WO2007094250A1 - ジャックポット抽選装置並びにこれを用いた遊技機及び遊技システム - Google Patents
ジャックポット抽選装置並びにこれを用いた遊技機及び遊技システム Download PDFInfo
- Publication number
- WO2007094250A1 WO2007094250A1 PCT/JP2007/052332 JP2007052332W WO2007094250A1 WO 2007094250 A1 WO2007094250 A1 WO 2007094250A1 JP 2007052332 W JP2007052332 W JP 2007052332W WO 2007094250 A1 WO2007094250 A1 WO 2007094250A1
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- WIPO (PCT)
- Prior art keywords
- lottery
- payout
- ball
- jackpot
- unit
- Prior art date
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Classifications
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F17/00—Coin-freed apparatus for hiring articles; Coin-freed facilities or services
- G07F17/32—Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
- G07F17/3244—Payment aspects of a gaming system, e.g. payment schemes, setting payout ratio, bonus or consolation prizes
- G07F17/3258—Cumulative reward schemes, e.g. jackpots
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F9/00—Games not otherwise provided for
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F5/00—Roulette games
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F17/00—Coin-freed apparatus for hiring articles; Coin-freed facilities or services
- G07F17/32—Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
- G07F17/3286—Type of games
- G07F17/3297—Fairground games, e.g. Tivoli, coin pusher machines, cranes
Definitions
- the present invention relates to a jackpot lottery device for lottery of jackpot prizes in which a payout amount increases cumulatively when a predetermined payout increase condition is satisfied, and a gaming machine and a gaming system using the jackpot lottery device It is.
- this type of jackpot lottery device for example, a medal game machine (game machine) installed in a game center or the like, or a game system composed of a plurality of medal game machines is used.
- a medal game machine controls the progress of a game on condition that a medal (betting object) is received from a player, and pays out a predetermined number of medals (payout object) to the player according to the game result.
- An example of a medal game machine using a jackpot lottery device will be described. For example, the player's power is accumulated and added corresponding to a part of the number of medals (betting targets) received, and this is calculated as payout amount data. Is stored in the storage unit of the jackpot lottery apparatus.
- a jackpot lottery device is used to determine whether the jackpot prize is won or not.
- the number of medals indicated by the payout amount data is paid out to the player who satisfies the predetermined lottery start condition, and the payout amount data is returned to the initial value.
- a jackpot lottery device generally includes a gaming machine including a plurality of gaming units that advance independent games, or a gaming system that includes a plurality of gaming machine powers that advance independent games. It is often used in. This is due to the following reason.
- the number of medals that can be paid out to a player at a time by each gaming unit or each gaming machine is limited to some extent due to the payout rate preset for each gaming unit or gaming machine. Will be.
- the upper limit of the number of medals that can be paid out at one time can be determined in relation to the payout rate of a plurality of gaming units or gaming machines. Therefore, the gaming machine and gaming system described above If so, a large amount of medals can be paid out to the player at a time. As a result, the player can expect that a large number of medals will be paid out at once, and can attract the player's interest.
- gaming machines and gaming systems using such jackpot lottery devices are not only installed in the game center, but also in pachinko machines installed in pachinko stores, etc. It is possible to use.
- the gaming machines that can use the jackpot lottery device are not limited to those having a plurality of gaming units that advance independent games.
- a jackpot lottery device can be used even for a single-player game machine.
- Patent Document 1 Japanese Patent Application Laid-Open No. 2002-253842
- the amount indicated by the payout amount data corresponding to the jackpot award increases cumulatively, and as such increases, the player's desire to win the jackpot award is It will increase and playability will increase.
- the conventional jackpot lottery apparatus generally, there is only one jackpot award that can be won in the lottery, and there is also one payout amount data corresponding to this jackpot award. Therefore, when one player wins the jackpot award and the payout amount data returns to the initial value, another player who played at the same time as the one player, or after that, There was a problem that the game player's desire to win the jackpot award declined and the gameability dropped at once.
- the present invention realizes the provision of a jackpot lottery device that can prevent a decrease in gameability even if one player wins a jackpot award, and a gaming machine and a gaming system using the same.
- One aspect of the present invention includes a lottery unit for performing a lottery to determine whether to win any one of a plurality of types of jackpot prizes, or whether to win a race, a gap, or a gap.
- the jackpot lottery device will be used by the lottery section to check whether the multiple types of jackpot prizes
- a storage unit that stores payout amount data indicating the amount of a payout target to be paid out to the player when winning is determined for each of the plurality of types of jackpot awards, and the lottery unit selects any of the plurality of types of jackpot awards.
- the payout amount data corresponding to the selected type of jackpot award is read from the storage unit, and payout processing for paying out the payout amount of the amount indicated by the read payout amount data to the player is performed.
- a payout amount decrease that reduces the amount indicated by the payout amount data stored in the storage unit after reading out the payout amount data corresponding to the selected type of jackpot award from the storage unit.
- Power for processing Data processing is performed on a plurality of payout amount data stored in the storage unit so that payout amount data other than the payout amount data is not subjected to payout amount reduction processing.
- a payout processing unit and a payout amount increasing unit that cumulatively increases the amount indicated by at least one of the plurality of payout amount data stored in the storage unit when a predetermined payout increase condition is satisfied. Yes.
- this jackpot lottery device there are multiple types of jackpot prizes that may be won in a single lottery performed by the lottery.
- the payout amount indicated by the payout amount data corresponding to the one jackpot award is paid out, and the amount indicated by the payout amount data is returned to the initial value.
- the amount indicated by the payout amount data is reduced to an amount smaller than the amount indicated by the payout amount data at the time of winning.
- the amount indicated by the payout amount data corresponding to the other jackpot prizes that won the prize will not decrease. Therefore, even after one jackpot award is won, there is a strong desire to win the other jackpot award, and it is possible to further enhance the gameability rather than lowering the gameability.
- no-miss means that the player does not win the jackpot award, and does not mean that the player cannot obtain any profit. ,. Therefore, even if a loss is determined by lottery by the lottery department, it may be possible to give the player a profit such as paying out a predetermined amount of payout target.
- a loss that the lottery unit can determine includes a payout amount increase prize
- the payout amount increase unit is a payout that the lottery unit has determined the payout amount increase prize.
- the plurality of storage units stored in the storage unit The amount indicated by at least one of the payout amount data may be cumulatively increased.
- the conventional jackpot lottery device even if the jackpot prize is not won in the lottery for one player, other players will win the jackpot prize in the later lottery. No more profits can be gained than the amount paid out is not reduced. Therefore, the player's interest in the lottery performed for players other than himself / herself was relatively low for the players other than the player who performs the lottery.
- the amount indicated by the payout amount data corresponding to one type of jackpot award increases.
- the amount of payouts to be paid out when winning the jackpot prize in the subsequent lottery may increase. Therefore, if a player loses in a lottery other than his / her own player, the amount paid out when the player wins the jackpot prize in the subsequent lottery does not have to be reduced. More than that, you can get a profit. As a result, it is possible to make the player more interested in the lottery for the players other than himself, and to improve the gameability for the lottery for the players other than the player who performs the lottery. .
- the payout increase condition includes two or more payout increase conditions that are different from each other, and the payout amount increase unit is configured such that when any of the two or more payout increase conditions is satisfied, Of the plurality of payout amount data stored in the storage unit, the amount indicated by the payout amount data corresponding to the satisfied payout increase condition may be increased cumulatively.
- this jackpot lottery device when one of two or more different payout increase conditions is satisfied, among the multiple payout amount data respectively corresponding to a plurality of types of jackpot awards, the satisfied payout increase Payout for payout amount data corresponding to conditions Only the output increases cumulatively. In this way, since there are two or more different payout increase conditions, it is possible to diversify the conditions for increasing the jackpot payout amount, and it is possible to achieve higher game play.
- a lottery device including a lottery unit for performing a lottery for determining whether to win the jackpot prize or to lose the jackpot prize, and the progress of the game
- the jackpot lottery device is used as the lottery device, and the lottery unit of the jackpot lottery device is predetermined by the progress of the game controlled by the game control unit. The lottery starts when the lottery start conditions are met.
- the game machine includes a plurality of game control units, each of which includes a plurality of game units in which independent game progresses by the game progress unit
- the jackpot lottery device includes: When the lottery unit of the jackpot lottery device decides to win any of the plurality of types of jackpot prizes, the payout processing unit determines the payout target of the amount indicated by the payout amount data read from the storage unit. A payout process for paying out to a player of a game department that satisfies a predetermined lottery start condition may be performed.
- a plurality of players can use a plurality of gaming units to play at the same time, and a plurality of gaming units share a jackpot lottery device. Therefore, the player witnesses that another player wins the jackpot award during his play and the payout corresponding to the jackpot award is reduced. Therefore, if there is only one jackpot award that can be won in the lottery like the jackpot lottery device equipped with conventional gaming machines, the other player wins the jackpot award. Award If you want to choose, the degree of decline in desire is great, and the game is more likely to fall.
- a lottery apparatus including a lottery unit for performing a lottery for determining a lose power that wins a jackpot prize or does not win the jackpot prize, and a communication network are provided.
- a jackpot lottery device as the lottery device, each of which is connected to the lottery device via a plurality of gaming machines each having a game control unit for controlling the progress of the game.
- the lottery unit of the jackpot lottery device starts the lottery when a predetermined lottery start condition is satisfied by the progress of the game controlled by the game control unit of any of the gaming machines, and the jackpot lottery device
- the payout processing unit pays out the amount indicated by the payout amount data read from the storage unit when the lottery unit determines winning of any of the plurality of types of jackpot prizes.
- FIG. 1 is a flowchart showing a jackpot lottery flow performed in a pusher game machine according to an embodiment.
- FIG. 2 is an explanatory view schematically showing a correspondence relationship between 20 holding spaces provided in the center lottery apparatus and prizes in the pusher game machine.
- FIG. 3 is a partial perspective view showing the entire configuration of the pusher game machine.
- FIG. 4 is an explanatory diagram for explaining a configuration of a station unit in the pusher game machine.
- FIG. 5 is an explanatory diagram for explaining an internal structure of the station unit.
- FIG. 6 is an explanatory diagram showing an example of a slot game screen displayed on the display unit of the station unit.
- FIG. 7 is an explanatory diagram showing an example of a bingo game screen displayed on the display unit of the station unit.
- FIG. 8 is a perspective view showing a main configuration of a satellite lottery apparatus in the pusher game machine.
- Fig. 9 is a partial perspective view of the configuration of the play field of the station portion and its peripheral portion extracted.
- FIG. 10A is an explanatory diagram for explaining the reciprocating motion of the pusher portion in the play field.
- FIG. 10B is an explanatory diagram for explaining the reciprocating motion of the pusher portion in the play field.
- FIG. 11 is a perspective view showing a medal insertion mechanism of the station portion.
- FIG. 12 is a front view of the medal insertion mechanism.
- FIG. 13 is a top view of the medal insertion mechanism.
- FIG. 14 is a front perspective view of the medal insertion mechanism.
- FIG. 15 is a partially exploded view of the medal insertion mechanism.
- FIG. 16 is a perspective view showing the configuration of the center lottery apparatus.
- FIG. 17 is a front view showing the configuration of the center lottery apparatus.
- FIG. 18 is an explanatory view showing a part of the rotary conveyance device in the center lottery device.
- FIG. 19 is an explanatory diagram showing an example of a screen displayed on the display device of the center lottery device.
