JP2004097800A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine with a generator device capable of enhancing the attraction of a game by diversifying moving passages of balls flowing in from an inflow port. <P>SOLUTION: The game machine has the inflow port 51 into which balls B flowing on a game board 10 can flow and a ball receiving part 60 for receiving the balls B having flown in from the inflow port 51 and guiding a part of the balls B to an area advantageous to a player. An oblong rotary body 70 is mounted on the ball receiving part 60 in such a way that the rotary body can be rotated around a horizontal axis. A lateral passage 100 is formed on the rotary body 70 for rotating/moving the balls B toward the end in the longitudinal direction. The game machine also has an apportioning part 79 for apportioning the balls B to a first release passage 101 and a second release passage 102 by the rotation of the rotary body 70 around the horizontal axis. In the game machine, the balls B flowing to the first release passage flow into the area 26 advantageous to the player at a higher probability than the balls B flowing to the second release passage 102. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine sometimes referred to as a ball game machine such as a pachinko machine (including a sparrow ball machine, an arrangement ball machine, and the like).
[0002]
[Prior art]
In a gaming machine such as a pachinko machine, an inflow port through which a ball flowing on the board of a game board can flow in, and a ball flowing through the inflow port are received and released while swinging the ball, and a part of the ball is played. And ball receiving shelves each leading to an area (for example, a winning opening or a starting opening such as a winning opening) that is advantageous to the player (for example, a central device called a center accessory) ) Are known.
Also, in this kind of accessory device, the sphere that has flowed in from the inlet and received on the ball receiving shelf moves while swinging in the left and right direction along the corrugated uneven surface on the ball receiving shelf. When the swing of the ball is weakened, the ball is released from one of a plurality of discharge portions provided at the center of the ball receiving shelf or at both left and right sides. Further, a ball entrance is provided immediately below the discharge section in the center of the ball receiving shelf.
Therefore, the ball discharged from the discharge part at the center of the ball receiving shelf flows into the ball entrance such as the winning opening or the starting opening with a relatively high probability.
[0003]
[Problems to be solved by the invention]
By the way, in the accessory device having the above-described structure, the sphere flowing from the inflow port and received on the ball receiving shelf swings right and left along the corrugated uneven surface on the ball receiving shelf. The movement of the sphere was monotonous due to the structure of the ball being moved and being discharged from any of the plurality of discharge portions.
[0004]
SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a gaming machine provided with an accessory device that can change the movement path of a ball that has flowed in from an inflow port and received by a ball receiving portion to enhance the interest of the game. To provide.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, a gaming machine according to a first aspect of the present invention has a gist as described in claim 1 and receives a ball flowing on a game board, and receives one of the balls. And a ball receiving portion for guiding the ball of the portion to an area advantageous to the player. In the ball receiving portion, a horizontally long rotating body is rotatably mounted around a horizontal axis, and a horizontal path is formed on the rotating body to rotate and move the ball toward its longitudinal end. . Near the longitudinal end of the rotator, there is provided a distribution unit for distributing the sphere to a first release path and a second release path in accordance with the rotation of the rotator about a horizontal axis. . Then, the sphere that has flowed in the first release path flows into a region that is advantageous to the player with a higher probability than the sphere that has flown in the second release path.
Therefore, when the ball flowing on the board of the game board is received by the ball receiving portion, the ball rotates and moves along the horizontal path on the horizontally long rotating body.
When the sphere reaches the vicinity of the end of the horizontal path of the rotating body, the sphere moves along the rotation axis of the rotating body about the horizontal axis and is distributed by the distribution unit of the rotating body to the first discharging path or the second discharging path. It is distributed to one and flows.
Then, when a ball flows in the first release path, the ball has a higher probability than in the case of flowing in the second release path in an area that is advantageous to the player, such as a winning opening or a starting opening. Inflow.
As described above, the movement path of the sphere can be changed, and when the sphere flows on the first release path, the sphere flows into a region that is advantageous to the player with a high probability. Can be expected.
[0006]
A gaming machine according to a second aspect of the present invention has a gist as described in claim 2, wherein the accessory device has an inflow port into which a ball flowing on the board of the game board can flow. A ball receiver is provided below the inflow port.
Therefore, the ball flowing on the board of the game board first flows in from the inflow port, and then is received by the ball receiving portion below it. Thereafter, the sphere rotates and moves along the horizontal path on the horizontally long rotating body in substantially the same manner as in the first aspect. Then, when a ball flows in the first release path, the ball has a higher probability than in the case of flowing in the second release path in an area that is advantageous to the player, such as a winning opening or a starting opening. Inflow.
In this way, the movement path of the ball can be changed, and when the ball flows on the first release path, the ball flows into a region that is advantageous to the player with a high probability, so that the player Expectations can be given to them.
[0007]
According to a third aspect of the present invention, there is provided a gaming machine having a gist as described in claim 3, wherein the distributing portion is formed on an outer peripheral surface of a portion near a longitudinal end of the rotating body and rotates the rotating body. A sphere discharge portion for guiding the sphere to one of the first and second discharge paths in accordance with the rotation of the body about the horizontal axis, and a portion formed adjacent to the longitudinal end of the rotating body. And a guide portion that receives a ball that has passed through the lateral path of the rotating body with the rotation of the rotating body about the horizontal axis and guides the ball to the other discharge path.
Therefore, the distribution part can be easily formed by the ball discharge part near the longitudinal end of the rotating body and the guiding part adjacent to the longitudinal end of the rotating body.
[0008]
According to a fourth aspect of the present invention, there is provided a gaming machine having a gist as described in claim 4, wherein the distributing portion is formed on an outer peripheral surface of a portion near a longitudinal end of the rotating body. A first sphere discharge portion for guiding the sphere to a first discharge path with the rotation of the rotator about the horizontal axis, and a first sphere discharge portion displaced from the first sphere discharge portion and formed on the outer peripheral surface of the rotator; And a second sphere discharge portion for guiding the sphere to the second discharge path.
Therefore, the distribution portion can be easily formed by forming the first sphere discharge portion and the second sphere discharge portion adjacent to each other on the outer peripheral surface near the longitudinal end portion of the rotating body. it can.
[0009]
According to a fifth aspect of the present invention, there is provided a gaming machine having a ball receiving portion provided with a ball receiving shelf in which a ball can rotate and move along a front side of a rotating body. And at least a part of the first discharge path is constituted by the ball tray.
Therefore, the moving path of the ball can be variously changed by the lateral path on the rotating body and the ball receiving shelf on the front side of the rotating body.
[0010]
A gaming machine according to a sixth aspect of the invention has a gist as set forth in claim 6, wherein a rear side wall that forms a lateral path in cooperation with the rotating body is provided on a rear side of the rotating body. In addition, a guiding guideway having an inflow port through which a ball on the rotating body can flow is formed in a part of the side wall afterward. At least a part of the first discharge path is constituted by the guide path.
Therefore, the sphere is favorably rotated along the lateral path formed by the rotating body and the rear wall on the rear side, and the ball is moved by the lateral path and the guide path having an inflow port in a part of the rear wall. The route can be changed in various ways.
