 11, the ball can enter the winning opening 44 even before the payout number counter becomes “0”, that is, even while the ball is being paid out. For example, when the payout number counter is “5”, if there is a win detection signal from the win detection sensor, the payout number adding means adds “15” to the payout number counter. Becomes “20”.

The payout number subtracting means subtracts “1” from the payout number counter each time a payout detection signal from the payout detection sensor 198 is transmitted to the payout control device 95.
(Operation of the pitching device 100)
The sphere stored in the sphere tank 160 is supplied to the rotating disk 120 via the bucket 170. Further, the sphere supplied to the rotating disk 120 passes through the through hole 124 and fits into the guide groove 115. When the sphere tank 160 is filled with spheres, the spheres are successively supplied from the sphere tank 160 to the rotary disk 120 via the bucket 170. The spheres are also supplied to the through holes 124 one after another. Then, when the sphere is already inserted into the guide groove 115 and the sphere is supplied to the through hole 124, the sphere is stacked on the sphere inserted into the guide groove 115. Thereby, as shown in FIG. 14, two spheres are accommodated in each through hole 124. Then, when the balls that are stuck in the guide groove 115 are included, three balls are stacked between the bottom of the guide groove 115 and the upper surface of the rotating disk 120 as shown in FIG. Further, as shown in FIG. 14, the sphere that has entered the guide groove 115 is retained in the sphere retaining portion 126, and is located behind the through-hole 124 in the rotational direction of the rotary disk 120. Shift. For this reason, even if three balls are stacked between the bottom of the guide groove 115 and the upper surface of the rotating disk 120, the three balls are not aligned in a straight line.

Further, when the motor 150 is driven and the rotary disk 120 rotates, each through hole 124 moves along the guide groove 115 above the guide groove 115 and reaches the upper portion of the front end 116 of the guide groove. Once removed from above the groove 115, passes over the bank portion 119, then reaches the upper end of the guide groove rear end 117, and then moves again over the guide groove 115 along the guide groove 115. .
In addition, the sphere that is caught in the guide groove 115 is retained in the sphere retaining portion 126. When the rotating disk 120 rotates, the sphere is pushed by the sphere pressing portion 128 and moves along the guide groove 115, and the front end of the guide groove When reaching 116, the ball moves away from the guide groove 115 and moves along the lead-out groove 118 due to the momentum of the rotational movement of the sphere itself. Further, when the sphere that has been caught in the guide groove 115 is separated from the guide groove 115 and sent out to the lead-out groove 118, it passes through the passage 130 provided between the adjacent ball pressing portions 128. Further, since there is a bank portion 119 between the guide groove front end 116 and the guide groove rear end 117, the sphere that is caught in the guide groove 115 does not move from the guide groove front end 116 to the guide groove rear end 117. .

  Further, when the ball stuck in the guide groove 115 is detached from the guide groove 115 and sent out to the lead-out groove 118, the ball stored in the through hole 124 loses its support and falls downward, and fits in the guide groove 115. Include. Then, the balls that have been caught in the guide groove 115 in this way are separated from the guide groove 115 and sent out to the lead-out groove 118 as described above when the rotary disk 120 rotates. When the rotating disk 120 continues to rotate, such an operation is repeated, and the balls are successively sent out from the guide groove 115 to the lead-out groove 118. Then, a plurality of spheres are arranged in a row in the lead-out groove 118. Then, the sphere previously sent into the lead-out groove 118 is pushed and moved by the sphere sent out into the lead-out groove 118 one after another. Each time one sphere is sent out from the guide groove 115 to the lead-out groove 118, one sphere is pushed out from the sphere outlet 113. Further, the ball pushed out from the ball outlet 113 is pushed into the upper ball feeding passage 180 from the lower end of the upper ball feeding passage 180. If the rotating disk 120 continues to rotate, the balls are pushed into the upper ball-feeding passage 180 one after another, and a plurality of balls are also arranged in a row in the upper ball-feeding passage 180. Each time one sphere is pushed in from the lower end of the upper pitching passage 180, one sphere is pushed out from the upper end of the upper pitching passage 180. In addition, a payout detection mechanism 190 is provided at the upper end of the upper pitching passage 180. The ball pushed out from the upper end of the upper ball feeding passage 180 is sent out to the vertical portion 193 of the ball passage 192 in the payout detection mechanism 190. Further, when the sphere fed into the vertical portion 193 of the ball passage 192 is pushed up by the sphere pushed out from the upper end of the upper ball feeding passage 180, the roller 196 is pushed and the arm 195 is inclined against the spring 197. When the upper end of the vertical portion 193 of the ball passage 192 is exceeded, the spring 197 returns to the original position, and the arm 195 is returned to the original position and is pushed by the roller 196, and the inclined portion 194 of the ball passage 192 is vigorously moved. It passes well and is discharged out of the payout detection mechanism 190. Each time the ball passes the payout detection sensor 198, a payout detection signal is transmitted from the payout detection sensor 198 to the payout control device 95. When a payout detection signal is transmitted from the payout detection sensor 198 to the payout control device 95, the payout number subtraction means subtracts 1 from the payout number counter. The motor control means rotates the motor 150 when the payout number counter is 1 or more, and stops the motor 150 when the payout number counter is 0. Then, when the motor 150 is stopped, the rotation of the rotary disk 120 is stopped and the ball feeding is stopped.

