JP4396912B2 - Bullet ball machine - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a ball ball game machine that plays a game by launching a game ball from an upper side position of the ball ball game machine in a game area formed on a board surface of the game board.
[0002]
[Prior art]
In recent ball game machines, with the increase in the size of the liquid crystal panel, which is a variable display device provided approximately at the center of the game board, the inflow of game balls below the variable display device has increased. There is a tendency that the restrictions on the game board formation become large as it becomes difficult, etc., and in order to eliminate these restrictions, the ball game machine is in the game area formed on the board surface of the game board. It has been proposed that a game ball is launched from the upper side position of the player to eliminate restrictions such as installation of a launch rail, and that the size of the game board, particularly the vertical size, is increased.
[0003]
However, a ball ball game machine that launches a game ball from the upper side position of the above-mentioned ball ball game machine and plays a game is based on the launch operation provided by the player at the upper side position of the ball ball game machine. Since the game apparatus is provided with a lifting means for lifting and supplying the game ball stored in the hit ball storage section provided at the lower position of the game machine, the conventional launcher is used as the game machine. It is necessary to carry out inspections and maintenance such as removing foreign substances clogged with these pumping means or removing dirt attached with pumping more frequently than those provided at the lower position of In order to improve these maintainability and workability, a glass door frame that integrates the lifting means with the hit ball storage unit and covers the front surface of the game area, a separate glass door frame and a hit ball storage Some parts are exposed by opening .
[0004]
[Problems to be solved by the invention]
In the ball game machine provided to expose the lifting means by opening the glass door frame integrated with the hit ball storage unit, the separate glass door frame, and the hit ball storage unit. Although the maintainability and workability are greatly improved, a supply passage for supplying the game ball from the hit ball storage unit to the lifting means is provided from the opened hit ball storage unit to the gaming machine frame side. Therefore, the game ball supplied from the hit ball storage part (top plate) to the lifting means overflows due to the opening of the hit ball storage part (in the case of integration, the glass door frame), which is troublesome in the inspection and maintenance. There was a problem.
[0005]
Therefore, the present invention has been made paying attention to the above-mentioned problems, and in the inspection and maintenance, the game ball does not overflow even if the hitting ball storage part is opened, and more maintainability and workability are achieved. The aim is to provide a ball game machine that excels in performance.
[0006]
[Means for Solving the Problems]
  In order to solve the above-described problems, a ball game machine of the present invention is provided at a game machine frame to which a game board is attached and a lower position of the ball game machine, and stores a game ball for use in a game. A ball storage section for transporting, a lifting means for lifting game balls stored in the ball storage section, and an upper side position of the ball game machine. A ball ball game comprising: a launching device for launching the played game ball into the game area; and a game ball supply passage for aligning and supplying the game balls stored in the hit ball storage unit to the lifting means In the machine
The lifting means has a spiral convex portion on the outer periphery and is rotatably supported by a screw member, and a linear lift formed along the side surface of the spiral convex portion of the screw member. And a drive motor that rotationally drives the screw member in a predetermined direction. The spiral convex portion is lifted so that the game ball and the upper surface of the spiral convex portion are in contact with each other in the lift passage. The screw member that has a lifting device exposed in the feeding passage and a recess that can accommodate a game ball supplied from the hit ball storage portion on the outer periphery, and rotates horizontally in conjunction with the rotation of the screw member. A disc-shaped sprocket that is supplied from the game ball supply passage and is supplied from the game ball supply passage to the lift passage one by one every time a plurality of rotations are provided, and is provided in the gaming machine frame. As well as
Overflow of game balls due to the removal of the hit ball storage portion is provided in the separation portion of the game ball supply passage, wherein the hit ball storage portion is provided detachably with respect to the gaming machine frame and separated by the release of the hit ball storage portion An overflow prevention part to prevent
The sprocket is provided so that the lifting passage and the recess that are erected form a single passage at a predetermined rotational position, and each time one game ball is launched in the launching device, By supplying one game ball accommodated in the recess so as to come into contact with the upper surface of the spiral convex portion at the predetermined rotational position, the game ball stored in the hitting ball supply tray is supplied to the subsequent game ball. Supplied to the launcher in a single state without being pushed upAnd the rotational movement direction of the outer periphery of the sprocket and the rotational movement direction of the outer periphery of the screw member in the lifting means are the same direction.It is characterized by that.