[0011]
The gaming machine according to the seventh aspect of the invention has a gist as described in claim 7, and the ball receiving portion is provided with a ball receiving shelf on which a ball can rotate and move along the front side of the rotating body. Provided. On the other hand, on the rear side of the rotating body, a rear side wall which forms a lateral path in cooperation with the rotating body is provided, and an inflow port through which a ball on the rotating body can flow into a part of the rear side wall. The guiding guideway having the above is formed. A first discharge path is constituted by the ball tray and the guide path.
Therefore, the sphere satisfactorily rotates along the lateral path formed by the rotating body and the rear wall on the rear side. Further, it is possible to change the moving path of the ball more variously by the lateral path, the guide path, and the ball receiving shelf.
[0012]
According to an eighth aspect of the present invention, there is provided a gaming machine having a constitution as set forth in claim 8, wherein a ball on a ball receiving shelf is attracted to a rotating body by a magnetic force and is rotated around a horizontal axis of the rotating body. A magnet is provided for transferring the sphere to the inlet of the guideway and discharging the sphere into the guideway with the rotation of.
Therefore, as the rotating body rotates around the horizontal axis, the magnet on the rotating body can attract the ball on the ball receiving shelf and discharge it into the guide path.
[0013]
A game machine according to a ninth aspect of the present invention has a gist as set forth in claim 9, wherein a ball on a ball receiving shelf is attracted to a rotating body by a magnetic force and is rotated about a horizontal axis of the rotating body. A magnet is provided for transferring the sphere to a position where it abuts on the rear side wall and discharging the sphere to a lateral path in accordance with the rotational operation of.
Therefore, as the rotating body rotates around the horizontal axis, the magnet on the rotating body can attract the ball on the ball receiving shelf and discharge it to the lateral path.
[0014]
Further, the present invention can be configured as described in the following (1) and (2) in addition to the above-described claims 1 to 9.
(1) A support having a support surface for rotatably supporting a substantially central portion in a longitudinal direction of a horizontally long rotating body is provided on the accessory main body side.
In the above-described configuration, by supporting the substantially central portion in the longitudinal direction of the horizontally long rotator by the support surface of the support so as to be rotatable, the horizontally long rotator can be favorably supported for a long time, and the rotation can be performed. It is possible to prevent a problem due to unexpected rattling or lifting of the body, and it is possible to improve durability.
(2) The rotator includes a central rotator provided at a central portion in the longitudinal direction thereof, and left and right two-sided rotators forming a drum shape integrally extending from both sides of the central rotator, On the left and right rotors, an outer lateral path and an inner lateral path that guide the sphere in both lateral directions inside (the longitudinal center of the rotating body) and outside (the end in the longitudinal direction of the rotating body) Are configured respectively.
In the above configuration, the movement of the ball can be further changed, and the interest of the game can be further enhanced.
It is also possible to control the rotation of the central rotor of the rotating body and the left and right rotors individually.
In this case, it is possible to vary the flow of the sphere in various ways by individually controlling the rotation speed, rotation, and stop of the central rotor and the left and right rotors. In addition, it is possible to apply the configurations of (1) and (2) as dependent claims of any one of claims 1 to 9 of the present invention.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
Embodiment 1 of the present invention will be described with reference to FIGS.
In FIG. 1 showing a game board arranged at a predetermined position of a ball game machine (mainly a pachinko machine) as a game machine, an outer rail 12 and an inner rail 13 are provided on a peripheral portion of a front face of the game board 10. Is mounted. A game area 15 is defined inside the guide rail 11, and a ball (pachinko ball) fired by a ball firing device (not shown) is provided between the outer rail 12 and the inner rail 13. A ball launching passage 14 for guiding is formed at the upper part of 15.
The accessory device 40 is mounted in a substantially central portion of the game area 15 on the front of the game board 10.
In the game area 15 on the front of the game board 10, a normal symbol starting gate port 20 is provided on one side (the left side in FIG. 1) of the accessory device 40.
[0016]
Also, in the game area 15 on the front of the game board 10, a ball entrance which is located at a lower central portion of the accessory device 40 and is an area which is advantageous to the player. In the first embodiment, a variable starting port. A ball-entering device 25 provided with 26 is provided. Further, a pair of opening / closing members 28 are provided in the variable starting port 26 so as to be openable and closable. When the opening / closing members 28 are opened and the variable starting port 26 is expanded, the ball B easily flows in and the opening / closing member 28 is closed. Thus, when the variable starting port 26 is narrowed, the ball B is difficult to flow.
Further, when the ball B flows into the variable starting port 26 (ball entry port) of the ball entry device 25, a symbol display device 45 described later is operated. In addition, when the ball B passes through the ordinary symbol starting gate port 20, the ordinary symbol display unit 47 described later is operated, and the ordinary symbols are drawn. The opening / closing member 28 of the ball entry device 25 is opened for a predetermined time (for example, 1 second) based on the lottery of the ordinary symbol display unit 47, whereby the variable start-up port 26 of the ball entry device 25 is expanded. The ball B easily flows into the variable starting port 26.
[0017]
In the game area 15 on the front of the game board 10, an attacker device 30 is mounted below the ball input device 25. The attacker device 30 is provided with a large winning opening 32 which is opened and closed by an opening / closing door 31 at a substantially central portion thereof.
Further, in the game area 15 on the front of the game board 10, an out port 33 is formed at the lowermost end thereof and below the attacker device 30, and further, is located on both left and right sides of the attacker device 30 and has a predetermined number ( 1 (four in FIG. 1).
Side decoration members 35 each having a light emitting lens are provided on both left and right sides of the game area 15 on the front of the game board 10. In addition, a windmill 18 is provided at a predetermined position in a game area 15 on the front of the game board 10, and a number of nails (not shown) are provided over substantially the entire area of the game area 15.
[0018]
As shown in FIGS. 1 and 2, the accessory device 40 includes an accessory main body 41 and a symbol display device 45, which are main components thereof.
The accessory main body 41 that forms the main body of the accessory device 40 is formed by a plurality of main body constituent members, and closes the peripheral edge of the front opening of the accessory mounting hole penetrating substantially in the center of the game board 10. It is configured in a frame shape. The accessory main body 41 is attached to the front surface (panel surface) of the game board 10 with screws or the like.
At the approximate center of the accessory main body 41, an opening window such as a square or a circle is formed.
A symbol display device 45 is attached to the back side of the opening window of the accessory main body 41. A special symbol display area in which the special symbols are variably displayed is provided in substantially the entire area of the display section 46 of the symbol display device 45. A part of the display 46 is provided with an ordinary symbol display section 47 for displaying an ordinary symbol in a variable manner.
[0019]
As shown in FIG. 2, a ball passage (also referred to as a warp passage) having an inflow port 51 into which a ball B flowing on the board surface (front surface) of the game board 10 can flow in is provided on both left and right sides of the accessory main body 41. ) Are provided. In the inlet 51, a receiving body 52 that receives the ball B flowing on the board surface (front surface) of the game board 10 and guides the ball B to the inlet 51 is formed.