- FIG. 20 is a block diagram showing a main configuration of a game control system in the pusher game machine.
- FIG. 21 is a flowchart showing the flow of a slot game performed on the pusher game machine.
- FIG. 22 is a flow chart showing the flow of a bingo game performed on the pusher game machine.
- FIG. 3 is a partial perspective view showing the overall configuration of the pusher game machine 1 according to the present embodiment.
- the pusher game machine 1 is provided with four satellite sections SA so as to surround the center lottery apparatus 2000.
- Each satellite unit SA has four station units ST, and each player plays a game at each station unit ST.
- Each satellite unit SA includes one satellite lottery apparatus 1000, and each station unit ST is arranged around the satellite lottery apparatus 1000.
- FIG. 4 is an explanatory diagram for explaining the configuration of the station unit ST in the pusher game machine 1.
- FIG. 5 is an explanatory diagram for explaining the internal structure of the station unit ST.
- the station unit ST includes a medal insertion mechanism (insertion unit) 100, a medal transport path 200, a lift-up hono, 300 °, a medallole non-out path 400, and a play fino red 50.
- a control unit 600, a display unit 700, and a housing 800 In this embodiment, the medal insertion mechanism (insertion unit) 100, the medal transport path 200, the lift-up hopper 300 are mainly used.
- the medal delivery path 400 constitutes a medal sending unit that functions as medal sending means.
- the casing 800 is a structure that forms a framework of the station unit ST.
- a medal insertion mechanism 100 is disposed on the upper front side
- a display unit 700 as a display unit is disposed on the upper back side
- a play field 500 is disposed on the upper center.
- the medal transport path 200, the lift-up hopper 300, the control unit 600, and the like are stored in the housing 800.
- front side means the side located when the player plays
- “back side” means the side opposite to the side where the player plays
- center Means the region between the “front side” and the “back side” described above.
- the medal insertion mechanism 100 is a configuration for inserting a medal M into the pusher game machine 1 when a player plays.
- the medal M inserted from the medal insertion mechanism 100 is transported to the lift-up hopper 300 via the medal transport path 200 and is temporarily stored in the lift-up hopper 300.
- the medal transport path 200 and the lift-up hopper 300 are arranged in the housing 800.
- the medal transport path 200 has a function of mechanically and physically connecting the medal insertion mechanism 100 and the lift-up hopper 300 to transport the medal M inserted from the medal insertion mechanism 100 to the lift-up hopper 300. Have.
- the lift-up hopper 300 includes a medal storage unit 310 for accumulating medals M, a lift-up unit 320 for lifting the medals M to a predetermined height, and a medals M that have been lifted up to a predetermined level. And a medal discharge unit (discharge unit) 330 for discharging at a timing.
- a medal discharge path 400 for guiding the discharged medal M to the play field 500 is provided at the discharge port of the medal discharge unit 330 so as to be able to swing left and right.
- the upper end of the lift-up unit 320 is disposed above the play field 500. Accordingly, the medal discharge unit 330 provided at the upper end of the lift-up unit 320 is also disposed above the play field 500. Therefore, the medal M temporarily accumulated in the medal storage unit 310 provided under the play field 500 is lifted above the play fino red 500 by the lift-up unit 320 and then passed from the medal discharge unit 330 to the medal discharge route. It is injected into the play field 500 via 400.
- a main table 501 serving as a table and a pusher 510 serving as a medal pushing member placed on the main table 501 are provided.
- An effective state means a state that is involved in a game.
- the pusher 510 is stored in the main table 501 and an upper surface for storing the medals M in an effective state (referred to as sub-table 511), an inclined table 512 in which the medals M dropped from the sub-table 511 slide. And a pushing wall 513 for pushing the medals M.
- the pusher 510 is slidably provided on the main table 501 in the play field 500, and slides back and forth at a constant cycle or an arbitrary cycle.
- a part (back side) of the pusher portion 510 is stored in a storage portion 720 (described later) provided below the display portion 700.
- the pusher portion 510 reciprocates back and forth by sliding so as to enter and exit from the storage portion 720.
- a frame member 710 of the display 701 in the display unit 700 is slidably contacted with the sub-table 511. Therefore, when the pusher 510 moves in the direction in which the pusher 510 is stored in the storage 720, the medal M on the sub-table 511 is pushed forward by the frame member 710. Due to this pushing, some medals M on the sub-table 511 drop to the tilting table 512. A part of the medal M dropped from the sub-table 511 enters an opening (which is referred to as a checker 515-1, 515-2, 515-3) as a medal passage opening provided on the inclined table 512. Further, the remaining medals M fall as they are to the main table 501 and are stored in the main table 501.
- the medal M on the main table 501 is pushed by the sliding motion of the pusher part 510, similarly to the medal M on the sub table 511. That is, since the pusher 510 is placed on the main table 501 with no gap, when the pusher 510 is moved in the direction of unloading from the storage 720, the pusher wall 513 on the front of the pusher 510 is used to maintain the main table 501.
- Medal M on Bull 501 is pushed forward. Due to this pushing, some medals M on the main table 501 fall. Of the dropped medals M, the medals M that have fallen into the medal drop groove from the player side end (referred to as the front end 501a (see FIG. 4)) are paid out to the player, and other medals M such as the main table 501
- the medals M that fall from both sides (referred to as side end 501b) are stocked in a predetermined storage section in the station section ST.
- the station unit ST according to the present embodiment
- the medal movement simulation effect production unit 900 is provided.
- the medal movement simulation performance unit 900 has a plurality of light emitting units (LEDs 920 to be described later) arranged in the vicinity of the medal insertion unit 100 and the force near the medal insertion unit 100. By illuminating sequentially from the 100 side to the medal discharge unit 330, it simulates the movement of the medals M inserted into the medal insertion mechanism 100. At this time, the route on which the medal M actually moves and the route simulated by the performance need not be the same or close to each other.
- LEDs 920 light emitting units
- the medal M inserted from the medal insertion mechanism 100 is temporarily stored in the medal storage unit 310 in the lift-up hopper 300.
- the medal M stocked in the medal storage section 310 is lifted up by the lift-up section 320 and set in advance.
- the lift-up hopper 300 discharges the medal M set in the medal discharge unit 330 in advance to the play field 500 according to the control from the control unit 600.
- the medal M inserted by the player and the medal M actually inserted into the play field 500 are different medals.
- the medal movement pseudo-production unit 900 inserts the medal M into the medal insertion mechanism 100
- the medal insertion mechanism 100 side force is arranged according to the control from the control unit 600. Turn on sequentially. At this time, the state in which the medal M inserted into the medal insertion mechanism 100 moves is controlled by controlling the timing at which the LED ED920 in the vicinity of the medal discharge unit 330 is turned on and the timing of discharging the medal M from the medal discharge unit 330.
- the medal movement simulation production unit 900 can produce a simulation.
- the station unit ST has a ball throwing mechanism 1800 on at least one side.
- the ball throwing mechanism 1800 has a configuration for throwing balls Bl and B2, which are spherical objects, which will be described later, into the play field 500, and has a ball throwing slope 1801 and a ball throwing position lottery mechanism 1810.
- the balls Bl and B2 are lottery objects for executing a bingo game described later.
- the ball throwing slope 1801 is configured to guide balls Bl and B2 thrown from a ball carrier 1520, which will be described later, to the ball throwing position lottery mechanism 1810 by gravity. Therefore, it is a descending slope.
- the ball throwing position lottery mechanism 1810 This is a structure for drawing lots on the play field 500 where 1 and B2 are inserted. In this manner, the balls B 1 and B 2 thrown into the ball carrier 1520 force station ST described later are thrown into the play field 500 via the ball throwing slope 1801 and the ball throwing position lottery mechanism 1810.
- the station unit ST has a ball transport mechanism 1900 on at least one side.
- the ball transport mechanism 1900 transports the balls Bl and B2 to the satellite lottery device 1000 when the balls Bl and B2 fall from the main table 501 in the play-fino red 500 to the medal drop groove provided on the front side thereof.
- And has a ball transport path 1040, a ball transport section 1910, and a ball transport section traveling slope 1901, which will be described later.
- the ball transport path 1040 is provided below the front end 501a, and guides the balls Bl and B2 dropped from the front end 50la to the ball transport unit 1910.
- the ball transport unit 1910 is configured to transport the balls Bl and B2 received via the ball transport path 1040 to the satellite lottery device 1 000, and travels on the ball transport unit travel slope 1901 in accordance with the control of the control unit 600. .
- the balls Bl and B 2 transported to the satellite lottery apparatus 1000 are delivered to a ball carrier 1520 (see FIG. 8) described later.
- the station section ST has a medal payout mechanism including a lift-up hopper 1020 and a medal payout section 1030. By driving this medal payout mechanism, the station section ST can receive a medal from the front end 501a. The same number of medals M as the number of medals M that have fallen into the dropping groove are discharged to the storage unit 101 of the medal insertion mechanism 100.
- a game screen of a game different from the pusher game such as a bingo game or a digital lottery game (slot game) is displayed.
- a slot game screen as shown in FIG. 6 is displayed on the display unit 700 and a slot game is executed as shown in FIG.
- the bingo game screen is displayed on the display unit 700 and the bingo game is executed.
- the slot game is a digital lottery game in which the control unit 600 in the station unit ST mainly draws digitally.
- the starting condition for this slot game is that the taper 515—1, 515-2, 515—3 provided on the diagonal tape of No. 512 and the taper of the pusher 510
- the medal M enters.
- the display unit 700 displays a slot game screen as shown in FIG. 6 during a period in which a bingo game, which will be described later, is not progressing, and a medal M is placed on any of the checkers 515_1, 515-2, and 515-3.
- the control unit 600 performs display control for rotating the three dice-shaped slots DS.
- the control unit 600 executes a predetermined lottery program, and determines whether the generated random number is won or lost in accordance with a predetermined winning table. Thereafter, when the winning combination is determined, the control unit 600 stops the rotation of the three dice-shaped slots DS so that the combination of symbols related to the winning combination is stopped and displayed on the display unit 700. I do.
- the small winning combination A that supplies three medals to the play field 500
- the small winning combination B that supplies eight medals to the play field 500
- the play field 500 Ball supply role to supply the ball B1
- normal bonus role to supply 30 medals to the play field 500
- bonuses a number of bonuses, a probabilistic bonus, a direct satellite role that directly supplies the ball B 1 to the satellite lottery device 1000, and a direct center role that directly supplies the ball B1 to the center lottery device 2000.
- the winning probability for each role is set to decrease in this order.
- what kind of combination is prepared and what winning probability is set for each combination is arbitrary. For example, it may be configured to give various benefits to the player, such as paying out the medal M directly to the player.
- the control unit 600 which is a supply lottery unit, functions as a supply lottery means, and determines whether or not to win the ball supply combination, thereby supplying the ball B1 to the play field 500. A lottery to determine whether or not to do.
- a ball supply command is output from the control unit 600 to a control unit (not shown) of the satellite lottery apparatus 1000.
- the control unit of the satellite lottery apparatus 1000 passes the Bonore B 1 to the Bonore carrier 1520 from the Bonole supply mechanism 1300, and the ball carrier 1520 is placed on the outer periphery of the annular ball transport path 1500, as will be described later.
- the ball carrier 1520 force is also transferred to the ball throwing mechanism 180 0 of the station section ST, and the ball B1 is supplied to the ball throwing mechanism 1800 force play field 500.
- the ball B2 is supplied to the play field 500 only when a specific line bingo is established on a bingo game bingo card, which will be described later.