(Circulation passage)
The circulation passage is a spherical passage composed of the lower guide passage 50, the ball tank 160, the ball feeding device 100, and the upper ball feeding passage 180.
(Ball passage)
The ball removal passage is a passage branched from the middle of the circulation passage.
In the present embodiment, the overflow ball passage 164 is a ball passage.
(Ratio adjuster)
The ratio adjuster is provided at a branch portion where the ball passage is branched from the circulation passage, and the amount of the sphere guided to the downstream of the branch portion of the circulation passage and the amount of the sphere guided to the ball passage. It is for adjusting the ratio.

In the present embodiment, overflow adjuster 210 is a ratio adjuster.
(Amusement machine installation island)
The gaming machine installation island is a structure for installing the gaming machines 10 side by side, and is installed in a game hall such as a pachinko hall.
In addition, the gaming machine installation island has a ball collection mechanism for collecting the balls guided to the overflow ball passage 164 as a ball removal passage, a purification unit for purifying the balls collected by the ball collection mechanism, and a purification A storage unit for storing the balls purified by the unit, and a ball supply mechanism for supplying the gaming machine 10 with the balls stored in the storage unit.

Thereby, the ball discharged from the overflow port 162 is collected by the ball collecting mechanism of the gaming machine installation island through the overflow ball passage 164, polished or washed by the purification unit, purified, and stored in the storage unit. .
When the first ball quantity sensor 165 detects that the quantity of the balls in the ball tank 160 is below a certain level, the first ball quantity sensor 165 supplies the balls to the ball supply mechanism on the gaming machine installation island. A start signal is transmitted. Then, the ball supply mechanism starts supplying the balls, and the balls stored in the storage part of the gaming machine installation island are supplied to the ball tank 160 via the supply ball tray 230 and the supply ball passage 231. When the second ball quantity sensor 166 detects that the quantity of the balls in the ball tank 160 is equal to or greater than a certain level, the second ball quantity sensor 166 supplies the balls to the ball supply mechanism on the gaming machine installation island. A stop signal is sent. Then, the ball supply mechanism stops supplying the ball.

As described above, in the present embodiment, since the ball tank 160 and the ball feeding device 100 provided at the lower rear of the front frame 31 as the front surface portion 30 perform the payout of the ball at the time of winning or the like, the back set As a result, the front frame 31 as the front portion 30 and the back surface of the game board 40 can be used widely and effectively. As a result, the front frame 31 and the game board 40 can be provided with, for example, a liquid crystal display and its control. It is possible to make it easier to newly mount the substrate 90 and the like.
Further, in the present embodiment, the balls stored in the upper plate 35 are introduced into the pachinko 11 from the insertion port 37 provided in the corner of the upper plate 35, and the winning award port passes through the launching device 39 and the game area 42. 44 or the out port 48, guided to the back side of the game board 40, guided downward by the winning ball passage 51 or the out ball passage 52, and once stored in the ball tank 160, when there is a winning, etc. 100 is sent out from the ball tank 160, passes through the upper ball-feeding passage 180, is paid out from the payout outlet 34, and is stored in the upper plate 35. For this reason, the ball circulates in the pachinko 11, and the ball used for the game is used again for the game without being returned to the island where the game machine is installed. Can be reduced.