The lower part of the main body 41 receives the balls B flowing from the two inlets 51, respectively, and guides some of the balls B to the variable starting port 26 (a region advantageous to the player). A receiving portion 60 is provided.
As shown in FIG. 2, a horizontally long rotating body 70 is mounted on the ball receiving portion 60 so as to be rotatable about a horizontal axis, and a ball receiving shelf on which a ball B can rotate along the front side of the rotating body 70. 61 are provided. A rear side wall 80 is provided on the rear side of the rotating body 70.
[0020]
The ball receiving shelf 61 provided along the front side of the rotating body 70 is formed in a gentle curved shape having a low center portion and high both side portions, and rises toward the inlet 51 on both left and right sides thereof. The curved side portion 62 is formed in a continuous shape. Then, the sphere B flowing from the inflow port 51 flows (rotates and moves) in a sphere receiving tray 61 shape via the side curved portion 62.
Further, a protruding edge 63 for receiving the ball B is formed on the front side of the upper surface of the ball receiving shelf 61 (substantially in the middle of the passage width of the ball receiving shelf 61 in the first embodiment). The three sides of the side part and the center part are removed in a notch shape, so that the side discharge part 64 and the center discharge part 65 that discharge the ball by flowing down on the left and right side part and the center part of the ball receiving shelf 61 respectively. Are formed respectively.
Further, the central discharge portion 65 is formed by a concave portion having a curvature larger than the ball B, and a part of the balls B discharged from the central discharge portion 65 is formed so as to be able to flow into the variable starting port 26. ing. That is, the variable starting port 26 is provided immediately below the central discharge section 65.
[0021]
As shown in FIGS. 2 to 4, the horizontally long rotating body 70 is assembled to the rotating body unit 90 and mounted at a predetermined position of the ball receiving portion 60 of the accessory main body 41. That is, the rotator unit 90 includes the rotator 70, the holding member 91, the motor 95, and the like integrally, and is configured to be able to be handled as one unit. The rotating body 70 is attached to the holding member 91 at both ends in the longitudinal direction so as to be continuously rotatable in one direction about the horizontal axis 71 and using the motor 95 as a drive source.
On this rotator 70, a lateral path 100 for rotating the ball B toward its longitudinal end is formed, and near the longitudinal end of the rotator 70, the lateral path 100 of the rotator 70 is provided. A distributing unit 79 for distributing the sphere B into a first discharge path 101 and a second discharge path 102 in accordance with the rotation operation around the axis is provided. Then, the ball B flowing in the first release path 101 flows into the variable starting port 26 (a region advantageous to the player) with a higher probability than the ball B flowing in the second release path 102. Has become.
[0022]
In the first embodiment, as shown in FIGS. 3 and 4, the rotating body 70 has a central portion 72 that is formed in a parallel tubular shape at the central portion thereof, and is integrally formed in the left-right direction from both ends of the central portion 72. The left and right tapered portions 74 which are formed in a tapered shape and whose outer diameter is reduced toward the extending end and which are formed in a tapered shape are integrally and continuously provided. The outer peripheral surface of the rotating body 70 near the both ends in the longitudinal direction, that is, the outer peripheral surface of the left and right tapered portions 74 near the distal end, is accompanied by the rotation of the rotating body 70 about the horizontal axis and the ball B Are respectively chamfered at positions 180 degrees out of phase with each other. In the first embodiment, the ball discharge portion 77 of the rotating body 70 is formed adjacent to the rear side of the side discharge portion 64 of the ball receiving shelf 61, and the side discharge portion 64 of the ball receiving shelf 61 is As the discharge path 102.
[0023]
As shown in FIG. 3, a part of the holding member 91, which is a portion adjacent to both ends in the longitudinal direction of the rotating body 70, is provided with a rotating operation of the rotating body 70 around the horizontal axis. A guide 78 is formed to receive the ball B passing through the lateral path 100 and guide the ball B to the first discharge path 101.
The first discharge path 101 includes a ball receiving shelf 61 and a guide path 82 described below.
That is, as shown in FIGS. 2 and 3, a rear side wall 80 which forms the lateral path 100 in cooperation with the rotary body 70 is provided on the rear side of the rotary body 70, and a part of the rear side wall 80 is formed on the rear side wall 80. A guide path 82 having an inflow port 81 into which the ball B on the rotating body 70 can flow is formed. The guidance guideway 82 opens below the rotating body 70 at the center of the lower portion of the accessory main body 41, and the opening serves as an outlet 83.
Further, as shown in FIG. 2, the outlet 83 of the guiding guideway 82 is located immediately below the central discharge portion 65 of the ball receiving shelf 61, and as shown in FIG. (A region that is advantageous to the above). The ball B that has flowed out of the outlet 83 of the guideway 82 has a higher probability than the ball B that is discharged from the central discharge portion 65 of the ball receiving shelf 61 with a higher probability than the variable starting port 26 (for the player). Region).
That is, in the first embodiment, the distribution unit 79 is configured by the ball discharge unit 77 and the guiding unit 78.
[0024]
Further, in the first embodiment, as shown in FIG. 4, the ball B on the ball receiving shelf 61 is attracted to the outer peripheral surface of the central portion 72 of the rotating body 70 by magnetic force, and is rotated around the horizontal axis of the rotating body 70. The two first magnets 73 that transfer the ball B to the inflow port 81 of the guideway 82 and discharge the ball B into the guideway 82 with the rotation of the first magnet 73 are embedded at an angle of 180 degrees. It is provided in.
Further, on the outer peripheral surfaces of the left and right tapered portions 74 of the rotating body 70, the ball B on the ball receiving shelf 61 is attracted by magnetic force at a position close to the central portion 72, and the rotating operation of the rotating body 70 about the horizontal axis is performed. Accordingly, the second magnet 75 and the third magnet 76 that transfer the ball B to a position where the ball B comes into contact with the front surface of the rear side wall 80 and discharge the ball B to the lateral path 100 are separated by an angle of 180 degrees. It is provided in an embedded manner.
Further, the second magnet 75 and the third magnet 76 are disposed on the outer peripheral surfaces of the left and right tapered portions 74 of the rotating body 70 at an angle of 90 degrees with respect to the first magnet 73.
[0025]
The pachinko machine as the gaming machine according to the first embodiment is configured as described above. Therefore, at the time of the game, the ball B (pachinko ball B) fired from the ball firing device (not shown) into the ball firing passage 14 is hit on the upper part of the game area 15 and guided by a large number of nails, windmills 18 and the like. It flows toward the lower part of the game area 15.
Of the balls B launched into the game area 15, some of the balls B usually pass through the symbol opening gate 20 or enter the ball such as the variable starting port 26 of the ball entry device 25 and the general winning opening 37. Flows into the mouth. Also, many of the balls B that have not flowed into these entrances flow into the out port 33 below the game area 15 and are discharged outside the machine.