- the configuration and operation related to the ball supply at this time are almost the same as the case of the ball B1 except that the ball supply mechanism 1300 delivers the Bonole B2 to the Bonole supply ⁇ 1520 with an additional 1J Bonore supply mechanism 1400.
- the component for supplying the balls Bl and B2 to the play field 500 in this way constitutes the deformed object supply unit that functions as the deformed object supply means.
- the bingo game is a physical lottery game that proceeds by physical lottery using two types of balls Bl and B2 and the satellite lottery device 1000, and is controlled by a control unit (not shown) and a station unit ST in the satellite lottery device 1000 described later. Proceed with part 600.
- the control unit of the satellite lottery apparatus 1000 mainly controls the lottery that determines the winning bingo numbers of the bingo game, and controls the station units ST belonging to the satellite unit SA including the satellite lottery apparatus 1000.
- Section 600 is mainly responsible for the control of the production of bingo games and the determination of bingo establishment.
- a physical lottery is performed in which one winning bingo number (winning object) is selected from a plurality of different bingo numbers (lottery objects) by moving the balls Bl and B2 with the satellite lottery apparatus 1000. Do.
- one winning bingo number is selected from among the bingo numbers “1” to “9”.
- the array information of the bingo card in which the bingo numbers “1” to “9” are arranged in a matrix is used as a control unit as an array information generation unit that functions as an array information generation unit of the station unit ST, for example. 600 is generated individually for each station ST.
- a bingo card image BC in which images of bingo numbers “1” to “9” (lottery target images) are arranged according to the arrangement information is displayed on the display unit 700 of each station unit ST as shown in FIG. .
- FIG. 6 is displayed on the display unit 700, and when the bingo game physical lottery starts, the bingo shown in FIG. For game screen.
- S Bingo card
- the image BC is displayed small at the top of the slot game screen as shown in FIG. Therefore, the player can always confirm how much the winning bingo numbers are aligned with the bingo card of the station section ST that he / she plays.
- each bingo game performed at each station is normally performed independently for each station section ST.
- the winning bingo numbers are assigned only to the one station part ST. It is treated as a winning bingo number and is not treated as a winning bingo number in other station units ST.
- the bingo number to be won in the physical lottery performed when the balls Bl and B2 fall into the medal drop groove of one station ST is It is also treated as a winning bingo number for other station sections ST, not just for the station section ST.
- the other station units ST in the present embodiment are the remaining three station units ST belonging to the same satellite unit SA as the one station unit ST. That is, in this embodiment, all station units ST provided in the pusher game machine 1 are divided into a plurality of groups, and each gnole is defined as a satellite unit SA, and between station units ST belonging to the satellite unit SA, By satisfying the above event conditions, it is possible to create a situation where the games of each player are related to each other. As a result, for example, a game is created in which the players who play in the station unit ST belonging to the same satellite unit SA cooperate with each other and aim to acquire medals.
- FIG. 8 is a perspective view showing the main configuration of the satellite lottery apparatus 1000.
- the satellite lottery apparatus 1000 includes an outer turbine stage 1100, an inner bingo stage 1200, a bonole supply mechanism 1300 and 1400, a bonole transfer path 1500, a stage ball input mechanism 1600, and a support base 1700.
- the support base 1700 is a structure that forms the framework of the satellite lottery apparatus 1000, and supports other structures.
- the inner bingo stage 1200 is arranged in the upper center.
- the outer turbine stage 1100 is disposed so as to surround the inner bingo stage 1200.
- a ball transfer path 1500 is disposed so as to surround the outer turbine stage 1100.
- ball supply mechanisms 1300 and 1400 are provided.
- the ball supply mechanism 1300 is configured to supply a certain type of ball, for example, a non-metallic ball B1.
- the ball supply mechanism 1400 is configured to supply a seed different from the ball B1, for example, a metal ball B2.
- the difference between Bonore B1 and Bonole B2 may be defined by other factors, such as the color of the ball, regardless of whether it is metallic or non-metallic.
- the ball supply mechanism 1300 includes a ball supply unit 1301, a lift-up unit 1302, and a Bonole return path 1303.
- the ball supply unit 1301 is configured to supply a ball B1 to a ball carrier 1520 described later.
- the lift-up unit 1302 is configured to lift the ball B1 to the ball supply unit 1301.
- the ball return path 1303 is configured to be a path for returning a ball B1 supplied to an outer turbine stage 1100, which will be described later, to a lift-up unit 1302 in the ball supply mechanism 1300.
- the ball supply mechanism 1400 includes a ball supply unit 1401, a lift-up unit 1402, and a ball return path (not shown).
- the ball supply unit 1401 is configured to supply a ball B2 to a ball carrier 1520 described later.
- the lift-up unit 1402 is configured to lift the ball B2 to the ball supply unit 1401.
- a ball return path (not shown) is a path for returning a ball B2 supplied to an inner bingo stage 1200, which will be described later, to the lift-up unit 1402 in the second ball supply mechanism 1400.
- the ball carrier 1520 has a configuration for transporting the balls Bl and B 2 along the outer periphery of the annular ball transport path 1500.
- This ball carrier 1520 has a receiving portion made up of two bar-shaped members bent in a V-shape, and holds the balls Bl and B2.
- the ball carrier 1520 is fixed to a ring-shaped member 1550 provided along the ball conveyance path 1500. Accordingly, when the ring-shaped member rotates along the ball transport path 1500, the ball carrier 1520 moves along the ball transport path 1500.
- the ball transport path 1500 has a plurality of sensor units 1510 on the outer peripheral surface.
- the sensor unit 1150 is configured to detect whether or not the ball carrier 1520 exists in the immediate vicinity thereof.
- Information detected by the sensor unit 1510 is input, for example, to a control unit (not shown) as appropriate or in real time.
- This control unit identifies the position of the ball carrier 1520 based on the information sent from the sensor unit 1510, and controls the running and stopping of the ball carrier 1520 based on this. For example, when the ball B1 is supplied to the station unit ST shown in FIG. 4, the control unit stops the Bonore carrier 1520 at the position of the sensor unit 1510-1 based on information from the sensor unit 1510. This places the ball carrier 1520 on the extension of the ball throwing slope 1801.
- the sensor unit 1510 is on the outer peripheral surface of the ball transport path 1500, and is located at a position where the ball throwing slope 1801 is arranged in each station unit ST and a position where the ball transport unit traveling slope 1901 is arranged. Provided.
- the balls Bl and B2 thrown into the ball throwing slope 1801 are temporarily held by the stopper 1802 shown in FIG. Then, when the player presses the button 160 and the operation signal is sent to the control unit 600, the control unit 600 controls the drive so that the stopper 1802 falls to the exit side of the ball throwing slope 18001. As a result, the balls Bl and B2 stopped by the stopper 1802 roll down due to the inclination of the ball throwing slope 1801 and are thrown into the play field 500 via the ball throwing position lottery mechanism 1810. The balls Bl and B2 thrown into the play field 500 fall into the medal drop groove from the front end 501a of the main table 501 in the same manner as the medal M in the progress of the pusher game.
- the dropped balls Bl and B2 are set in the ball transport unit 1910 via the ball transport path 1040 described later as described above.
- the ball transport path 1040 has a ball receiving portion 1041 that receives only the balls Bl and B 2 and allows the medal M to pass therethrough. Further, the ball transport unit 1910 stands by at the ball discharge port 1043 of the ball transport path 1040 in a normal state.
- the ball transport unit 1910 is configured to transport the balls Bl and B2 to the satellite lottery apparatus 1000 as described above. When the balls Bl and B2 are set, the ball transport unit 1910 drives up the ball transport unit travel slope 1901 based on the control of the control unit (not shown) and moves to the upper end of the ball transport unit travel slope 1901. Ball carrier 1520 is waiting near the upper end of slope 1901.
- the ball transport unit 1910 moves to the upper end of the ball transport unit traveling slope 1901 and then passes the transported balls Bl and B2 to the Bonore carrier 1520. Note that the ball carrier 1520 to which the balls Bl and B2 have been handed is in a posture to hold it.
- the ball carrier 1520 moves to a position facing the stage ball throwing mechanism 1600 based on control from a control unit (not shown).
- the stage ball throwing mechanism 1600 has a saucer 1610 for throwing the ball B1 into the outer bingo stage 1100, and a saucer 1620 for throwing the ball B2 into the inner bingo stage 1200.
- the ball carrier 1520 moves to a position facing the tray 1610 or 1620 in accordance with the type of the held ball (B1, B2) based on the control from the control unit (not shown) described above.
- the trays 1610 and 1620 are lowered to a position facing the ball carrier 1520 when receiving a ball from the Bonole carrier 1520, and are raised to a position facing the ball insertion path 1110 and 1210 when a ball is received from the ball carrier 1520. To do. The ball is held until the ball is thrown in.
- the Bonore carrier 1520 travels along the ball transport path 1500 and then delivers the ball B1 to the tray 1610 in the stage ball throwing mechanism 1600.
- the tray 1610 that has received the ball B1 throws the held ball B1 into the ball throwing path 1110 when the player presses the button 160, for example.
- the thrown ball B1 is thrown into the outer turbine stage 1100 after obtaining acceleration according to the inclination and length of the ball throwing path 1110.
- the Bonore carrier 1520 travels along the ball transport path 1500 and then delivers the ball B2 to the tray 1620 in the stage ball input mechanism 1600. .
- the tray 1620 that has received the ball B2 receives the ball B2 that is being held at the timing when the player presses the button 160, for example. Input to 210.
- the thrown ball B2 is thrown into the inner bingo stage 1200 after obtaining an acceleration corresponding to the inclination and length of the ball throwing path 1210.
- the type of ball B1 delivered to the ball carrier 1520 is B1, for example, when the Bonole B1 is made of non-metal and the ball B2 is made of metal, the ball carrier 1 520 such as a metal sensor is used. It can detect by providing. Further, for example, when the balls B1 and B2 have different colors, the type of the delivered ball can be detected by providing a color sensor or the like on the ball carrier 1520. The detected ball type is sent to a control unit (not shown). Therefore, the ball carrier 1520 is controlled based on the type of ball notified to the control unit.
- the outer turbine stage 1100 has two or more holes (this is referred to as a winning spot 1101) having a diameter that allows the ball B1 to pass through, and rotates around the inner bingo stage 1200 at a predetermined cycle. is doing.
- a total of ten winning spots 1101 are provided, each of which is assigned with the bingo numbers “1” to “9” used in the bingo game and the right to start the lottery in the center lottery device 2000. It has been.
- the ball B1 thrown into the outer turbine stage 1100 goes around the outer turbine stage 1100 due to the acceleration obtained in the ball insertion path 1110 and the rotation of the outer turbine stage 1100 itself, and then enters any winning spot 1101.
- Information about which winning spot 1101 has entered the ball B1 is appropriately sent to a control unit (not shown).
- the control unit cooperates with the control unit 600 of the station unit ST that is the transportation source of the ball B1, and The bingo number assigned to the winning spot 1101 is regarded as the winning bingo number, and the bingo game proceeds.
- the ball B1 entering the winning spot 1101 is temporarily held at the entrance of the winning spot 1101 and then thrown into the ball return path 1303 provided below the outer bingo stage 1100 so that the player can check.
- the inner bingo stage 1200 has one or more winning spots 1201 having a diameter that allows the ball B2 to pass therethrough, and rotates at a predetermined cycle with the center portion as a rotation center.