  Further, in the present embodiment, the sphere circulating in the gaming machine 10 can be removed from the circulation passage and purified by the purification unit, and the amount of the sphere purified by the purification unit is set in proportion to the degree of contamination of the sphere. Can be adjusted with an adjuster. For example, if the ball is not very dirty, the ratio of the amount of the ball that continues to circulate in the gaming machine 10 and the amount of the ball that is removed from the circulation passage and purified by the purification unit is 20:80, Priority is given to reducing the burden on the ball collection mechanism, etc. On the other hand, if the ball is very dirty, the ratio between the amount of the ball that continues to circulate in the gaming machine 10 and the amount of the ball that is removed from the circulation path and purified by the purification unit is 80. The pair 20 can give priority to the purification of the sphere. In this way, securing the merit of “reducing the burden of the ball collection mechanism etc. of the island where the gaming machine is installed” generated by circulating the ball in the gaming machine 10 and eliminating the demerit of “the ball gradually gets dirty” Harmony can be achieved.

Further, in the present embodiment, when the amount of spheres in the sphere tank 160 exceeds a certain value, an overflow port 162 that discharges the spheres to the outside of the sphere tank 160, and an overflow sphere passage 164 that guides the spheres discharged from the overflow port 162 An overflow regulator that can directly guide a ball from the discharge port 54 to the overflow port 162 and adjust the amount of the ball guided to the overflow port 162 between the discharge port 54 and the overflow port 162 Since 210 is provided, the overflow ball passage 164 is a ball removal passage, and the overflow adjuster 210 is a ratio adjuster, it is possible to achieve harmony between securing the above merits and eliminating the disadvantages with a relatively simple configuration.
In the present embodiment, the overflow adjuster 210 is slid in the width direction of the discharge port 54, so that the width W of the communication portion between the discharge port 54 and the overflow adjuster 210, and the discharge port 54 and the ball tank 160 The amount of the sphere guided to the overflow port 162 without being stored in the sphere tank 160 can be adjusted by changing the width of the communicating portion with the Harmony with elimination of disadvantages.

In the present embodiment, the motor 150 of the ball-sending device 100 is disposed above the rotary disk 120. For this reason, the motor 150 can be eliminated from the lower side of the base 110, and accordingly, the base 110, the rotating disk 120, and the ball tank 160 can be provided at a low position by the height of the motor 150. Then, the depth of the ball tank 160 is made relatively deep so that the capacity of the ball tank 160 is sufficiently secured, and the position of the upper edge of the ball tank 160 is set higher than the winning ball passage 51 and the out ball passage 52. Can be lowered.
In the present embodiment, the base 110 and the rotating disk 120 of the ball-sending device 100 are horizontally arranged. For this reason, compared with the case where the base 110 and the rotating disk 120 are inclined and arranged without increasing the position of the upper edge of the ball tank 160 or increasing the outer diameter of the ball tank 160, the ball tank 160 A large capacity of 160 can be secured.

Here, the pachinko 11 is required to pay out a ball at a relatively high speed. However, in this embodiment, the ball-sending device 100 can withstand the ball payout at a relatively high speed.
Specifically, in the present embodiment, the distance from the lower end of each ball pressing portion 128 to the bottom of the guide groove 115 is set to be smaller than the radius of the sphere. For this reason, the front surface (sphere pressing surface 129) in the rotation direction of the rotating disk 120 in each ball pressing portion 128 comes into contact with the ball that is fitted in the guide groove 115, and the corner portion of each ball pressing portion 128 is The ball that gets stuck in the guide groove 115 will not hit. As a result, the corners of each ball pressing portion 128 do not wear out, and the contact area between each ball pressing portion 128 and the sphere that has entered the guide groove 115 increases, so that the burden on each ball pressing portion 128 is increased. It is reduced. Accordingly, the durability of each ball pressing portion 128 is improved, and as a result, it can withstand the delivery of the ball at a relatively high speed of 5 to 10 or more per second.

  In the present embodiment, the ball pressing surfaces 129 of the respective ball pressing portions 128 are respectively shifted from the rear edge portions 125 of the corresponding through holes 124 by a predetermined distance to the rear in the rotation direction of the rotary disk 120. Is formed. For this reason, the sphere that has passed through each through hole 124 and has entered the guide groove 115 is deviated from the position immediately below each through hole 124 to the rear in the rotational direction of the rotary disk 120 and is retained in the sphere retaining portion 126. For this reason, even if the sphere that has entered the guide groove 115 vibrates up and down due to the rotation of the rotary disk 120 or the like, it does not return into the through hole 124. As a result, even when the rotating disk 120 is rotated at a relatively high speed, the balls are not fed idle, and the balls can be reliably sent out. Furthermore, since the ball does not jump upward from the guide groove 115, the ball does not get caught between the through hole 124 and the bank portion 119, and thus the rotating disk 120 may be locked. Absent.