  According to this feature, by providing an overflow prevention part in the separation part of the game ball supply passage, the game ball will not overflow even if the hitting ball storage part is removed during inspection and maintenance. A ball game machine with excellent maintainability and workability can be provided. In addition, the supply of game balls is surely performed to the lifting device, and the number of shot balls within a predetermined time does not decrease due to a supply error of game balls. Sales will not decrease.
[0007]
In the bullet ball game machine of the present invention, the overflow prevention unit is movable to a position where the overflow of the game ball is prevented and a position where the overflow is not blocked, and the overflow piece is used as an overflow of the game ball. A spring member that urges to a position that prevents the game ball, and the blocking piece moves to a position that prevents overflow of the game ball by the urging force of the spring member by detachment of the hitting ball storage portion. preferable.
If it does in this way, the said overflow prevention part can be formed with a simple structure, and the cost rise by providing these overflow prevention parts can be suppressed.
[0008]
  The ball game machine of the present invention isThe hit ball storage unit is detachable by rotating in the forward direction of the gaming machine with respect to the gaming machine frame,It is preferable that the moving direction of the blocking piece is substantially the same as the direction in which the hit ball storage unit is detached.
  In this case, the mechanism for moving the blocking piece can be simplified by making the moving direction of the blocking piece and the separation direction of the hit ball storage portion substantially the same direction, and by providing these overflow blocking portions Cost increase can be further reduced.
[0009]
The bullet ball game machine of the present invention is preferably provided with an extraction means for extracting the game ball that stops inside the game ball supply passage.
In this way, it is possible to simply pull out the game ball that stops inside the game ball supply passage and perform inspection and maintenance work, thereby improving workability.
[0010]
  The ball game machine of the present invention isA foul sphere flow path installed in parallel along the lifting passage to cause a foul sphere that has not reached the game area due to weak launch momentum to flow down from the launcher,
The launcher is
A launch arm for projecting a game ball toward the game area;
A launch cam that slides in contact with one end of the launch arm and causes the launch arm to swing in a predetermined manner for the ball of the game ball;
A ball lift arm that guides and waits for a game ball supplied from the lifting device to a ball position where the launch arm bullets;
A lift cam that is in sliding contact with one end of the ball lift arm and causes the ball lift arm to perform a predetermined swing operation for the guidance;
A drive motor for rotationally driving the firing cam and the lift cam;
A launch rail that is disposed so as to circumscribe the swinging arc of the launch arm and the ball lift arm, and guides the game ball bulleted by the launch arm to the game area;
An inlet provided at an inclined lower end position of the firing rail and communicating with the foul ball passage;
A foul ball passage valve that opens and closes the inlet;
Have
The foul ball passage valve is opened and closed as the ball lift arm swings.It is preferable.
  In this way,To obtain a stable firing strength.it canAt the same time, the foul ball can be recovered from the launcher.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Example)
A pachinko machine 2 that is a ball game machine of the present embodiment, together with a card unit 3 that is a gaming device arranged one-on-one at a side position of the pachinko machine 2, is provided on the front and rear surfaces of a game island (not shown). Used in parallel.
[0012]
Inside the amusement island where the pachinko machine 2 and the card unit 3 are juxtaposed, a supply basket for supplying pachinko balls to the pachinko machines 2 and pachinko balls discharged and used by the pachinko machines 2 A banking device and the like (not shown) for collecting and transporting the banknotes to the supply basket are provided, and banknotes discharged from each card unit 3 are provided at the end of the island in a predetermined direction at a substantially central portion in the height direction. A bill transport path (not shown) that can be transported to a collected collection box (not shown), and coins and prepaid cards discharged from each card unit 3 can be mixed and transported to the collection box at the island end in the predetermined direction. A mixing conveyance path (not shown) is provided.