[0026]
When the ball B passes through the normal symbol starting gate port 20, the ball B is detected by a sensor, and a detection signal is sent to a main controller (not shown). Then, the signal is transmitted to the symbol display device 45, and the symbol of the ordinary symbol display portion 47 provided in a part of the display portion 46 fluctuates. And the symbol based on the lottery result is displayed on the ordinary symbol display section 47.
When the symbol of the normal symbol display section 47 is displayed as a hit symbol, the opening and closing member 28 of the variable starting port 26 of the ball entry device 25 is opened and closed for a predetermined time (for example, one second).
When the ball B flows into the variable starting port 26 of the ball input device 25, the ball B is detected by the sensor, and the detection signal is sent to the main controller. Then, the signal is transmitted to the symbol display device 45, whereby the symbol displayed on the display unit 46 fluctuates and stops after a set time. Then, the display unit 46 displays a symbol based on the lottery result.
[0027]
If the symbol displayed on the display unit 46 is a “big hit symbol”, for example, “7.7.7” and stops, a big hit occurs. Then, the big winning opening 32 is opened by the opening / closing door 31 of the attacker device 30. When ten balls B flow into the special winning opening 32 or when 30 seconds have elapsed, the special winning opening 32 is closed by the opening / closing door 31.
At the time of opening the special winning opening 32, when the ball B enters a specific area provided in the special winning opening 32, the special winning opening 32 is once closed by the opening / closing door 31, and then opened again. The big hit game ends when the large winning opening 32 is repeatedly opened and closed a predetermined number of times, for example, up to 16 times (ie, 16 rounds) by the opening and closing door 31.
[0028]
During the game, as shown in FIG. 5, some of the balls B struck out in the game area 15 flow in from the inflow ports 51 arranged on the left and right sides of the main item main body 41 to receive the ball. It is received by the unit 60. In the first embodiment, the ball B flowing from the inflow port 51 is guided and guided by the left and right side curved portions 62 and flows (rotates) on the ball receiving shelf 61. Of the balls B flowing on the ball receiving shelf 61 and swinging in the left-right direction, some of the balls B are discharged from the left and right side discharge portions 64 or the central discharge portion 65 of the ball receiving shelf 61.
As shown in FIG. 6, among the spheres B flowing near the central discharge portion 65 on the sphere receiving shelf 61, some spheres B are formed by the magnetic force of the first magnet 73 of the central portion 72 of the rotating body 70. Is adsorbed by Then, the sphere B attracted to the first magnet 73 is transferred to the inflow port 81 of the guide guideway 82 and discharged into the guideway 82 with the rotation of the rotating body 70 about the horizontal axis. The ball B discharged into the guideway 82 is discharged from the outlet 83 of the guideway 82 and flows into the variable starting port 26 (a region advantageous to the player) with a high probability. During the game, the rotating body 70 is continuously rotated in one direction around the horizontal axis, that is, about the horizontal axis 71 and the motor 95 as a drive source.
[0029]
As shown in FIGS. 7 and 8, among the balls B flowing near the left and right portions of the central discharge portion 65 on the ball receiving shelf 61, some of the balls B are the second balls of the tapered portion 74 of the rotating body 70. It is attracted by the magnetic force of the magnet 75 or is attracted by the magnetic force of the third magnet 76.
The sphere B attracted to the second magnet 75 or the third magnet 76 is transferred to a position where it contacts the front surface of the rear side wall 80 with the rotation of the rotating body 70 about the horizontal axis, and is discharged. It rotates along the lateral path 100 and toward the end of the rotating body 70. Then, the sphere B is distributed to the first release path 101 and the second release path 102 and flows by the distribution unit 79 provided near the longitudinal end of the rotating body 70. Then, the ball B that has flowed through the first release path 101 flows into the variable starting port 26 (a region that is advantageous to the player) with a higher probability than the ball B that has flowed through the second release path 102.
[0030]
That is, in the first embodiment, the sphere B attracted to the second magnet 75 is transferred to a position where the sphere B comes into contact with the front surface of the rear wall 80 with the rotation of the rotating body 70 about the horizontal axis. It rotates along the lateral path 100 and toward the end of the rotating body 70. Then, the sphere B flows to the guide part 78 over (passes) the sphere discharge part 77 at the end of the rotating body 70.
The sphere B that has flowed into the guiding unit 78 is guided by the guiding unit 78, returned (replayed) on the ball receiving shelf 61 as the first release path 101, and directed toward the center of the ball receiving shelf 61. Flows.
Then, the ball B returned to the ball receiving shelf 61 is released via the above-described route. In other words, of the balls B returned to the ball receiving shelf 61, some of the balls B are attracted to the first magnet 73 and released into the guide path 82, and the variable starting port 26 (game Into an area that is advantageous to the person).
[0031]
The sphere B attracted to the third magnet 76 is transferred to a position where it contacts the front surface of the rear wall 80 and is discharged to the lateral path 100 with the rotation of the rotating body 70 about the horizontal axis.
The sphere B emitted to the lateral path 100 rotates along the lateral path 100 and toward the end of the rotating body 70 and is received by the sphere emitting portion 77 at the end of the rotating body 70. The sphere B is guided to the sphere discharge part 77 and discharged forward from the side discharge part 64 of the sphere receiving shelf 61 as the second discharge path 102.
The ball B discharged forward from the side discharge portion 64 of the ball receiving shelf 61 hardly flows into the variable starting port 26 (a region advantageous to the player) under the game area 15 of the game board 10. Flowing to the side.
[0032]
As described above, the horizontally long rotator 70 is provided in the ball receiving portion 60, and the distributing portion 79 is provided near the end of the rotator 70, so that the moving path of the sphere B has a change different from the conventional one. When the ball B flows through the first discharge path 101, the ball B flows into the variable starting port 26 (a region that is advantageous to the player) with a high probability. Can be given.
Further, in the first embodiment, it is possible to easily configure the distribution unit 79 by the ball discharge unit 77 near the end of the rotating body 70 in the longitudinal direction and the guiding unit 78 adjacent to the end of the rotating body 70. it can.
Further, the ball receiving portion 60 is provided with a rotating body 70 and a ball receiving shelf 61 on which the ball B can rotate and move along the front side of the rotating body 70, and at least a part of the first discharge path 101. Is constituted by a ball receiving shelf 61. Therefore, the moving path of the ball B can be variously changed by the lateral path 100 on the rotating body 70 and the ball receiving shelf 61.
[0033]
In the first embodiment, the rotating body 70 and the rear wall 80 on the rear side form a lateral path 100 on the rotating body 70, and have a guide 81 having an inflow port 81 in a part of the rear wall 80. A passage 82 is formed. Further, the first discharge path 101 is constituted by the ball receiving shelf 61 and the guide path 82.
For this reason, the ball B can be satisfactorily rotated and moved along the lateral path 100, and the moving path of the ball B can be changed more variously by the lateral path 100, the ball receiving shelf 61 and the guide path 82. Become.