  Further, in the present embodiment, each through hole 124 is formed so as to be able to store two balls in the vertical direction. For this reason, since two spheres waiting to be supplied to the guide groove 115 are stocked in each through hole 124, the supply of the sphere from each through hole 124 to the guide groove 115 is smoothly performed. As a result, even when the rotating disk 120 is rotated at a relatively high speed, the balls are not fed idle, and the balls can be reliably sent out. In addition, it is possible to avoid a situation where a ball jumps from the ball tank 160 into the through-hole 124 at the moment when the through-hole 124 approaches the bank portion 119, so that the ball is caught between the through-hole 124 and the bank portion 119. This prevents the rotating disk 120 from being locked.

Further, in the present embodiment, a portion above the center of the sphere accommodated at the top of each through hole 124 projects upward from the opening above the through hole 124. For this reason, wear on the upper surface of the rotating disk 120 and the edge of the opening on the upper side of the through hole 124 is suppressed, and the durability of the rotating disk 120 is improved. In addition, although a part of the sphere stored at the top of each through hole 124 protrudes from the through hole 124 to the outside, the part protruding from the through hole 124 is less than half of the sphere. Even if the inner sphere is stirred or the rotating disk 120 vibrates due to the rotation, the sphere remains relatively stable in the through hole 124.
In the present embodiment, the upper surface of the rotating disk 120 is provided with a columnar central protrusion 131 protruding upward from the central portion thereof, and the outer peripheral surface of the central protrusion 131 and the inner peripheral surface of the bucket 170 are provided. The distance between is slightly larger than the diameter of the sphere. For this reason, the spheres are aligned between the central protrusion 131 and the bucket 170. This makes it easier for the balls in the bucket 170 to enter the through holes 124 of the rotating disk 120, and even if the rotating disk 120 is rotated at a relatively high speed, the balls are smoothly supplied to the through holes 124 of the rotating disk 120. Is done.

(Second Embodiment)
17 and 18 show a second embodiment.
17 is a front perspective view of the parrot 12 as the gaming machine 10, and FIG. 18 is a perspective view showing a state in which the front door 32 as the front portion 30 is opened.
(Game machine 10 / Parrot 12)
As shown in FIGS. 17 and 18, the gaming machine 10 according to the present embodiment is a parrot 12.
The parrot 12 is a slot machine that uses a ball to play a game.
As shown in FIGS. 17 and 18, the parrot 12 includes a back frame 20 fixed to the gaming machine installation island of the game hall, and a front door 32 attached to the back frame 20 via a hinge 25 so as to be opened and closed. ing. The front door 32 constitutes the front surface of the parrot 12 as the gaming machine 10. That is, the front door 32 is a front surface portion 30 that constitutes the front surface of the parrot 12 as the gaming machine 10.

(Back frame 20)
The back frame 20 is fixed to the gaming machine installation island, and is substantially the same as the back frame 20 of the pachinko 11 shown in the first embodiment.
(Front door 32)
The front door 32 is attached to the back frame 20 through a hinge 25 so as to be opened and closed.
As shown in FIGS. 17 and 18, a reel unit 60 having three rotary reels 61 provided side by side is provided on the back side of the front door 32, and a plurality of reel units 61 are provided around each rotary reel 61. Types of symbols are given in a predetermined arrangement.

Further, as shown in FIG. 17, a front panel 62 is fitted in the center of the front door 32, and the symbols attached to the periphery of each rotary reel 61 can be seen through in the center of the front panel 62. A see-through window 63 is provided.
The see-through window 63 is provided in front of each rotary reel 61, and when all three rotary reels 61 stop rotating, a total of nine symbols arranged in three rows and three rows in a row are displayed. It becomes possible to see through.
In the present embodiment, the three symbols that can be seen through the see-through window 63 when the rotation of the left rotating reel 61 is stopped are shown as “left reel upper symbol” “left reel middle symbol” “ The three symbols that can be seen through the see-through window 63 when the rotation of the central rotating reel 61 stops are displayed in order from the top, “middle reel upper symbol” and “middle reel middle symbol”, respectively. The three symbols that can be seen through the see-through window 63 when the rotation of the right rotating reel 61 is stopped are shown as “right reel upper symbol” and “right reel middle symbol” in order from the top. "Right reel lower symbol".