- four winning spots 1201 each assigned two bingo numbers in “1” to “8” used in the bingo game, A total of five winning spots 1201 are provided, one winning spot 1201 to which the right to start a lottery on the selection device 2000 is assigned.
- the ball B2 thrown into the inner bingo stage 1200 goes around the inner bingo stage 1200 by the acceleration obtained in the ball throwing path 1210 and the rotation of the inner bingo stage 1200 itself, and then enters any winning spot 1201. Information about which winning spot 1201 has entered the ball B2 is appropriately sent to a control unit (not shown).
- the control unit When the ball B2 enters one of the winning spots 1201 to which a bingo number is assigned, the control unit cooperates with the control unit 600 of the station ST that is the transportation source of the ball B2, and so on.
- the bingo number assigned to 1201 is regarded as the winning bingo number, and the bingo game proceeds.
- the ball B2 that entered the winning spot 1201 is temporarily held at the entrance of the winning spot 1201 so that the player can confirm it, and then a ball return path (not shown) provided below the inner bingo stage 1200. It is thrown into.
- the satellite lottery apparatus 1000 When the balls Bl and B2 enter the winning spots 1101 and 1201 to which the right to start lottery in the center lottery apparatus 2000 is assigned, the satellite lottery apparatus 1000 The control unit (not shown) outputs a jackpot lottery start command to the control unit (not shown) of the center lottery device 2000 described later. Details of the jackpot lottery in the center lottery device 2000 will be described later.
- FIG. 9 is a partial perspective view in which the configurations of the play field 500 and its peripheral part are extracted.
- FIGS. 10A and 10B are explanatory diagrams for explaining the reciprocating motion of the pusher 510 in the play field 500.
- FIG. 10A and 10B are explanatory diagrams for explaining the reciprocating motion of the pusher 510 in the play field 500.
- the play field 500 includes a main table 501 that is a medal placement table, and a pusher portion 510 that is a medal pushing member that is slidably placed on the main table 501.
- the pusher unit 510 slides back and forth on the main table 501 so as to enter and exit a storage unit 720 provided below the display 701 of the display unit 700.
- 10A is a top view when the pusher portion 510 is most retracted into the storage portion 720.
- FIG. 10B is a top view when the pusher portion 510 protrudes most from the storage portion 720.
- the frame member 710 of the display unit 700 is in contact with the sub-table 511 that is the upper surface of the pusher unit 510. Therefore, the medal M stored on the sub-table 511 which is the upper surface of the pusher 510 is moved by the frame member 710 when the pusher 510 moves in the direction of entering the storage 720 (see FIG. 10B ⁇ FIG. 10A).
- the sub table 511 is pushed in the direction of the tilt table 512, and the medals M on the sub table 511 as a whole flow in the direction toward the tilt table 512. As a result, some medals M on the sub-table 511 existing in the vicinity of the tilt table 512 fall on the tilt table 512.
- the pusher portion 510 is placed on the main table 501 with no gap.
- “no gap” means that there is no gap larger than the width of the medal ⁇ . Therefore, the medal ⁇ ⁇ stored on the main table 501 is pushed forward on the front side of the pusher 510 when the pusher 510 moves in the direction of exiting the storage unit 720 (see FIG. 10 ⁇ ⁇ FIG. 10B).
- the main table 501 is pushed in the direction of the front end 501a, and the medal M on the main table 501 as a whole flows in the direction of the force toward the front end 501a.
- the medal M dropped from the side end 501b is stored in a predetermined storage section (may be hotspot) inside the station section ST.
- the medal M dropped from the front end 50 la is received below the front end 50 la, that is, received by the medal holder 1001 provided in the medal dropping groove.
- the medal holder 10 01 is used to transport the medal M to the lift-up hopper 1020 in the medal payout mechanism. Is connected to the medal transport route 1002. Further, the medal receiver 1001 is inclined toward the connecting portion with the medal transport path 1002. Therefore, the medal M received by the medal holder 1001 flows into the medal transport path 1002. Further, the medal transport path 1002 is inclined toward the storage portion 1021 in the lift-up hopper 1020 of the medal payout mechanism. For this reason, the medals M flowing into the medal transport path 1002 are continuously guided to the medal payout mechanism.
- the connecting portion between the medal receiver 1001 and the medal transport path 1002 is provided with a separating rod 1010 for blocking the balls Bl and B2, which will be described later, and the Bonole B1 and B2 enter the medal payout mechanism. It is structured like this.
- the medal payout mechanism is provided with a medal counter (not shown) for counting the number of medals M in addition to the lift-up hopper 1020 and the medal payout unit 1030 described above.
- This medal counter is provided, for example, at the entrance of the storage unit 1021 in the lift-up hopper 1020, and counts the number of medals M inserted into the storage unit 1021 from the medal transport path 1002.
- the number of medals M counted by the medal counter is notified to the control unit 600 in FIG.
- the control unit 600 drives the lift-up hopper 1020 based on the notified number of medals, thereby paying out the number of medals M from the medal paying unit 1 030 to the storage unit 101 in the medal insertion mechanism 100. .
- the lift-up hono 1020 has a hopper drive unit 1022 and a lift-up unit 1023.
- the medall M to be paid out is lifted up by operating the hopper drive unit 1022 based on control of the control unit 600 force.
- the tokens are paid out from a medal payout unit 1030 provided at the end of the lock unit 1023.
- the medal payout mechanism which is a payout unit including the medal receiving 1001 and the medanore transport path 1002, and the lift-up hopper 1020, the medal payout unit 1030, and the medal counter, passes from the front end 501a of the main table 501 to the medal drop groove. Functions as a means of paying out the dropped medal M to the player.
- the ball transport path 1040 is provided below the front end 50 la, that is, in the medal dropping groove.
- This ball transport path 1 040 includes a ball receiving unit 1041 that receives only the dropped balls Bl and B2 and allows the medal M to pass through; a ball stop unit 1042 that stops the ball received by the ball receiving unit 1041 until a predetermined condition is satisfied; And a discharge port 1043.
- the balls Bl and B2 received by the ball receiving portion 1041 are stopped by the ball stop portion 1042 until a predetermined timing and then discharged from the ball discharge port 1043.
- the balls Bl and B2 are set in the ball transport unit 1910 (see FIG. 4) waiting at the ball discharge port 1043.
- the station portion ST in FIG. 4 and the station portion ST in FIG. 5 or FIG. 9 have the same force configuration in which left and right are reversed for convenience of explanation.
- the main table 501 is provided with guide portions 530R and 530L for controlling the flow of the medal M and the balls B1 and B2.
- a guide part moving mechanism 540 for moving the guide parts 530R and 530L up and down with respect to the main table 501 is provided below the main table 501.
- the guide portions 530R and 530L include a ball guide plate 531 for controlling the flow of the balls Bl and B2, a medal guide plate 533 for controlling the flow of the medal M, a Bonore guide plate 531 and a medal guide plate 533, respectively. And a support portion 534 for supporting. Further, the ball guide plate 531 and the medal guide plate 533 are supported up and down by the support portion 534 so that a predetermined shape of the passage opening 532 is formed therebetween.
- the upper end of the medal guide plate 533 in the guide portions 530R and 530L is located at the same level or lower than the upper surface of the main table 501. That is, when the guide portions 530R and 530L are moved to the lower limit position, the medal guide plate 533 is stored below the main table 501. However, even in this case, the entire passage 532 between the medal guide plate 533 and the ball guide plate 531 is not blocked.
- the medal guide plate 533 is retracted below the main table 501, the medal guide plate 533 does not block the flow of the medal M on the main table 501, so that the medal M passes through the passage port 532. It can flow in any direction.
- the medal M can flow to the side end 501b side of the main table 501.
- there are more medals M force falling from the side end 501b for example, compared to the case where the guide portions 530R and 530L are moved to the upper limit position.
- the support part 534 The obstruction of the flow of medals M will be ignored for simplicity of explanation.
- the ball guide plate 531 protrudes on the main table 501, and the flow of the balls Bl and B2 is restricted by the ball guide plate 531. That is, the balls B1 and B2 are guided in the direction of the front end 501a so as not to fall from the side end 501b of the main table 501.
- the guide portions 530R and 530L are moved to the upper limit position, the upper end of the medal guide plate 533 in the guide portions 530R and 530L protrudes above the main table 501 in such a state. Since the guide plate 533 prevents the flow of the medal M on the main table 501, the flow direction of the medal M is limited to the direction of the front end 501a. As a result, the number of medals M falling from the side end 501b can be reduced as compared with, for example, the case where the guide portions 530R and 530L are moved to the lower limit position. However, the obstruction of the flow of the medal M by the support portion 534 is ignored for the sake of simplicity.
- the ball guide plate 531 protrudes on the main table 501, and thus the flow of the balls Bl and B2 is restricted by the ball guide plate 531. That is, the balls B1 and B2 are guided in the direction of the front end 501a so as not to fall from the side end 501b of the main table 501.
- the guide portions 530R and 530L by moving the guide portions 530R and 530L to the lower limit position, in other words, by storing the medal guide plate 533 of the guide portions 530R and 530L under the main table 501, While restricting the flow of the ball B1 in the direction of the front end 501a, the flow direction of the medal M can be made relatively free. As a result, among the medals M falling from the main table 501, the ratio of medals M falling from the side end 501b can be increased.
- the medal M can be restricted in the direction of the front end 501a.
- the flow of medals M can be concentrated in the direction of the front end 501a, many medals M can be dropped from the front end 501a, and the ratio of medals M falling from the side end 501b can be reduced. It becomes.
- FIG. 11 is a perspective view showing the medal insertion mechanism 100 in the present embodiment.
- FIG. 12 is a front view of the medal insertion mechanism 100.
- FIG. 13 is a top view of the medal insertion mechanism 100.
- FIG. 14 is a front perspective view of the medal insertion mechanism 100.
- the medal insertion mechanism 100 includes the horizontal region 21, the first inclined region 22 and the second inclined region 23 located on both sides of the horizontal region 21, and the first inclined region 22 located outside the first inclined region 22. Side structure 117 and a second side structure 118 located outside the second inclined region 23.
- the medal insertion mechanism 100 includes a storage unit 101 that stores a plurality of medals.
- the storage unit 101 forms a horizontal region 21 of the medal insertion mechanism 100.
- the medal insertion mechanism 100 further includes a first inclined wall that extends while inclining continuously upward from the first boundary region 102 in contact with the first side portion of the storage unit 101.
- the first inclined wall forms a first inclined region 22.
- the first inclined wall is composed of a first inclined wall lower region 104 and a first inclined wall upper region 106.
- the first boundary region 102 is composed of a curved surface.
- the medal insertion mechanism 100 further continuously inclines upward from the second boundary region 103 in contact with the second side portion of the storage portion 101 located on the opposite side of the first side portion. Includes a second sloping wall that extends.
- the second inclined wall forms a second inclined region 23.
- the second inclined wall is composed of a second inclined wall lower region 105 and a second inclined wall upper region 107.
- the second boundary region 103 is composed of a curved surface.
- the medal insertion mechanism 100 further includes a first medal insertion part 108 having a first medal insertion slot 108-1 at a position close to the first inclined wall, and a position close to the second inclined wall. And a second medal slot 109-1 having a second medal slot 109-1.
- the first boundary region 102, the first inclined wall lower region 104, the first inclined wall upper region 106, and the first medal insertion unit 108 are the first inclined region 22 of the medal insertion mechanism 100.