Further, in the first embodiment, the sphere B flowing near the central discharge portion 65 on the ball receiving shelf 61 is attracted by the magnetic force of the first magnet 73 of the rotating body 70 and is rotated around the horizontal axis of the rotating body 70. Can be transferred to the inflow port 81 of the guiding guideway 82 and discharged into the guiding guideway 82 with the rotation operation of. For this reason, the ball B attracted by the first magnet 73 of the rotating body 70 can flow into the variable starting port 26 (a region advantageous to the player) with a high probability.
[0034]
Further, in the first embodiment, the spheres B flowing near the left and right of the central discharge portion 65 on the ball receiving shelf 61 are attracted by the magnetic force of the second magnet 75 or the third magnet 76, respectively, and the spheres B are absorbed. With the rotation of the rotating body 70 about the horizontal axis, the rotating body 70 can be transported to a position in contact with the front surface of the rear side wall 80 and discharged onto the horizontal path 100.
Moreover, the ball B attracted to the second magnet 75 and released on the horizontal path 100 flows to the guiding portion 78, and the ball B is returned to the ball receiving shelf 61 as the first release path 101 (replay). be able to. Then, a part of the ball B returned to the ball receiving shelf 61 is attracted to the first magnet 73 and released into the guiding guide path 82, and the variable starting port 26 (the area which is advantageous to the player) has a high probability. ).
On the other hand, the ball B adsorbed by the third magnet 76 and discharged onto the horizontal path 100 is received by the ball discharge portion 77 at the end of the rotating body 70, and the ball B is transferred to the ball receiving shelf 61 as the second discharge path 102. Can be discharged forward from the side discharge portion 64.
[0035]
In the first embodiment, the present invention can be implemented even if the following changes are made.
For example, a vibration provided near the longitudinal end of the rotating body 70 and for distributing the sphere B into the first discharging path 101 and the second discharging path 102 with the rotation of the rotating body 70 about the horizontal axis. The dividing section 79 may be changed as described below.
That is, as shown in FIG. 9, the distribution unit 79 is formed on the outer peripheral surface of a portion near the longitudinal end of the horizontally long rotator 70 and rotates with the rotation of the rotator 70 about the horizontal axis. A first sphere discharge portion 110 for guiding the sphere B to the first discharge path, and a sphere formed on the outer peripheral surface of the rotating body 70 by being displaced (for example, displaced in the axial direction) with the first sphere discharge portion 110 And a second sphere discharge unit 111 for guiding B to the second discharge path. In this way, by forming the first sphere discharge portion 110 and the second sphere discharge portion 111 on the outer peripheral surface of the portion near the longitudinal end of the rotating body 70, the distribution portion 79 can be easily formed. Can be configured.
[0036]
(Embodiment 2)
Next, a second embodiment of the present invention will be described with reference to FIGS.
In the second embodiment, the holding member 91 of the rotator unit 90 is rotatably mounted around the horizontal axes 71 at both ends in the longitudinal direction, and is attached to a predetermined position of the ball receiving portion 60 of the accessory main body 41. This is a modification of the support structure of the horizontally long rotating body 70.
That is, in the second embodiment, the rotating body 70 is provided in the form of a rectangular tubular central portion 72 provided at the central portion in the longitudinal direction, and is integrally provided axially from both sides of the central portion 72. Further, a shaft body portion 79 appropriately narrowed to a smaller diameter than the central portion 72 and right and left tapered portions 74 extending integrally from both sides of the both shaft body portions 79 are integrally and continuously provided. are doing. The outer diameters of the left and right tapered portions 74 adjacent to the both shaft portions 79 are appropriately set larger than those of the both shaft portions 79. The outer diameter is reduced as it goes, and it is tapered.
[0037]
On the other hand, a support 85 having an arc-shaped support surface 86 for preventing the rotating body 70 from rattling or floating is formed on the accessory main body 41 side.
In the second embodiment, the two shaft portions 79 at the center in the longitudinal direction of the rotating body 70 from the upper end on the front side of the rear side wall 80 formed on the holding member 91 of the rotating body unit 90 fixed to the accessory main body 41. The left and right support members 85 extend integrally toward the outer peripheral surface. An arc-shaped support surface 86 that is fitted into the two shaft portions 79 from above the outer peripheral surfaces of the two shaft portions 79 of the rotating body 70 is formed below the two support members 85, respectively. The support surfaces 86 of the support members 85 contact and support the outer peripheral surfaces of the both shaft portions 79 of the rotating body 70, so that the rotating body 70 is prevented from rattling or floating.
[0038]
Other configurations of the second embodiment are substantially the same as those of the first embodiment.
In other words, on the outer peripheral surface near the tip of the left and right tapered portions 74 of the rotator 70, a sphere discharge portion 77 that guides the sphere B to the second discharge path 102 with the rotation of the rotator 70 about the horizontal axis. Are formed in chamfered positions at positions shifted by 180 degrees. The ball discharge portion 77 of the rotating body 70 is formed adjacent to the rear side of the side discharge portion 64 of the ball receiving shelf 61, and the side discharge portion 64 of the ball receiving shelf 61 is used as the second discharge path 102.
[0039]
In addition, a part of the holding member 91, which is a portion adjacent to both ends in the longitudinal direction of the rotating body 70, includes a ball that has passed through the horizontal path 100 of the rotating body 70 due to the rotation of the rotating body 70 about the horizontal axis. A guiding portion 78 that receives B and guides the sphere B to the first discharge path 101 is formed. The first discharge path 101 includes a ball receiving shelf 61 and a guide path 82.
In addition, a rear side wall 80 that forms the lateral path 100 in cooperation with the rotating body 70 is provided on the rear side of the rotating body 70, and the sphere B on the rotating body 70 can flow into a part of the side wall 80 thereafter. A guide path 82 having a simple inlet 81 is formed. The guidance guideway 82 opens below the rotating body 70 at the center of the lower portion of the accessory main body 41, and the opening serves as an outlet 83. The outflow port 83 is provided immediately above the variable starting port 26 (an area that is advantageous to the player).
[0040]
Also in the second embodiment, similarly to the first embodiment, the ball B on the ball receiving shelf 61 is attracted to the outer peripheral surface of the central portion 72 of the rotating body 70 by magnetic force, and the rotating body 70 is rotated. The two first magnets 73 that transfer the ball B to the inflow port 81 of the guideway 82 and discharge the ball B into the guideway 82 along with the rotation about the horizontal axis of FIG. It is provided in a buried form at a distance.
Also, on the outer peripheral surfaces of the left and right tapered portions 74 of the rotating body 70, the ball B on the ball receiving shelf 61 is attracted by magnetic force at a position close to the left and right shaft portions 79, and the horizontal axis of the rotating body 70. The second magnet 75 and the third magnet 76 which transfer the ball B to a position where the ball B comes into contact with the front surface of the rear side wall 80 and discharge the ball B to the lateral path 100 are rotated by 180 degrees, respectively. It is provided in an embedded manner at an angle.