In the present embodiment, five pay lines from first to fifth are provided. Specifically, the first winning line passes through the left reel middle symbol, the middle reel middle symbol, and the right reel middle symbol, and the left reel upper symbol, middle reel upper symbol, and right reel upper symbol The second winning line passes through the left reel, the middle reel lower symbol and the right reel lower symbol passes the third winning line, and the left reel lower symbol. The "fourth winning line" passes through the middle reel middle symbol and the right reel upper symbol, and the fifth reel winning line passes through the left reel upper symbol, middle reel middle symbol, and right reel lower symbol. It is.
As shown in FIG. 17, a payout outlet 34 through which a ball is paid out at the time of winning or the like is provided at a position corresponding to the lower side of the front panel 62 in the front door 32. 34 is provided with an upper plate 35 for receiving and storing the balls discharged from the outlet 34, and a position corresponding to the lower side of the upper plate 35 on the front surface of the front door 32. Is provided with a lower plate 36 for storing balls that cannot be stored in the upper plate 35.

A bet switch 70 for betting a ball is provided on the upper plate 35.
Further, as shown in FIG. 12, on the front surface of the upper plate 35, there are a start switch 71 for starting the rotation of each rotary reel 61, and for stopping the rotation of each rotary reel 61. Three stop switches 72 provided corresponding to 61 are provided.
In addition, the bottom surface of the upper plate 35 is smoothly inclined so that the height gradually decreases toward the right back direction, and the ball on the right back of the upper plate 35 is used for throwing a ball into the parrot 12. An input port 37 is provided. The balls stored in the upper plate 35 are inserted into the parrot 12 through the insertion port 37.

(Downward guide passage 50, throwing ball passage 53)
As shown in FIG. 18, a throwing ball passage 53 for guiding the ball thrown into the parrot 12 downward is provided in the lower part of the rear surface of the front door 32, and a ball is placed in the middle of the throwing ball passage 53. A throw detection sensor is provided for detecting the passage of.
Further, the ball stored in the upper plate 35 is inserted into the parrot 12 from the insertion port 37 by the operation of the bet switch 70 and is guided to the insertion ball passage 53. The throwing ball passage 53 is provided in the lower part of the back surface of the front door 32 and guides the ball thrown into the parrot 12 downward. In other words, the throwing ball passage 53 is a lower guide passage 50 that is provided in the lower part of the back surface of the front portion 30 and guides the ball thrown into the gaming machine 10 downward.

(Control board 90)
As shown in FIG. 18, on the back side of the front door 32, a control board 90 for controlling the game is provided. Hereinafter, a game in the parrot 12 according to the present embodiment will be described.
When the bet switch 70 is operated, the balls stored in the upper plate 35 are thrown into the parrot 12. Then, the number of winning lines corresponding to the number of balls inserted becomes valid. Specifically, the number of balls thrown is either 5, 10, or 15, and when the number of balls thrown is 5, only the first pay line is valid, and the ball throws. When the number is 10, three pay lines from 1st to 3rd are valid, and when the number of balls thrown is 15, all 5 pay lines from 1st to 5th are valid. validate. Further, when the start switch 71 is operated on condition that the ball is thrown, a lottery (role lottery) of whether one of a plurality of winning combinations is won or lost is performed. In addition, the rotation of all three rotary reels 61 starts almost simultaneously with the role lottery. Thereafter, when one of the three stop switches 72 is operated, the rotation of the rotary reel 61 corresponding to the stop switch 72 is stopped. When all the three stop switches 72 have been operated, the rotation of all three rotary reels 61 is stopped. At this time, when three symbols of the same type are arranged on any valid winning line, a winning combination corresponding to the symbol is made, and the number of balls corresponding to the winning mode is paid out.