- the second boundary area 103, the second inclined wall lower area 105, the second inclined wall upper area 107, and the second medal insertion section 109 are the second inclined area of the medal insertion mechanism 100. Form 23.
- the first medal slot 108 further includes a first mounting flange 110.
- the first mounting flange 110 extends from a part of the first boundary region 102 to one of the reservoirs 101. Over the department Extend.
- the second medal slot 109 further has a second mounting flange 111, and this second mounting flange 111 extends from a part of the second boundary region 103 to a part of the storage part 101. To do. As shown in FIG. 13, the first mounting flange 110 and the second mounting flange 111 extending on the storage portion 101 have corner portions that are greatly rounded.
- the first mounting flange 110 and the second mounting flange 111 define a medal storage area in which the medal M is stored on the storage unit 101.
- the first mounting flange 110 and the second mounting flange 111 are separated from each other, and the medal M is supplied from the medal supply side 119 between the two flanges 110 and 111.
- the supplied medal M is constrained by the rounded corners of the first mounting flange 110 and the second mounting flange 111.
- the first medal restraint plate for preventing the medal M supplied from the storage unit 101 to the player's front side from being stored on the side opposite to the medal supply side 119 of the storage unit 101. 11 2 is provided.
- a first guide 113 is formed at the boundary between the first inclined wall lower region 104 and the first inclined wall upper region 106.
- the first guide portion 113 is configured to lock a medal that slides down the first inclined wall upper region 106 and slide it into the first medal slot 108-1 along the first guide portion.
- the first guide portion 113 includes a first step 113 formed at the boundary between the first inclined wall lower region 104 and the first inclined wall upper region 106.
- the first step 113 extends while descending linearly toward the first medal slot 108-1.
- the first inclined wall upper region 106 has at least one protrusion formed so as to reduce friction with the medal M that slides in along the first guide portion 113.
- the first inclined wall upper region 106 is spaced upward from the first guide 113 by a distance smaller than the diameter of the medal M, and is substantially parallel to the direction in which the first guide 113 extends. It has at least one ridge-shaped protrusion 115 extending. Specifically, as shown in the drawing, a plurality of ridge line-shaped protrusions 115 are formed.
- a second guide portion 114 is formed at the boundary between the second inclined wall lower region 105 and the second inclined wall upper region 107.
- the second guide portion 114 is configured to lock a medal sliding down the second inclined wall upper region 107 and slide it into the second medal slot 109-1 along the second guide portion.
- the second guide part 114 is connected to the second inclined wall lower region 105 and the second inclined part.
- the second step 114 is formed at the boundary with the oblique wall upper region 107.
- the second step 114 is extended while descending linearly toward the second medal slot 109-1.
- the second inclined wall upper region 107 has at least one protrusion formed so as to reduce friction with the medal M that slides in along the second guide portion 114.
- the second inclined wall upper region 107 is spaced upward from the second guide portion 114 by a distance smaller than the diameter of the medal M, and extends substantially parallel to the direction in which the second guide portion 114 extends.
- at least one ridge-shaped protrusion 116 is formed. Specifically, as shown in the figure, a plurality of ridge line-shaped protrusions 116 are formed.
- the outer upper end portion of the first inclined wall upper region 106 is coupled to the first side structure 117.
- the first side structure 117 has a modified L-shaped cross-sectional shape and includes a horizontal upper part, a vertical wall part, and a horizontal lower part.
- the horizontal upper part continuously extends outward from the outer upper end of the first inclined wall upper region 106.
- the vertical wall extends vertically downward from the outer edge of the horizontal upper part.
- the horizontal lower portion extends inward from the lower end of the vertical wall portion.
- An operation handle in a control system for controlling the position and orientation of the discharge end portion of the medal discharge path 400 is attached to the horizontal upper part, and the player operates the operation handle to control the position of the medal discharge path 400. Control the position and orientation of the discharge end.
- the horizontal lower part serves as a mounting flange for mounting the medal insertion mechanism 100 to the casing 800 of the station unit ST.
- the outer upper end of the second inclined wall upper region 107 is coupled to the second side structure 118.
- the second side structure 118 has a deformed L-shaped cross-sectional shape and includes a horizontal upper part, a vertical wall part, and a horizontal lower part.
- the horizontal upper part continuously extends outward from the outer upper end of the second inclined wall upper area 107.
- the vertical wall extends vertically downward from the outer edge of the horizontal upper part.
- the horizontal lower portion extends inward from the lower end of the vertical wall portion.
- An operation handle in a control system for controlling the position and orientation of the discharge end portion of the medal discharge path 400 is attached to the horizontal upper part, and the player operates the operation handle to control the position of the medal discharge path 400. Control the position and orientation of the discharge end.
- the horizontal lower part serves as a mounting flange for mounting the medal insertion mechanism 100 to the casing 800 of the station unit ST.
- the first medal slot 108-1 of the first medal slot 108-1 and the second medal slot 109-1 of the second medal slot 109 contain only one medal M. Have the possible dimensions. If multiple medals M enter the first medal slot 108-1 or the second medal slot 109-1 at the same time, the medal M is jammed in the first medal slot 108 or the second medal slot 109. This is to surely prevent this.
- the medal insertion mechanism 100 described above has a generally symmetric shape and structure with respect to an intermediate position between the first and second side portions.
- FIG. 15 is a partially exploded view of the medal insertion mechanism 100.
- the internal structure of the second medal insertion unit 109 will be described below by taking the second medal insertion unit 109 as an example.
- the second medal insertion portion 109 communicates with the second guide portion 114, that is, the second medal insertion port 109-1 adjacent to the end portion of the second step portion 114 and the end portion of the second step portion 114.
- the medal insertion path 109-7, the medal drop hole 109-8 communicating with the medal insertion path 109-7, the medal insertion path 109-7, and the medal insertion path 109-7 are defined on both sides. 1 medal guide plate 109-5 and second medal guide plate 109-6.
- the medal insertion path 109-7 is formed so as to guide the medal M inserted through the second medal insertion port 109-1 to the medal dropping hole 109-8.
- the second medal slot 109 has a first intermediate plate 109-3 having a first roller 109-4.
- the first intermediate plate 109-3 is attached to the first medal guide plate 109-5 and the second medal guide plate 109-6.
- the first roller 109 _4 is positioned on the medal drop hole 109-8, so that the medal M force that has passed through the medal insertion path 109-7 and the first roller when it reaches the medal drop hole 109-8. It touches 109-4, and medal M is pushed down slightly and falls from medal drop hole 109-8.
- the dropped medal M reaches the lift-up hopper 300 via the medal transport path 200 shown in FIG. Be transported.
- the second medal insertion unit 109 further includes a first medal insertion unit cover 109-2.
- the first medal slot cover 109-2 covers the first intermediate plate 109_3. Further, the first medal slot cover 109-2 is formed integrally with the second mounting flange 111, and the second mounting flange 111 is fixed to the storage section 101, so that The position of the intermediate plate 109_3 is fixed.
- the player extends the first inclined wall lower region 104 and the first inclined wall upper portion extending the medal M stored in the storage unit 101 while continuously inclining upward from the storage unit 101.
- the medal M is caused by gravity by the first inclined wall upper region 106 and
- the second inclined wall upper region 107 is slid down and is locked to the first step portion 113 constituting the first guide portion 113 and the second step portion 114 constituting the second guide portion 114.
- the first step 113 and the second step 114 are configured to slide the medal M into the first medal slot 108-1 and the second medal slot 109-1 by gravity. .
- the player has a first sloping wall lower region 104, a first sloping wall upper region 106, and a second sloping wall lower portion extending continuously from the storage portion 101 while tilting upward.
- the medal M is moved by gravity to the upper area 106 of the first inclined wall 106 and the second inclined wall.
- the medal M After sliding down the upper region 107 and being locked to the first step 113 and the second step 114, the medal M then moves along the first step 113 and the second step 114. Slide into the first medal slot 108_1 and the second medal slot 109_1 of the first slot by gravity.
- the medal M rolls along the first step portion 113 and the second step portion 114, the medal M slides against the first inclined wall upper region 106 and the second inclined wall upper region 107. Id. That is, the player moves the medal M from the storage unit 101 to the first inclined wall lower region 104 and the first inclined wall upper region 106, and the second inclined wall lower region 105 and the second inclined wall upper region 107. Slide me up along the line and release your hand. Compared to the conventional work of carrying the medal M by hand to the medal slot and putting it in the medal slot, The movement of the person's hand is easy. For this reason, even if the player continuously inserts the medal M for a long time, the fatigue felt by the player can be greatly reduced.
- FIG. 16 is a perspective view showing the configuration of the center lottery apparatus 2000.
- FIG. 17 is a front view showing the configuration of the center lottery apparatus 2000.
- the center lottery device 2000 mainly feeds a large disk-shaped rotary conveyance device 2100, a device support base 2200 that supports the rotary conveyance device 2100 from the lower side in the vertical direction, a display device 230, and a large lottery ball 2400.
- a large ball throwing mechanism 2500 and a transport slope 2600 for transporting the large lottery balls 2400 thrown from the large ball throwing mechanism 2500 to the rotary transport device 2100 are provided.
- the rotary conveyance device 2100 is rotationally driven in the counterclockwise direction in the figure by a driving device (not shown) provided on the device support 2200. With this driving device, the rotary conveyance device 2100 always rotates at a constant cycle after the pusher game machine 1 is turned on.
- a plurality of holding spaces F having an internal space in which only one large lottery ball 2400 can be accommodated are formed in the outer peripheral region of the rotary transfer device 2100 along the outer peripheral direction.
- 20 holding spaces F are provided at equal intervals in the outer peripheral region of the rotary conveyance device 2100.
- Each holding space F rotates around the outer periphery of the rotary conveyance device 2100 by the rotation of the rotary conveyance device 2100.
- the rotation axis is inclined with respect to the vertical direction and the horizontal direction. Therefore, each holding space F moves around along a virtual plane inclined with respect to both the vertical plane and the horizontal plane.
- a large ball throwing mechanism 2500 is provided on the left side of the rotary conveyance device 2100 in the drawing.
- the large ball throwing mechanism 2500 mainly includes a ball collection port 2510 for receiving a large lottery ball 2400 and a large lottery ball 2410 for receiving a ball collection port 2510. It is made up of the Bonole holding rod 2520 that holds 00 and the case 2530.
- the large lottery ball 2400 that has entered the Bonore collection port 2510 passes through the inside of the case 2530 and is transported to its own weight (from here to the Bonole holding 2520 and stopped by the Bonole holding rod 2521 ⁇ .
- This ball stopper 2521 is It is driven between a ball holding position for stopping the large lottery ball 2400 and a ball releasing position for releasing the large lottery ball 2400 in accordance with the control of the control unit of the center lottery device 2000 (not shown).
- the ball stopper 2521 is positioned at the ball holding position, and the large lottery ball 2400 is held by the ball holding portion 2520.
- the ball stopper 2521 is mainly introduced by the ball holding portion 2521.
- the mechanism is configured.
- the slope surface is formed so that the large lottery ball 2400 can move adjacent to one or more holding spaces F including the holding space F existing at the lowest point portion of the holding space moving path.
- a total of 3 mm including the two holding spaces F adjacent to the holding space F exists.
- the large lottery ball 2400 is formed so as to be able to move adjacent to the holding space F.
- entry prevention fences 2601 and 2602 are provided on both sides of the space. It has been. These entrance prevention fences 2601 and 2602 make large lottery boxes on the slope surface.
- the monorail 2400 is prevented from moving over the entrance prevention fences 2601 and 2602 to the holding space moving path side of the rotary transfer device 2100.