[0041]
The second embodiment is configured as described above. Therefore, the second embodiment has substantially the same operation and effect as the first embodiment.
In particular, in the second embodiment, a substantially central portion in the longitudinal direction of the horizontally long rotating body 70 can be supported by the arcuate supporting surface 86 of the supporting body 85 on the accessory main body 41 side. For this reason, the horizontally long rotating body 70 can be favorably supported for a long period of time, and a problem due to unexpected rattling or floating of the rotating body 70 can be prevented, and durability can be improved.
Further, in the second embodiment, the two shaft portions from the upper end on the front side of the rear side wall 80 formed on the holding member 91 of the rotator unit 90 fixed to the accessory main body 41, at the central portion in the longitudinal direction of the rotator 70 The left and right support members 85 are integrally extended toward the outer peripheral surface 79. For this reason, the support body 85 can be manufactured separately from the holding body 91 of the accessory main body 41 or the holding member 91 of the rotating body unit 90, so that the assembling work can be omitted, and the cost reduction is highly effective.
[0042]
As shown in FIGS. 10 and 11, a shaft portion 79 appropriately narrowed to a smaller diameter than the central portion 72 is provided in the axial direction on both sides of the center portion 72 of the rotating body 70, and the rotating body 70 is The supporting member 85 supports the shaft portion 79. Therefore, the outer peripheral surface (arc surface) of the support 85 can be made substantially the same as the outer peripheral surface of the central portion 72 or the tapered portion 74. Therefore, it is possible to prevent a problem that the support 85 protrudes from the outer peripheral surface of the central portion 72 or the tapered portion 74 and obstructs the flow of the ball B.
[0043]
(Embodiment 3)
Next, a third embodiment of the present invention will be described with reference to FIGS.
In the third embodiment, as shown in FIGS. 12 and 13, the main body 41 of the accessory main body 41 is attached to the holding member 91 of the rotating body unit 90 so as to be rotatable about horizontal axes 171 at both ends in the longitudinal direction. This is a modification of the structure of the horizontally long rotating body 170 mounted at a predetermined position of the ball receiving portion 60 itself.
That is, in the third embodiment, the rotating body 170 includes a central rotor 172 provided at a central portion in the longitudinal direction thereof, and a left and right drum-shaped right and left extending integrally from both sides of the central rotor 172. And the two-sided rotors 174 are formed integrally and continuously, and have a substantially gourd shape as a whole shape.
[0044]
Further, the left and right rotors 174 are each formed in a tapered shape in which the outer diameters of the central portions thereof are set to be the maximum and the outer diameters are reduced from the central portion toward the respective side portions. . Each of the left and right rotors 174 has a substantially drum shape, so that a ball is formed on the left and right rotors 174 in cooperation with the rear wall 80 (on the longitudinal center side of the rotor 170). ) And an outer lateral path 100a and an inner lateral path 100b that are guided in both lateral directions on the outer side (end side in the longitudinal direction of the rotating body 170).
[0045]
Further, in the third embodiment, the outer peripheral surfaces of the left and right rotors 174 of the rotator 170 near the ends (opposite to the center portion) are provided on the outer peripheral surface with the rotation of the rotator 170 about the horizontal axis. The spherical discharge portions 177 for guiding B to the second discharge path 102 are formed in chamfered positions at positions shifted by 180 degrees. The ball discharge section 177 of the rotating body 170 is formed adjacent to the rear side of the side discharge section 64 of the ball receiving shelf 61, and uses the side discharge section 64 of the ball receiving shelf 61 as the second discharge path 102.
In addition, a part of the holding member 91, which is a portion adjacent to both ends in the longitudinal direction of the rotating body 170, has passed through the outer horizontal path 100a of the rotating body 170 with the rotation of the rotating body 170 around the horizontal axis. A guiding portion 78 that receives the ball B and guides the ball B to the first discharge path 101 is formed. The first discharge path 101 includes a ball receiving shelf 61 and a guide path 82.
[0046]
Further, on the rear side of the rotating body 170, the rear side walls 80 that form the inner and outer lateral paths 100a and 100b in cooperation with the rotating body 170 as described above are provided. A guide path 82 having an inlet 81 into which the ball B on the rotating body 170 can flow is formed. The guiding guideway 82 opens below the rotating body 170 at the center of the lower part of the accessory main body 41, and the opening serves as an outlet 83. The outflow port 83 is provided immediately above the variable starting port 26 (an area that is advantageous to the player).
[0047]
In the third embodiment, as shown in FIGS. 13 and 16, the central rotor 172 of the rotating body 170 has first and second ball receiving recesses 178 and 179 which are 180 degrees out of phase with each other. Is established.
The first ball receiving concave portion 178 is provided between the receiving port for receiving the ball B released from the one side rotor 174 to the inner lateral path 100b and the ball B released from the other side rotor 174 to the inner lateral path 100b. Each has a blocking wall 178a.
Conversely, the second ball receiving concave portion receives the ball B discharged from the other side rotor 174 to the inner lateral path 100b, and is discharged from the one side rotor 174 to the inner lateral path 100b. Each of the walls 179a has a wall 179a for preventing the ball B from being received.
Further, the ball B on the ball receiving shelf 61 is attracted by magnetic force in the portion of the outer peripheral surface of the central rotor 172 of the rotating body 170 other than the first and second ball receiving recesses 178 and 179 being formed. A predetermined number (1 in FIG. 16) of transferring the ball B to the inflow port 81 of the guideway 82 and discharging the ball B into the guideway 82 with the rotation of the central rotor 172 about the horizontal axis. The first magnet 173 is provided in an embedded manner.
[0048]
In addition, on the outer peripheral surfaces of the left and right rotors 174 on the left and right sides of the rotating body 170, the ball B on the ball receiving shelf 61 is attracted by magnetic force and near the center of each rotor. A predetermined number (one each may be sufficient) for transferring the ball B to a position in contact with the front surface of the rear side wall 80 and discharging the ball B to the outer lateral path 100a or the inner lateral path 100b with the rotation operation around the axis. The second magnet 175 and the third magnet 176 are provided in an embedded manner, respectively.
Since other configurations of the third embodiment are substantially the same as those of the first embodiment, the same components are denoted by the same reference numerals and description thereof is omitted.
[0049]
The third embodiment is configured as described above.
Therefore, as shown in FIG. 19, the ball B flowing from the inflow port 51 is guided and guided by the side curved portion 62 and flows (rotates) on the ball receiving shelf 61. Of the balls B flowing on the ball receiving shelf 61 and swinging in the left-right direction, some of the balls B are discharged from the left and right side discharge portions 64 or the central discharge portion 65 of the ball receiving shelf 61.
Then, as shown in FIG. 20, the balls B released from the central discharge portion 65 of the ball receiving shelf 61 flow in the direction of the arrow in the figure, and have a low probability that the variable starting port 26 (a region that is advantageous to the player). Flows into.