(Ball tank 160)
As shown in FIG. 18, the ball tank 160 is provided at the lower rear of the front door 32 as the front portion 30, is positioned below the charging ball passage 53 as the lower guide passage 50, and is provided in the lower guide passage. This is for receiving and storing a ball discharged from the lower end of the input ball passage 53 as 50. The structure of the sphere tank 160 is the same as that of the first embodiment.
(Pitching device 100)
As shown in FIG. 18, the ball-sending device 100 is provided at the lower rear of the front door 32 as the front surface portion 30, is connected to the ball tank 160, and sends out a ball stored in the ball tank 160. Is for. The structure and operation of the ball sending apparatus 100 are the same as those in the first embodiment.

(Upward pitching passage 180)
As shown in FIG. 18, the upper pitching passage 180 is formed so as to extend upward from the pitching device 100 to a predetermined position between the upper end and the lower end of the front door 32 as the front surface portion 30, and the pitching device. This is for guiding the sphere sent out from 100 upward. The structure of the upper ball feeding passage 180 is the same as that of the first embodiment.
(Discharge detection mechanism 190)
As shown in FIG. 18, a payout detection mechanism 190 for detecting the payout of a ball is provided at the upper end of the upper ball feeding passage 180. The structure of the payout detection mechanism 190 is the same as that of the first embodiment.

(Discharge control device 95)
As shown in FIG. 18, in this embodiment, the payout control device 95 is fixed at a predetermined position on the back surface of the front door 32, and a payout number counter for counting the number of balls to be paid out, and a control A payout number adding means for adding a predetermined number to the payout number counter based on the winning signal from the substrate 90, and a payout number for subtracting 1 from the payout number counter based on the payout detection signal from the payout detection sensor 198 Subtracting means and motor control means for rotating the motor 150 when the payout number counter is 1 or more and stopping the motor 150 when the payout number counter is 0 are provided.

The payout number adding means adds a predetermined number to the payout number counter each time a winning signal from the control board 90 is transmitted to the payout control device 95.
Specifically, for example, a big bonus winning signal, which is a winning signal indicating a big bonus winning, is obtained when three of the symbols “7” are arranged on the winning line where the symbol “7” is valid, and the payout control device When sent to 95, the payout number adding means adds “75” to the payout number counter.
Further, for example, when three “Bell” symbols are arranged on the winning line where the symbol “Bell” is valid and a Bell winning is achieved, a Bell winning signal which is a winning signal indicating the Bell winning is transmitted from the control board 90 to the payout control device 95. The payout number adding means adds “50” to the payout number counter.

The payout number subtracting means subtracts “1” from the payout number counter each time a payout detection signal from the payout detection sensor 198 is transmitted to the payout control device 95.
(Circulation passage)
The circulation passage is a spherical passage composed of the lower guide passage 50, the ball tank 160, the ball feeding device 100, and the upper ball feeding passage 180. The configuration of the circulation passage is the same as that of the first embodiment.
(Ball passage)
The ball removal passage is a passage branched from the middle of the circulation passage. The configuration of the ball removal passage is the same as that of the first embodiment.

(Ratio adjuster)
The ratio adjuster is provided at a branch portion where the ball passage is branched from the circulation passage, and the amount of the sphere guided to the downstream of the branch portion of the circulation passage and the amount of the sphere guided to the ball passage. It is for adjusting the ratio. The configuration of the ratio adjuster is the same as that of the first embodiment.
(Amusement machine installation island)
The gaming machine installation island is a structure for installing the gaming machines 10 side by side, and is installed in a game hall such as a pachinko hall. The configuration of the gaming machine installation island is the same as that of the first embodiment.

As described above, in this embodiment, the ball tank 160 and the ball feeding device 100 provided at the lower rear of the front door 32 as the front surface portion 30 perform the payout of the ball at the time of winning, etc. As a result, the back surface of the front door 32 as the front portion 30 can be used widely and effectively. As a result, for example, a liquid crystal display and its control board 90 are newly mounted on the front door 32. It can be made easier.
Further, in the present embodiment, the sphere stored in the upper plate 35 is introduced into the parrot 12 from the insertion port 37 provided at the corner of the upper plate 35, guided to the back side of the front door 32, and the input ball passage 53 When the ball tank 160 is temporarily stored in the ball tank 160 and a prize is received, it is sent out from the ball tank 160 by the ball feeding device 100, and is paid out from the payout outlet 34 through the upper ball feeding passage 180. Stored in 35. For this reason, the ball circulates in the parrot 12, and the ball used for the game is used again for the game without being returned to the game machine installation island. Can be reduced.