- at least the slope surface portion facing the entry space is configured to incline toward the holding space moving path side of the rotary conveyance device 2100.
- the large lottery ball 2400 thrown from the large ball throwing mechanism 2500 gradually slows down as the pendulum moves on the transport slope 2600 around its lowest point, and eventually the above slope surface
- the part moves from the entry space to the holding space moving path side of the rotary conveyance device 2100 by its own weight due to the inclination toward the holding space moving path side in the portion.
- the large lottery ball 2400 enters the lottery opening of the holding space F that exists in the position facing the entry space in the holding space F that moves around by the rotation of the rotary conveyance device 2100.
- the lowest point of the conveyance slope 2600 is configured to be inclined most toward the rotary conveyance device 2100, and the larger lottery ball 2400 rotates closer to the lowest point of the conveyance slope 2600. It is easy to enter the holding space F of the transfer device 2100. Also, the transfer slope 2600 covers the entire end of the opposite side of the transfer slope 2600 so that the large lottery balls on the transfer slope 2600 do not fall on the opposite side (front side in the figure) to the holding space moving path side. A guide fence 2603 is also provided.
- a ball sensor 2101 for detecting that a large lottery ball 2400 has entered the holding space F is provided inside each holding space F of the rotary conveyance device 2100. Yes.
- Each ball sensor 2101 is connected to a control unit (not shown) of the center lottery apparatus 2000, and the detection signal is sent to the control unit.
- the control unit of the center lottery apparatus 2000 can grasp the force that the large lottery ball 2400 has entered in any holding space F.
- the large lottery ball 2400 on the transport slope 2600 When the large lottery ball 2400 on the transport slope 2600 is held in the holding space F, the large lottery ball moves counterclockwise in the drawing along the holding space moving path by the circular movement of the holding space F. It is rotated and conveyed in the rotation direction.
- the ball collection port 2510 of the large ball throwing mechanism 2500 is adjacent to the holding space moving path, and is disposed vertically above the ball holding unit 2520.
- the collection point where the ball collection port 2510 is arranged is 180 ° or more from the lowest point of the holding space moving path to the rotation direction of the rotary conveyance device 2100. It is provided in the lower range.
- the large lottery ball 2400 can be collected before entering the holding space F and before being rotated and rotated by about 180 °.
- the large lottery ball 2400 If it is rotated and transported over 180 °, the large lottery ball 2400 enters the holding space F near the lowest point of the holding space movement path and collects it when the jackpot lottery results come out. It will take unnecessary time before the next lottery. In other words, during the rotary transfer after the large lottery ball 2400 enters the holding space F, it can be expected to have an effect as a jackpot lottery effect. It is beneficial to do. However, if the effect of rotating transport is performed for a long period of time, the effect of rotating transport will diminish and the result of waiting for the next lottery using the large lottery ball 2400 may be undesirable. . Therefore, in the present embodiment, the large lottery ball 2400 is collected before entering the holding space F and before being rotated and conveyed by about 180 °.
- the large lottery ball 2400 if the large lottery ball 2400 enters the holding space F and immediately collects it, the effect of rotating conveyance cannot be obtained sufficiently.
- the large lottery ball 2400 can be rotated and conveyed by 90 ° or more. I like it.
- the large lottery Bonole 2400 in the holding space F is A moving mechanism that moves to the ball collection port 2510 only by its own weight is provided.
- the configuration of the moving mechanism will be described.
- FIG. 18 is an explanatory view showing a part of the rotary conveyance device 2100.
- the rotary conveyance device 2100 of the present embodiment includes a doughnut-shaped bottom plate 2110 that is fixedly disposed, and a rotating member 2120 that is disposed on the donut-shaped bottom plate 2110 and moves around.
- the rotating member 2120 moves around the donut-shaped bottom plate 2110 by a driving force of a driving mechanism (not shown).
- the rotating member 2120 includes a donut-shaped base 2121 and 20 partition members 21 21 arranged radially on the outer peripheral surface of the donut-shaped base 2121.
- the region forces surrounded mainly by the outer peripheral surface of the donut-shaped base 2121, the opposing surfaces of the two partition members 2121 adjacent to each other, and the upper surface of the donut-shaped bottom plate 2110 are each the holding space F and Become. Therefore, the rotating member When 2120 moves around, holding space F moves on the upper surface of donut-shaped bottom plate 2110.
- the donut-shaped bottom plate 2110 has a notch 2111 as shown in FIG. Below the notch 2111, a ball collection port 2510 of the large ball throwing mechanism 2500 is positioned. Therefore, when the holding space F is moved by the circular movement of the rotating member 2120 and the holding space F holding the large lottery ball 2400 reaches the position facing the notch 2111, the large lottery ball 2400 is removed from the notch 2111. It falls only by its own weight, and falls from the ball collection port 2510 to the communication passage 2540 provided in the case 2530. Since the bottom surface of the communication passage 2540 is inclined toward the ball holding portion 2520, the large lottery balls 2400 that have fallen into the communication passage 2540 are conveyed to the ball holding portion 2520 through the communication passage 2540 by their own weight.
- the moving mechanism for moving the large lottery ball 2400 in the holding space F to the ball collecting port 2510 is not limited to this, and the holding space is located when the holding space F is at a position facing the collection point. Any configuration may be used as long as the large lottery ball 2400 in F is moved to the ball collection port 2510 only by its own weight or by using the rotational driving force of the rotary transfer device 2100.
- the large lottery ball 2400 when using the rotational driving force of the rotary conveying device 2100, when the holding space F holding the large lottery ball 2400 rotates and moves to the collection point and faces the ball collection port, the large lottery ball 2400 And a mechanism using an abutting member that abuts. That is, a ball collection port is arranged outside the outer peripheral surface of the holding space moving path, and the large lottery ball 2400 being rotated and transported is hung by the abutment member I and pushed out of the outer peripheral surface of the holding space moving path.
- FIG. 2 is an explanatory diagram schematically showing the correspondence between the 20 holding spaces F and the prizes.
- each holding space F is assigned a prize, and among these awards, in this embodiment, the medal supply prize M100, M500, the chance pocket prize CP, the jackpot prize JP1, JP2 It is included.
- the center lottery device 2000 performs a physical lottery (jackpot lottery) to determine which holding space F the large lottery ball 2400 enters.
- the medal supply prizes M100 and M500 are prizes for supplying 100 medals M and 500 medals M respectively to the play field 500 of the station section ST that satisfies the start condition of the jackpot lottery. It should be noted that the number of medals supplied by winning this medal supply award M100, M500 is preferably less than the initial value of the number of jackpots stored.
- the chance pocket award CP is treated as an award for increasing the amount of payout.
- this is a prize that cumulatively increases the jackpot storage number (payout amount) of the second jackpot award described later by a predetermined amount (for example, 100).
- the Chance Pocket Award CP is also a medal supply award.
- jackpot prizes JP1 and JP2 There are two types of jackpot prizes JP1 and JP2 in this embodiment.
- the first stored number data (payout amount data) indicating the first jackpot stored number is stored in a RAM (storage unit) of a control unit (not shown) of the center lottery apparatus 2000.
- the count value of the first stored number data, that is, the first jackpot stored number is a predetermined initial value (for example, 500). Is cumulatively added (for example, 0.03).
- medals M corresponding to the second jackpot reserve number (payout amount) are supplied (paid out) to the play field 500 of the station section ST that satisfies the jackpot lottery start condition.
- awards. 1st storage showing number of 2nd jackpot storage The remaining number data (payout amount data) is also stored in a RAM (storage unit) of a control unit (not shown) of the center lottery apparatus 2000.
- the count value of the second stored number data, that is, the first jackpot stored number is a predetermined amount (for example, 500) each time the chance pocket prize CP is won in the past jackpot lottery, for example, 500. (100 sheets) is cumulatively added.
- a control unit which is a payout amount increasing unit (not shown) of the center lottery apparatus 2000 that performs these addition functions, functions as a payout amount increasing unit.
- the number of medals supplied to the play field 500 when winning the jackpot prizes JP1 and JP2, that is, the number of jackpots stored, is supplied to the play field 500 at a time in the pusher game machine 1. It is set to be the largest number of medals that can be played. Therefore, a player who plays with the pusher game machine 1 usually plays aiming to win these jackpot awards.
- the display device 2300 of the center lottery device 2000 won the current jackpot storage number, that is, the jackpot award JP1, JP2 during the period when the jackpot lottery was not performed, as shown in FIG. Then, a screen showing the number of medals to be supplied to the play field 500 is displayed. On the other hand, during the jackpot lottery, the jackpot lottery effect screen is displayed.
- the device support 2200 itself is rotated around a rotation axis parallel to the vertical direction by a driving device (not shown) to satisfy the jackpot lottery start condition.
- the center lottery unit 2000 is driven to face the satellite unit SA to which the station unit ST belongs. Thereafter, the jackpot lottery proceeds. Details of the jackpot lottery will be described later.
- FIG. 20 is a block diagram showing the main configuration of the game control system of the pusher game machine 1. As shown in FIG. For convenience of explanation, this block diagram is omitted because of the configuration of a drive control system or the like for driving each part as the game progresses.
- the configuration of the game control system in this embodiment is mainly composed of the control unit 6 of the station unit ST. 00, a control unit 610 of the satellite lottery apparatus 1000, and a control unit 620 of the center lottery apparatus 2000.
- the control unit 600 of the station ST is mainly responsible for the overall progress control of the slot game and bingo game described above, and the control unit 610 of the satellite lottery apparatus 1000 is mainly used for the physical lottery control of the bingo game described above.
- the control unit 620 of the center lottery apparatus 2000 is mainly responsible for the control of the jackpot lottery described above.
- the control unit 600 of the station unit ST mainly includes a control device 601, a ROM 602, a RAM 603, and a communication device 604.
- the control device 601 executes various programs stored in the ROM 602 and performs various controls.
- the ROM 602 stores various control execution programs to be performed by the control unit 600 of the station unit ST.
- the RAM 603 temporarily stores various data or information.
- the communication device 604 is for data communication with the control unit 610 of the satellite lottery device 1000.
- the control unit 610 of the satellite lottery apparatus 1000 mainly includes a control device 611, a ROM 612, a RAM 613, a station side communication device 614, and a center side communication device 615.
- the control device 611 executes various programs stored in the ROM 612 and performs various controls.
- the ROM 612 stores various control execution programs to be performed by the control unit 610 of the satellite lottery apparatus 1000.
- the RAM 613 temporarily stores various data or information.
- the station side communication device 614 performs data communication with the control unit 600 of each station unit ST belonging to the satellite unit SA.
- the center side communication device 615 is used for data communication with the control unit 620 of the center lottery device 2000.
- control unit 600 of the station unit ST the control unit 610 of the satellite lottery apparatus 1000, and the control unit 620 of the center lottery apparatus 2000 are connected in series.
- the control units 600, 610, and 620 may be connected in parallel (star type or bus type).
- FIG. 21 is a flowchart showing the flow of the slot game in the present embodiment.
- the player inserts the medal M on the storage unit 101 into the first medal slot 108-1 and the second medal slot 109-1 as described above, it is directed toward the sub-table 511 in the play field.
- Medal M is sent out.
- some of the medals M from which the medals M on the sub-table 511 have dropped fall into one of the checkers 515-1, 515-2, 515-3 provided on the tilting table 512.