[0050]
Further, as shown in FIG. 21, among the balls B flowing near the central discharge portion 65 on the ball receiving shelf 61, some of the balls B are formed by the first magnet 73 of the central rotor 172 of the rotating body 170. Adsorbed by magnetic force. Then, the sphere B attracted to the first magnet 73 is transferred to the inflow port 81 of the guiding guideway 82 with the rotation of the rotating body 170 about the horizontal axis, and is discharged into the guiding guideway 82.
As shown in FIG. 22, the sphere B discharged into the guideway 82 is discharged from the outlet 83 of the guideway 82 and flows in the direction of the arrow in the figure, respectively, and has a high probability that the variable starting port 26 (game Into an area that is advantageous to the person).
[0051]
As shown in FIG. 23, among the balls B flowing on the ball receiving shelf 61, some of the balls B are attracted by the magnetic force of the third magnet 176 of the side rotor 174 of the rotating body 170.
The sphere B attracted to the third magnet 76 is transported to a position where it contacts the front surface of the rear side wall 80 with the rotation of the rotating body 170 about the horizontal axis, and is discharged. Rotate. Then, the ball B comes into contact with the wall portion 178a of the first ball receiving concave portion 178 or the wall portion 179a of the second ball receiving concave portion 179 of the central rotor 172 of the rotating body 170, and is temporarily stopped at this position.
Subsequently, when the central rotor 172 rotates integrally with the rotating body 170 and the receptacle of the first ball receiving concave portion 178 or the second ball receiving concave portion 179 reaches a position corresponding to the ball B, the ball B is moved from the receiving port to the first ball receiving concave portion. It flows into the first ball receiving recess 178 or the second ball receiving recess 179. Thereafter, the central rotor 172 rotates integrally with the rotating body 170, so that the sphere B is transferred to the inflow port 81 of the guiding guideway 82, discharged into the guiding guideway 82, and then is released from the guiding guideway 82. It is discharged from an outlet 83 of 82. For this reason, it flows into the variable starting port 26 (the area advantageous to the player) with a high probability (see FIG. 22).
[0052]
As shown in FIGS. 24 and 25, a part of the balls B flowing on the ball receiving shelf 61 is attracted by the magnetic force of the second magnet 175 of the side rotor 174 of the rotating body 170.
The sphere B attracted to the second magnet 175 is transported to a position where it contacts the front surface of the rear side wall 80 with the rotation of the rotating body 170 about the horizontal axis and is discharged, and then along the outer horizontal path 100a. And it rotates and moves toward the end of the side rotator 174.
The ball path is sorted depending on whether the ball B passes through the ball discharge portion 177 at the end of the side rotor 174 or the guide portion 78. Then, as shown in FIG. 25, the sphere B passing through the guiding portion 78 flows to the first release path 101, and as shown in FIG. Flows to
As shown in FIG. 25, the ball B that has flowed through the first discharge path 101 has a higher probability than the ball B that has flowed through the second discharge path 102 with the variable starting port 26 (a region that is advantageous to the player). Flows into.
That is, the ball B returned (replayed) on the ball receiving shelf 61 as the first release path 101 flows toward the center of the ball receiving shelf 61.
Then, the ball B returned to the ball receiving shelf 61 is released via the above-described route. In other words, of the balls B returned to the ball receiving shelf 61, some of the balls B are adsorbed by the first magnet 73 of the central rotor 172 and released into the guiding guide path 82, and are variable with a high probability. It flows into the starting port 26 (a region that is advantageous for the player).
[0053]
In particular, in the third embodiment, the rotating body 170 includes a central rotor 172 provided at a central portion in the longitudinal direction thereof, and a left and right drum-shaped right and left extending integrally from both sides of the central rotor 172. And the two-sided rotors 174 are formed integrally and continuously, and have a substantially gourd shape as a whole shape. Accordingly, the sphere B is provided on the left and right rotors 174 in cooperation with the rear wall 80 (in the longitudinal center of the rotating body 170) and outside (the longitudinal end of the rotating body 170). The outer lateral path 100a and the inner lateral path 100b that are guided in both lateral directions are respectively configured.
Therefore, in the third embodiment, the movement of the ball B flowing on the ball receiving shelf 61 can be further changed as compared with the first embodiment, and the interest of the game can be further enhanced.
Further, the ball B flowing on the ball receiving shelf 61 is attracted to the first magnet 73 of the central rotor 172 of the rotating body 170, or the second magnet 175 and the third magnet of each of the left and right rotors 174. The probability that the ball B flows into the variable starting port 26 (the area advantageous to the player) can be changed depending on whether or not the ball B is attracted by the 176.
[0054]
The present invention can be implemented even if the third embodiment is changed as described below.
For example, the center rotor 172 of the rotating body 170 and the left and right rotors 174 are connected to different drive mechanisms so as to be able to transmit torque, and the center rotor 172 and the left and right rotors 174 are individually connected. It is also possible to control rotation.
In this case, for example, the rotation speed, the rotation direction, and the rotation / stop of the center rotor 172 and the left and right rotors 174 are individually controlled in accordance with the game situation to change the flow of the ball B. It is possible to make it.
[0055]
The present invention is not limited to the first to third embodiments.
For example, in the first to third embodiments, the ball B flowing on the board of the game board 10 first flows in from the inflow port 51 of the accessory device 40, and is then received by the ball receiving portion 60 thereunder. Thereafter, the ball B is configured to rotate and move along the horizontal path 100 (the outer horizontal path 100a and the inner horizontal path 100b) on the horizontally long rotating body 70 (170) via the ball receiving shelf 61. It does not necessarily have to be provided. In other words, the present invention may be configured such that the ball B flowing on the board surface of the game board 10 is directly received on the ball receiving portion 60 or the rotating body 70 (170). Further, the ball B flowing on the board of the game board 10 may be received at a substantially central portion on the rotating body 70 (170).
In addition, the ball receiving portion 60 is provided with the rotating body 70 (170) and the ball receiving shelf 61 on which the ball B can rotate and move along the front side of the rotating body 70 (170). Need not necessarily be provided.
Also, the guide path 82 having the inflow port 81 opening to the rear wall 80 may not be necessarily provided.
Also, the first to third magnets 73, 75, 76 (173, 175, 176) of the rotating body 70 (170) need not necessarily be provided.
[0056]
In the first to third embodiments, the case where the inflow ports 51 through which the balls B flowing on the board surface (front surface) of the game board 10 can flow in are provided on both the left and right sides of the main item main body 41, respectively. However, the present invention can also be implemented when the inflow ports 51 are provided only on one of the left and right sides of the main part 41.
Further, also in the rotating body 70 (170), the sphere B is moved in the vicinity of both ends in the longitudinal direction by the rotation of the rotating body 70 about the horizontal axis, and the first discharging path 101 and the second discharging path 102 are moved. However, the present invention can be implemented by providing the distributing unit 79 only on one side of the rotating body. In this case, it is desirable that the rotating body is formed in a tapered cylindrical shape in which one end side has a large diameter and gradually decreases in diameter toward the other end side.