  Further, in the present embodiment, the sphere circulating in the gaming machine 10 can be removed from the circulation passage and purified by the purification unit, and the amount of the sphere purified by the purification unit is set in proportion to the degree of contamination of the sphere. Can be adjusted with an adjuster. For this reason, there is a harmony between securing the merit of “reducing the burden of the ball collection mechanism on the island where the gaming machine is installed” and the elimination of the demerit of “gradually soiling the ball” caused by circulating the ball in the gaming machine 10. I can plan.

1 is a front perspective view of a gaming machine according to a first embodiment of the present invention. The perspective view which shows the state which opened the front part of the game machine which concerns on the 1st Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an external perspective view of a ball tank and a ball sending device in a gaming machine according to a first embodiment of the present invention. A side sectional view of a ball tank and a ball sending device in a gaming machine concerning a 1st embodiment of the present invention. 1 is an exploded perspective view of a ball tank and a ball feeding device in a gaming machine according to a first embodiment of the present invention. The disassembled perspective view of the ball tank in the gaming machine according to the first embodiment of the present invention. The top view of the ball tank in the game machine which concerns on the 1st Embodiment of this invention. The top view of the ball tank in the game machine which concerns on the 1st Embodiment of this invention. The top view of the ball tank in the game machine which concerns on the 1st Embodiment of this invention. The top view of the base of the ball-sending device in the gaming machine according to the first embodiment of the present invention. The top view of the rotating disk of the ball-sending device in the gaming machine according to the first embodiment of the present invention. The bottom view of the rotating disk of the ball-sending device in the gaming machine according to the first embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an external perspective view of a rotating disk of a ball feeding device in a gaming machine according to a first embodiment of the present invention. 1 is a side sectional view of a base, a rotating disk, and a bucket of a ball-sending device in a gaming machine according to a first embodiment of the present invention. (A) is a principal part top view of the rotating disk of the ball-sending device in the gaming machine according to the first embodiment of the present invention, and (B) is a cross-sectional view taken along line A-A ′ of (A). The sectional side view of the payout detection mechanism of the ball-sending device in the gaming machine according to the first embodiment of the present invention. The front perspective view of the game machine concerning a 2nd embodiment of the present invention. The perspective view which shows the state which opened the front part of the game machine which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

10 Pachislot machines 11 Pachinko
12 Parrot 20 Back frame
25 Hinge 30 Front
31 Front frame 32 Front door
33 Windows 34 Exit
35 Upper plate 36 Lower plate
37 Input port 38 Operation handle
39 Launcher 40 Game board
41 Guide rail 42 Game area
43 Symbol display 44
45 General prize opening 46 Start prize opening
47 Grand prize opening 48 Out
50 Downward guide passage 51 Prize ball passage
52 Out ball passage 53 Throw ball passage
54 Discharge port
60 reel unit 61 rotating reel
62 Front panel 63 Perspective window
70 Bet switch 71 Start switch
72 Stop switch 90 Control board
91 Main board 92 Sound board
93 Display control board 95 Dispensing control device
100 pitcher 110 base
111 Circular recess 112 Discharge channel
113 Ball outlet 114 Shaft hole
115 Guide groove 116 Guide groove front end
117 Guide groove rear end 118 Lead groove
119 Bank 120 Rotating disc
121 Bearing 122 Bearing hole
123 Slit 124 Through hole
124-1 First through hole 124-2 Second through hole
124-3 Third through hole 124-4 Fourth through hole
124-5 fifth through hole 124-6 sixth through hole
125 Rear edge 126 Ball holding part
127 Inflow slope 128 Ball pressing part
128-1 first ball pressing part 128-2 second ball pressing part
128-3 third ball pressing part 128-4 fourth ball pressing part
128-5 5th ball pressing part 128-6 6th ball pressing part
129 Ball pressing surface 130
131 Center projection 140 Frame
141 Support hole 145 Stay
146 Through hole 150 Motor
151 Drive shaft 155 Shaft
156 pin 160 ball tank
161 Ball drop hole 162 Overflow port
163 Overflow ball receiver 164 Overflow ball passage
165 First ball sensor 166 Second ball sensor
170 Bucket 171 Flange
180 Upper pitching passage 190 Dispensing detection mechanism
191 Case 192 ball passage
193 Vertical part 194 Inclined part
195 Arm 196 Roller
197 Spring 198 Discharge detection sensor
200 Tank cover 201 Upper convex part
202 Entrance 203 Overflow blockage
204 Long screw hole 205 Supply port
210 Overflow adjuster 211 Inclined passage
212 Left guide part 213 Right guide part
214 Mounting part 215 Round screw hole
220 Mounting screw 221 Mounting nut
230 Supply ball tray 231 Supply ball passage