- the detected signal power is sent to the control device 601 of the control unit 600 of the ST unit ST, and the control device 601 is a checker 515-1, Grasping that medal M has entered either 515—2 or 515 3 (Sl).
- the control device 601 determines that the slot game start condition is satisfied, executes the lottery program stored in the ROM 602, and uses the generated random number for any of the above-mentioned roles in light of a predetermined winning table.
- a digital lottery is performed to determine whether the player has won or lost (S2).
- the control device 601 performs display control for rotating the three dice slots DS of the slot game screen shown in FIG.
- the display control is performed to stop the rotation of the three dice slots DS so that the combination of symbols related to the winning combination is stopped and displayed on the display unit 700 (S3).
- the control device 601 ends the slot game as it is.
- the control device 601 controls the medal supply unit functioning as a medal supply means (not shown) to supply three medals to the play field 500 ( S6).
- This medal supply unit may share the above-described mechanism in which the medal M is sent to the sub-table 511 in the play field when the player inserts the medal M on the storage unit 101. May be provided separately. When provided separately, the same structure as this mechanism can be adopted. That is, the medal M can be lifted up to the supply end of the medal discharge path by the lift-up hopper, and supplied from the discharge end onto the play field 500 through the medal discharge path.
- the control device 601 controls the medal supply unit to supply eight medals to the play field 500 (S8). [0107] When the normal bonus combination is won (S9), the control device 601 controls the medal supply unit to supply 30 medals to the play field 500 (S10_l). Further, the control device 601 changes the setting so as to use the normal winning table in which the winning probability is set lower as the winning table used in the subsequent digital lottery (S10_2).
- the control device 601 controls the medal supply unit to supply 30 medals to the play field 500 (S12_l). Further, the control device 601 changes the setting so as to use a high-probability winning table set with a high winning probability as the winning table used in the subsequent digital lottery (S12-2).
- control device 601 is a satellite lottery device.
- the ball supply command for the ball B1 is output to the control device 611 of the control unit 610 in 1000.
- the ball B 1 is delivered from the ball supply mechanism 1300 to the ball carrier 1520, and the ball B1 is delivered from the ball carrier 1520 to the ball throwing mechanism 1800 of the station ST where the ball supply combination is won.
- Ball throwing mechanism 1 Ball B1 delivered to 800 is temporarily held by stopper 1802 of ball throwing slope 1801. Then, when the player presses the button 160 and the control device 601 receives the operation signal, the control device 601 releases the ball B1 from the stopper 1802, and the ball B1 rolls on the ball throwing slope 1801. The ball is dropped and passed to the ball throwing position lottery mechanism 1810.
- This ball throwing position lottery mechanism 1810 draws the ball supply position on the play field 500, and the ball B1 is supplied to either the back side or the near side on the main table 501 (S14). ).
- This ball throwing position lottery mechanism 1810 has a configuration in which a ball receiving port through which the balls Bl and B2 can pass is reciprocated between the front side and the back side around the lowest point of the ball throwing slope 1801. .
- the ball enters the ball receiving port, the ball is supplied to the front side of the main table 501, and when the ball does not enter the ball receiving port, the ball is supplied to the back side of the main table 501.
- the movement distance to the medal drop groove is shorter than when supplied to the back side of the main table 501, so the ball B1 is dropped into the medal drop groove.
- the control device 601 When the satellite combination is directly won (S15), the control device 601 outputs a ball supply command for the ball B1 to the control device 611 of the control unit 610 in the satellite lottery device 1000.
- the Bonore B1 is delivered from the Bonole supply mechanism 1300 to the Bonore carrier 1520. Thereafter, the Bonore carrier 1520 moves to a position facing the stage ball throwing mechanism 1600 and delivers the ball B 1 to the tray 1610 of the stage ball throwing mechanism 1600. Then, when the player presses the button 160 and the control device 601 receives the operation signal, the control device 601 outputs a ball insertion command to the control device 611 of the control unit 610 in the satellite lottery device 100 0.
- the ball B1 is thrown into the outer bingo stage 1100 via the ball throwing path 1110, and physical lottery is performed. If the direct satellite combination is won, the control device 601 starts a bingo game, which will be described later, assuming that the bingo game start condition is satisfied (S20).
- the control device 601 makes a jackpot to the control device 621 of the control unit 620 in the center lottery device 2000 via the control unit 610 of the satellite lottery device 1000.
- a lottery start command is output.
- jackpot lottery is started in the center lottery device 2000 described later (S40).
- FIG. 22 is a flowchart showing the flow of the bingo game in the present embodiment.
- the station The control device 601 of the control unit 600 in the unit ST executes a bingo execution program stored in the ROM 602 and starts a bingo game. Specifically, the control device 601 first switches the slot game screen shown in FIG. 6 displayed on the display unit 700 to the bingo game screen shown in FIG. 7 and performs display control thereof (S22). .
- the bingo card image BC displayed on the bingo game screen is , Based on sequence information generated at an arbitrary timing in the past.
- the timing for generating the array information includes when the pusher game machine 1 is turned on, when not shown, when the reset button is operated, when a bingo is established in a past bingo game, and the like.
- a case will be described as an example where new sequence information is generated when bingo is established in the bingo game, and this is replaced with past sequence information.
- the control device 601 when the bingo game start condition is satisfied, the control device 601 outputs a bingo start command to the control device 611 of the control unit 610 in the satellite lottery device 1000. As a result, the control device 611 moves the ball carrier 1520 to a position facing the exit of the ball transporting portion traveling slope 1901 in the ball transporting mechanism 1900 of the station unit ST that has received the command. In addition, the control device 601 controls the ball transport mechanism 1900 to transport the balls Bl and B2 that have fallen into the medal drop groove from the ball transport unit travel slope 1901 to the ball carrier 1520.
- the control device 611 of the control unit 610 in the satellite lottery device 1000 moves the ball carrier 1520 to the position opposite to the stage ball insertion mechanism 1600, and depending on the type of the balls Bl and B2, the stage ball The throwing mechanism 1600 is controlled so that the balls Bl and B2 are thrown into the outer bingo stage 1100 or the inner bingo stage 1200 (S23).
- the control unit 610 of the control unit 610 in the satellite lottery apparatus 1000 611 Displays the information indicating the bingo number assigned to it. It is output to the control device 601 of the control unit 600 in the station unit ST that satisfies the start condition of the Ngo game. Receiving this information, the control device 601 stores a bingo number related to the information as a winning bingo number in a winning bingo number storage area in the RAM 603 as a storage unit that functions as a storage unit. In this winning bingo number storage area, the winning bingo numbers after the generation of the sequence information corresponding to the station section ST is accumulated.
- the control device 601 serving as a determination unit functions as a determination unit, and all the winning bingo numbers stored in the selected bingo number storage area and the array stored in the array information storage area in the RAM 603. All the winning bingo numbers on the card array (lottery target IJ) that is an array of bingo numbers from “1” to “9” on the bingo card indicated by the array information.
- a bingo determination is made as to whether or not is a specific sequence (S25).
- the specific arrangement in the present embodiment is vertical, horizontal, and diagonal rows on a 3 ⁇ 3 bingo card, for a total of eight rows.
- each specific arrangement has a medal payout prize for paying a predetermined number of medals to the play field 500, a normal ball supply prize for supplying the ball B1 to the play field 500, and a ball B2 to the play field 500.
- the special ball supply prize to be supplied is assigned.
- the control device 601 determines that the specific arrangement is not satisfied, that is, if it is determined that bingo is not established (No in S25), the bingo game is terminated.
- the control device 601 determines that the bingo has been established (Yes in S25), and if the specific arrangement is related to the special ball supply award (Yes in S26), in the slot game described above A predetermined number of medals M are supplied onto the play field 500 in the same way as when a medal supplier such as a small winning combination A is elected (S27-1), and the ball supplier is elected in the above-mentioned slot game.
- the ball B2 is supplied onto the play field 500 in the same manner as in the case (S27_2).
- the control device 601 determines that the medal supply combination such as the small winning combination A or the like is won in the slot game described above. In the same way as above, a predetermined number of medals M are supplied onto the play field 500 (S29-1), and balls are supplied in the slot game described above. Supply the ball Bl onto the play field 500 in the same way as when the winning combination is won (S 29-2) 0
- the control device 601 wins a medal player such as the small winning combination A in the slot game described above.
- a predetermined number of medals M are supplied onto the play field 500 in the same manner as in the case (S30).
- the number of medals M supplied onto the play field 500 when the bingo is established may be different for each prize related to the establishment of the bingo, or may be the same.
- control device 601 that is the sequence information generation unit that has performed processing after the establishment of bingo functions as sequence information generation means, and executes the sequence information generation program stored in the ROM 602. New sequence information is generated, the sequence information stored in the sequence information storage area of the RAM 603 is replaced with the newly generated sequence information, and the sequence information is reset (S31).
- FIG. 1 is a flowchart showing the flow of jackpot lottery in this embodiment.
- the jackpot lottery in this embodiment is a physical lottery in the satellite lottery device 1000 in the bingo game described above, and the jackpot lottery in the center lottery device 2000.
- the right to start ⁇ If the ball Bl, B2 enters the winning spot to which the IJ is assigned, and the jackpot lottery start condition is met (S41)
- the control device 621 of the control unit 620 in the center lottery device 2000 executes a jackpot execution program stored in the ROM 622 and starts jackpot lottery. Specifically, the control device 621 first rotates the device support 2200 so that the center lottery device 2000 faces the satellite unit SA to which the station unit ST that satisfies the jackpot lottery start condition belongs.
- the drive is controlled as follows.
- a jackpot lottery effect screen is displayed on the display device 2300, and this is controlled.
- the operation signal is input to the control device 601 of the control unit 600 in the station unit ST.
- the control device 601 outputs a ball throwing instruction to the control device 621 of the control unit 620 in the center lottery device 2000 via the control unit 610 of the satellite lottery device 1000.
- the controller 621 outputs a ball throwing command to the large ball throwing mechanism 2500.
- the large ball throwing mechanism 2500 moves the ball stopper 2521 to the ball release position and throws the large lottery ball 2400 held in the ball holding part 2520 into the transport slope 2600. (S43).
- the large lottery ball 2400 moves like a pendulum on the conveyance slope 2600 around its lowest point, and finally enters one of the holding spaces F of the rotary conveyance device 2100.
- the signal is sent to the control device 621 of the control unit 620 in the center lottery device 2000.
- the control device 621 recognizes the holding space F containing the large lottery ball 2400, Si! .
- the controller 621 as the payout processing unit performs the payout process.
- the first storage number data as the payout amount data is read from the RAM 623 serving as a storage unit functioning as a storage means, and the medal M corresponding to the number indicated by the count value of the data is read in the jackpot lottery.
- Processing for supplying to the play field 500 of the station unit ST that satisfies the start condition is performed (S45_l).
- a medal supply command is output from the control device 621 to the control device 601 of the control unit 600 in the station unit ST, and the medal M is played in the same manner as the normal medal supply processing described above under the control of the control device 601.
- the number of medals supplied when winning the 1st Jackpot Award JP1 is the medal insertion to all station sections ST after the first stored number data is reset to the initial value (eg 500). It is a large amount because it is a cumulative addition of a number corresponding to a part of the number (for example, 0.03). Therefore, in addition to the normal medal supply process described above, a process using an original medal supply mechanism may be used. In this case, the performance when winning the 1st Jackpot Award JP1 Even it is suitable. Further, the control device 621 resets the first stored number data stored in the RAM 623 to the initial value (S45-2).