[0057]
【The invention's effect】
As described above, according to the present invention, the sphere that has flowed from the inlet of the accessory device is transferred to the first discharge path or the second discharge path via the horizontal path provided on the horizontally long rotating body. It can be distributed to any of them.
In this manner, the movement path of the ball can be varied, and when the ball flows on the first release path, the ball is flowed into a region that is advantageous to the player with a high probability, thereby providing a game. Give the player a sense of expectation and enhance the interest in the game.
[Brief description of the drawings]
FIG. 1 is a front view showing an entire game board of a gaming machine according to Embodiment 1 of the present invention.
FIG. 2 is an enlarged perspective view of the accessory device.
FIG. 3 is a perspective view showing a rotator unit integrally provided with a rotator, a holding member, a motor, and the like.
FIG. 4 is a perspective view showing the rotator.
FIG. 5 is an explanatory diagram showing a state in which a ball received on a ball receiving shelf is released from a side discharge unit or a central discharge unit.
FIG. 6 is an explanatory view showing a state in which a ball received on a ball receiving shelf is discharged from an outlet through a guide path.
FIG. 7 is a view showing a ball received on the ball receiving shelf passing through the left and right lateral paths of the rotator. It is explanatory drawing which shows the state discharged | emitted to each discharge | release path | pass.
FIG. 8 is a view showing a ball received on the ball receiving shelf passing through the left and right lateral paths of the rotator, a sphere on one side of the rotator serving as a second discharge path, and a sphere on the other side as a first path; It is explanatory drawing which shows the state discharged | emitted to each discharge | release path | pass.
FIG. 9 is an explanatory view showing another embodiment of the rotating body according to the first embodiment of the present invention.
FIG. 10 is a perspective view showing a lower part of the accessory device according to Embodiment 2 of the present invention.
11 is a sectional view based on the line XI-XI in FIG.
FIG. 12 is a perspective view showing a lower portion of the accessory device according to Embodiment 3 of the present invention.
FIG. 13 is a perspective view showing a rotating body.
FIG. 14 is a sectional view based on the line XIV-XIV of FIG. 13;
FIG. 15 is a sectional view based on the line XV-XV of FIG. 13;
FIG. 16 is a sectional view based on the line XVI-XVI of FIG. 13;
FIG. 17 is a sectional view based on the line XVII-XVII of FIG. 13;
18 is a sectional view based on the line XVIII-XVIII in FIG.
FIG. 19 is an explanatory view showing a state in which a ball received on the ball receiving shelf is released from the central discharge unit.
FIG. 20 is an explanatory diagram showing a flow of a sphere discharged from the central discharge unit.
FIG. 21 is an explanatory view showing a state in which a ball received on a ball receiving shelf is discharged from an outlet through a guide path.
FIG. 22 is an explanatory diagram showing a flow of a sphere discharged from an outlet of the guideway.
FIG. 23 is an explanatory diagram showing a state in which a ball received on the ball receiving shelf flows through the inner guide path on the inner rotor on the side rotor of the rotator.
FIG. 24 is an explanatory view showing a state in which a sphere that has flown on the outer lateral path of the rotating body flows to a second discharge path by the distribution unit.
FIG. 25 is an explanatory diagram showing a state in which a sphere that has flown on the outer lateral path of the rotating body flows to the first discharge path by the distribution unit.
[Explanation of symbols]
10 game board
25 Ball entry device
26 Variable starting port (area that is advantageous for players)
40 Character device
41 Main body
51 Inlet
60 Ball receiver
61 Ball tray
64 side discharge section
65 Central discharge section
70 Rotating body
73 1st magnet
75 Second magnet
76 Third magnet
80 Rear wall
81 Inlet
82 Guideway
83 Outflow
100 lateral route
101 First release route
102 Second release route

Claims (9)

And a ball receiving portion for receiving a ball flowing on the board of the game board and guiding some of the balls to a region advantageous to the player. hand,
In the ball receiving portion, a horizontally long rotating body is mounted rotatably around a horizontal axis,
On the rotator, a lateral path for rotating the ball toward its longitudinal end is configured,
Near the longitudinal end of the rotator, there is provided a distribution unit for distributing the sphere to a first release path and a second release path in accordance with the rotation of the rotator about a horizontal axis. ,
A gaming machine having a configuration in which a sphere that has flowed in the first release path flows into a region that is advantageous to the player with a higher probability than a sphere that has flown in the second release path. The gaming machine according to claim 1,
The accessory device is a gaming machine having an inflow port into which a ball flowing on a game board surface can flow, and a ball receiving portion provided below the inflow port. The gaming machine according to claim 1 or 2,
The distributing portion is formed on the outer peripheral surface of a portion near the end in the longitudinal direction of the rotating body, and causes the sphere to rotate along a horizontal axis of the rotating body, thereby causing one of the first and second discharge paths to rotate. A sphere discharge section leading to a discharge path,
A sphere formed at a portion adjacent to an end in the longitudinal direction of the rotator, which receives a sphere that has passed through the traverse path of the rotator due to the rotation of the rotator about the horizontal axis, and disengages the sphere with the other discharge path Game machine comprising a guiding portion for guiding to a game machine. The gaming machine according to claim 1 or 2,
The distributing portion is a first sphere discharge portion formed on the outer peripheral surface of a portion near the longitudinal end of the rotating body and guiding the sphere to a first discharge path with a rotation operation of the rotator about a horizontal axis. And a second ball discharge portion formed on the outer peripheral surface of the rotating body to be displaced from the first ball discharge portion and guiding the ball to a second discharge path. The gaming machine according to any one of claims 1 to 4,
A gaming machine in which a ball receiver is provided with a ball receiver on which a ball is rotatable along a front side of a rotating body, and at least a part of a first release path is constituted by the ball receiver. The gaming machine according to any one of claims 1 to 5,
A guide that has a rear side wall that forms a lateral path in cooperation with the rotary body at the rear side of the rotary body and has an inflow port through which a ball on the rotary body can flow into a part of the rear side wall. A road is formed,
A gaming machine in which at least a part of a first discharge path is constituted by the guide path. The gaming machine according to any one of claims 1 to 4,
The ball receiving portion is provided with a ball receiving shelf on which a ball can rotate and move along the front side of the rotating body,
A rear side wall that forms a lateral path in cooperation with the rotary body is provided on the rear side of the rotary body, and an induction port having a part of the rear side wall having an inflow port into which a ball on the rotary body can flow is provided. A guideway is formed,
A gaming machine in which a first discharge path is constituted by the ball receiving shelf and the guide path. The gaming machine according to claim 7,
The rotator attracts the sphere on the ball receiving shelf by magnetic force, and moves the sphere to the inlet of the guide guideway with the rotation of the rotator around the horizontal axis, and moves the ball into the guide guideway. Game machine equipped with a magnet that emits to the machine. The gaming machine according to claim 7 or 8,
The sphere is attracted to the rotating body by a magnetic force, and the sphere is moved to a position where it abuts on the rear wall with the rotation of the rotating body about the horizontal axis, and the sphere is discharged to the lateral path. Game machine provided with a magnet to be used.

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