Claims (4)

A gaming machine that uses a ball as a gaming medium,
A front part constituting the front of the gaming machine;
An upper plate provided on the front surface of the front portion and capable of storing a sphere;
A lower guide passage that is provided at the lower part of the rear surface of the front portion and guides a ball thrown into the game machine from the upper plate downward;
A sphere tank that is provided at the lower rear of the front portion and is located below the lower guide passage and receives and stores the sphere discharged from the lower end of the lower guide passage;
A ball-sending device that is provided at the lower rear of the front surface portion and that is connected to the ball tank and that sends out a ball stored in the ball tank;
An upper pitching passage that is formed so as to extend upward from the pitching device to a predetermined position between the upper end and the lower end of the front portion and guides the ball sent out from the pitching device ;
The spheres discharged from the upper end of the upper side throwing passage and a payout opening for paying out the upper tray,
The passage of the sphere composed of the upper plate, the lower guide passage, the ball tank, the ball feeding device, and the upper ball feeding passage is defined as a circulation passage
A ball passage that branches off from the middle of the circulation passage is provided,
A ratio adjuster for adjusting the ratio of the amount of the sphere guided to the downstream of the branch portion of the circulation passage and the amount of the sphere guided to the removal passage at the branch portion where the bulb passage from the circulation passage branches. Provided,
On the gaming machine installation island where the gaming machine is installed, at least a ball collection mechanism for collecting the ball guided to the ball removal passage, and a purification unit for purifying the ball collected by the ball collection mechanism A gaming machine characterized by comprising: The lower opening of the lower guide passage is the discharge port,
When the amount of spheres in the sphere tank exceeds a certain level, an overflow port for discharging the sphere out of the sphere tank and an overflow sphere passage for guiding the sphere discharged from the overflow port are provided,
Between the discharge port and the overflow port, an overflow regulator is provided that can guide the ball discharged from the discharge port to the overflow port without storing it in the ball tank,
The overflow adjuster is formed such that the ratio between the amount of spheres stored in the sphere tank and the amount of spheres guided to the overflow port without being stored in the sphere tank can be adjusted,
Let the overflow ball passage be a ball passage,
The gaming machine according to claim 1, wherein the overflow regulator is a ratio regulator.   The overflow adjuster is formed in a bowl shape having a predetermined width and is slidable in the width direction of the discharge port. When the overflow adjuster is slid in the width direction of the discharge port, the discharge port, the overflow adjuster, 3. The gaming machine according to claim 2, wherein the width of the communication portion and the width of the communication portion between the discharge port and the ball tank vary. A gaming machine that uses a ball as a gaming medium,
A front part constituting the front of the gaming machine;
An upper plate provided on the front surface of the front portion and capable of storing a sphere;
A game area where a ball stored in the upper plate is launched through a launcher;
A lower guide passage for guiding a ball launched into the game area downward;
A sphere tank that is provided at the lower rear of the front portion and is located below the lower guide passage and receives and stores the sphere discharged from the lower end of the lower guide passage;
A ball-sending device that is provided at the lower rear of the front surface portion and that is connected to the ball tank and that sends out a ball stored in the ball tank;
An upper pitching passage that is formed so as to extend upward from the pitching device to a predetermined position between the upper end and the lower end of the front portion and guides the ball sent out from the pitching device;
A payout opening for paying out the balls discharged from the upper end of the upper ball-feeding passage to the upper plate;
A ball path composed of an upper plate, a game area, a lower guiding path, a ball tank, a ball feeding device, and an upper ball feeding path is defined as a circulation path.
In the middle of the circulation path, a ball passage that branches off from the circulation path excluding the game area is provided,
A ratio adjuster for adjusting the ratio of the amount of the sphere guided to the downstream of the branch portion of the circulation passage and the amount of the sphere guided to the removal passage at the branch portion where the bulb passage from the circulation passage branches. Provided,
On the gaming machine installation island where the gaming machine is installed, at least a ball collection mechanism for collecting the ball guided to the ball removal passage, and a purification unit for purifying the ball collected by the ball collection mechanism A gaming machine characterized by comprising:

Images