- the control device 621 which is a payout processing unit uses the payout processing means.
- the second stored number data which is the payout amount data, is read from the RAM 623 serving as a storage unit functioning as a storage means, and the medal M corresponding to the number indicated by the count value of the data is used as the start condition for the jackpot lottery.
- the process for supplying to the play field 500 of the filled station section ST is performed (S47-1).
- the control device 621 outputs a medal supply command to the control device 601 of the control unit 600 in the station unit ST, and the medal M is played under the control of the control device 601 in the same manner as the normal medal supply process described above. It may be supplied to the field 500.
- the number of medals supplied when winning the 2nd Jackpot Award JP1 is the chance pocket prize CP in the jackpot lottery after the 2nd stored number data is reset to the initial value (eg 500).
- the control device 621 resets the second stored number data stored in the RAM 623 to the initial value (S47-2).
- the controller 621 which is the payout amount increasing unit, increases the payout amount. It functions as a means to cumulatively increase the count value (number of jackpots stored) stored in the RAM 623 by a predetermined amount (for example, 100). Processing is also performed (S49-2).
- the condition for increasing the payout for the first jackpot award JP1 is that a medal is inserted into one of the station sections ST as described above, and the condition for increasing the payout for the second jackpot award JP2 is as described above.
- winning the chance pocket prize CP in the jackpot lottery is as described above.
- the payout increase conditions for the jackpot prizes JP1, JP2 to be different from each other, it is possible to diversify the conditions for increasing the number of jackpots stored in the jackpot prizes JP1, JP2, Playability is improved.
- the chance pocket prize CP that can increase the number of jackpots stored in the second jackpot prize JP2 is included in the prize for jackpot lottery. If you win this chance pocket award CP, the amount of medals supplied (the amount you will pay out) will increase when you win the 2nd jackpot award in the subsequent jackpot lottery. Therefore, winning the Chance Pocket Award CP is beneficial to all players. In a conventional jackpot drawing that does not include such a prize, the player simply wanted not to win the jackpot prize in another person's jackpot drawing. In contrast, the presence of the chance pocket award CP as in the present embodiment allows the player to simply choose not to win the jackpot prize in another person's jackpot lottery, and the chance pocket prize in the jackpot lottery. I want you to win the CP. As a result, the player can be more interested in the jackpot lottery for players other than himself, and the gameability for players other than the player who performs the jackpot lottery can be improved. .
- the control device 621 is the satellite lottery device of the satellite portion SA to which the station ST belongs.
- an event start command is output to control device 611 of control unit 610.
- the control device 611 determines that the predetermined event condition is satisfied, and performs a physical lottery of a bingo game performed for any of the four station units ST belonging to the satellite unit SA during the subsequent predetermined event period.
- Event processing is performed so that the winning bingo numbers to be won are treated as winning bingo numbers in the other three station sections ST (S49-3).
- the control device 611 receives the winning bingo number won in the physical lottery of the satellite lottery device 1000 that is performed during a predetermined event period. Is output to the control device 601 of the control unit 600 in all station units ST belonging to the satellite unit SA.
- the control device 621 satisfies the jackpot lottery start condition.
- the medal supply command for supplying the number of medals corresponding to the type of the medal supply award M100, M500 is output to the control device 601 of the control unit 600 in the station unit ST.
- a predetermined number of medals M 100 sheets power 500 sheets
- the second stored number data related to the second jackpot award JP2 is reset. I will not be.
- the first stored number data relating to the first jackpot award JP1 is not reset. That is, even if one of the jackpot prizes is won by someone, the number of stored jackpot prizes remains the same. So, if someone wins one of the jackpot prizes, the remaining players will decline for their desire to win that jackpot prize, but the other jackpot prize will be the one they won. A strong desire to do so is born. As a result, even if one of them wins one of the jackpot prizes, it can be expected that the gameability for other players will be reduced.
- the center lottery that is a jackpot lottery device is installed in the pusher game machine 1 that is a gaming machine provided with the station unit ST that is a plurality of game units that proceed with mutually independent pusher games.
- the example in which the device 2000 is provided and the center lottery device 2000 starts the jackpot when the start condition of the jackpot lottery is satisfied at the station part ST at the left or right has been described, but the present invention has such a configuration.
- the present invention is applicable not only to a multiplayer game machine in which a plurality of players play at the same time as in this embodiment, but also to a single player game machine. .
- a plurality of gaming machines can be connected to a jackpot lottery device via a communication network. The present invention can be applied even to a gaming system in which a jackpot lottery device is started when a jackpot lottery device is connected when the jackpot lottery start condition is satisfied with either of the gaming machines. is there.
- a lottery mechanism that performs physical lottery using a lottery moving object such as a large lottery ball 2400 is used as an example of a lottery unit that functions as a lottery means for performing jackpot lottery.
- the present invention is not limited to this, and a lottery program using random numbers may be used to perform a digital lottery to determine which jackpot prize will be won.
- two types of lottery may be performed. The same conditions may be used for the jackpot award JP1 and JP2 with the same amount of power as explained by way of example.
- the condition for increasing the payout amount of any jackpot prize JP1, JP2 may be a condition that a medal is inserted into any station section ST, or a condition that a chance pocket prize CP is won by jackpot lottery.
- other conditions may be used. Even if the same payout amount increase condition is used, the amount to be increased when the condition is satisfied may be set differently for each type of jackpot award.
- the means realized by software such as a computer program may be realized by hardware such as a circuit or chip, or by hardware such as a circuit or chip.
- the realized means may be realized by software such as a computer program.
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Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP07713988A EP1990076A4 (en) | 2006-02-15 | 2007-02-09 | JACKPOT LOTTERY DEVICE AND GAME MACHINE AND SYSTEM USING THE SAME |
AU2007215967A AU2007215967A1 (en) | 2006-02-15 | 2007-02-09 | Drawing machine for jackpot game, and game machine and game system using the same |
CN200780005376XA CN101384313B (zh) | 2006-02-15 | 2007-02-09 | 累积奖池抽选装置及使用其的游戏机和游戏系统 |
US12/223,930 US8790174B2 (en) | 2006-02-15 | 2007-02-09 | Drawing machine for jackpot game, and game machine and game system using the same |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2006-037831 | 2006-02-15 | ||
JP2006037831A JP4370305B2 (ja) | 2006-02-15 | 2006-02-15 | ジャックポット抽選装置並びにこれを用いた遊技機及び遊技システム |
Publications (1)
Publication Number | Publication Date |
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WO2007094250A1 true WO2007094250A1 (ja) | 2007-08-23 |
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PCT/JP2007/052332 WO2007094250A1 (ja) | 2006-02-15 | 2007-02-09 | ジャックポット抽選装置並びにこれを用いた遊技機及び遊技システム |
Country Status (8)
Country | Link |
---|---|
US (1) | US8790174B2 (ja) |
EP (1) | EP1990076A4 (ja) |
JP (1) | JP4370305B2 (ja) |
KR (1) | KR20080071624A (ja) |
CN (1) | CN101384313B (ja) |
AU (1) | AU2007215967A1 (ja) |
TW (1) | TW200738313A (ja) |
WO (1) | WO2007094250A1 (ja) |
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CN101808700B (zh) * | 2007-10-05 | 2012-09-05 | 科乐美数码娱乐株式会社 | 游戏系统以及构成该游戏系统的头奖抽选装置 |
US8317605B2 (en) | 2008-03-28 | 2012-11-27 | Aristocrat Technologies Australia Pty Limited | Method of gaming, a gaming system and a game controller |
US8628410B2 (en) | 2010-02-18 | 2014-01-14 | Wms Gaming Inc. | Multi-level progressive game with reset feature for maintaining expected value of the wagering game |
US9741209B2 (en) | 2011-04-04 | 2017-08-22 | Bally Gaming, Inc. | Systems, methods, and devices for playing progressive wagering games with award-based incrementing features |
US9990804B2 (en) | 2014-09-24 | 2018-06-05 | Bally Gaming, Inc. | Wagering game having interlinked progressive values with shared increment |
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JP4741556B2 (ja) * | 2007-08-03 | 2011-08-03 | 株式会社バンダイナムコゲームス | メダルゲーム装置 |
JP2009112737A (ja) * | 2007-11-09 | 2009-05-28 | Konami Digital Entertainment Co Ltd | ゲームシステム |
JP4412740B2 (ja) * | 2007-12-18 | 2010-02-10 | 株式会社コナミデジタルエンタテインメント | ジャックポット抽選装置並びにこれを用いたゲーム装置及びゲームシステム |
JP4934637B2 (ja) * | 2008-05-30 | 2012-05-16 | 株式会社コナミデジタルエンタテインメント | ゲームシステム並びにこれを構成する業務用ゲーム装置及び管理装置 |
JP4532582B2 (ja) * | 2008-12-08 | 2010-08-25 | 株式会社コナミデジタルエンタテインメント | ゲームシステム及びこれを構成するジャックポット抽選装置 |
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- 2007-02-09 WO PCT/JP2007/052332 patent/WO2007094250A1/ja active Application Filing
- 2007-02-09 KR KR1020087016025A patent/KR20080071624A/ko active IP Right Grant
- 2007-02-09 US US12/223,930 patent/US8790174B2/en active Active
- 2007-02-09 CN CN200780005376XA patent/CN101384313B/zh active Active
- 2007-02-09 EP EP07713988A patent/EP1990076A4/en not_active Withdrawn
- 2007-02-14 TW TW096105566A patent/TW200738313A/zh unknown
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101808700B (zh) * | 2007-10-05 | 2012-09-05 | 科乐美数码娱乐株式会社 | 游戏系统以及构成该游戏系统的头奖抽选装置 |
US8317605B2 (en) | 2008-03-28 | 2012-11-27 | Aristocrat Technologies Australia Pty Limited | Method of gaming, a gaming system and a game controller |
US9555321B2 (en) | 2008-03-28 | 2017-01-31 | Aristocrat Technologies Australia Pty Limited | Method of gaming, a gaming system and a game controller |
US9978216B2 (en) | 2008-03-28 | 2018-05-22 | Aristocrat Technologies Australia Ply Limited | Method of gaming, a gaming system and a game controller |
US8628410B2 (en) | 2010-02-18 | 2014-01-14 | Wms Gaming Inc. | Multi-level progressive game with reset feature for maintaining expected value of the wagering game |
US9741209B2 (en) | 2011-04-04 | 2017-08-22 | Bally Gaming, Inc. | Systems, methods, and devices for playing progressive wagering games with award-based incrementing features |
US9990804B2 (en) | 2014-09-24 | 2018-06-05 | Bally Gaming, Inc. | Wagering game having interlinked progressive values with shared increment |
US10262497B2 (en) | 2014-09-24 | 2019-04-16 | Bally Gaming, Inc. | Wagering game having interlinked progressive values with shared increment |
Also Published As
Publication number | Publication date |
---|---|
TW200738313A (en) | 2007-10-16 |
EP1990076A1 (en) | 2008-11-12 |
TWI326222B (ja) | 2010-06-21 |
KR20080071624A (ko) | 2008-08-04 |
AU2007215967A1 (en) | 2007-08-23 |
JP2007215652A (ja) | 2007-08-30 |
JP4370305B2 (ja) | 2009-11-25 |
EP1990076A4 (en) | 2010-08-25 |
CN101384313A (zh) | 2009-03-11 |
CN101384313B (zh) | 2011-06-08 |
US8790174B2 (en) | 2014-07-29 |
US20100160020A1 (en) | 2010-06-24 |
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