[0013]
A pachinko machine 2 which is a ball game machine of the present embodiment will be described with reference to the drawings. The pachinko machine 2 has a glass door frame 202 formed in a frame shape as shown in FIG. As shown in FIG. 4, there is a hitting ball supply tray 203 as a hitting ball storage section for storing the rented balls and the paid-out prize balls, on the lower front surface of the door frame 202. The glass door frame 202 is integrated with the game machine frame 201 and is pivotally supported so as to be openable. The operation unit 14 is provided at a predetermined position on the upper surface of the hitting ball supply tray 203, and a surplus ball receiving tray 204 for storing the award balls overflowing from the hitting ball supply tray 203 and the hitting ball are fired at the lower portion of the hitting ball supply tray 203. A hitting operation handle (hereinafter referred to as an operation knob) 205 is provided. Note that reference numeral 241 in FIG. 1 denotes a cylinder lock for opening the glass door frame 202 including the hitting ball supply tray 203.
[0014]
As shown in FIG. 4, the operation unit 14 has a game read out from a prepaid card, which is a game recording medium inserted into a card insertion slot 314 (described later) provided in the card unit 3 by the player. A frequency display unit 17 that displays a frequency as a value, and a case where a remaining frequency is present in the frequency display unit 17 when a game is started or when a ball is reduced or lost in the hitting ball supply tray 203 A lending button 16 for lending a predetermined number of pachinko balls and a pressing operation when ending the game, a new remaining number is recorded on the prepaid card inserted in the card unit 3. And a return button 15 to be returned, and these components are mounted on an operation board 18 provided in the operation unit 14.
[0015]
Next, as shown in FIG. 3, a game board 206 is detachably attached to the inside of the glass door frame 202 and is located at an upper left side position toward the game board 206. Are a launching device 500 for firing a pachinko ball toward the game board 206, and a lifting unit 400 for lifting the pachinko ball stored in the hitting ball supply tray 203 to the launching device 500. In the lower position of the hitting ball supply tray 203, a pachinko ball stored in the hitting ball supply tray 203 is aligned and connected to the lower unit 401 of the lifting unit 400 and a connecting flow path 415 is provided so as to be supplied to 415, and the pachinko balls stored in the hitting ball supply tray 203 flow into the guide slope 283. 230 (see FIG. 4), flows down the guide inclined rod 283, passes through the crank channel 416 and the connection channel 415, and is supplied to the lower unit 401 provided at the lower end position of the lifting unit 400. In the present embodiment, the lifting unit 400 is lifted and supplied to the launching device 500 and is launched into the game area 207 formed on the front surface of the game board 206 (see FIG. 17). By opening the glass door frame 202, the flow path is separated between the crank flow path 416 and the connection flow path 415.
[0016]
In addition, a foul ball that has been launched by the launching device 500 but has not reached the game area 207 due to weak launch momentum flows down to the lateral position of the lifting path that constitutes the lifting unit 400. A foul sphere flow path 295 is provided, and at the lower end of the foul sphere flow path 295, a foul sphere inflow port 288 connected to an award ball path 273, which will be described later, is provided. It is returned to the hitting ball supply tray 203 or the surplus ball receiving tray 204 through the foul ball passage 295, the foul ball inlet 288, and the prize ball passage 273. (See Figure 18)
[0017]
In addition, the upstream position of the connecting flow path 415 that is the closest position of the lower unit 401 serving as a lifting ball supply means for supplying pachinko balls into the lifting path constituting the lifting unit 400, that is, the glass door frame 202. In the portion separated and released by opening, as a extracting means for allowing the pachinko ball (standby ball) stopped on the crank flow path 416, the guide inclined rod 283 and the hitting ball supply tray 203 to flow down to the surplus ball receiving tray 204. 1 and FIG. 20, a return operation button provided at the lower left position of the hitting ball supply tray 203, which is a position corresponding to the standby ball return section 420, is provided. By pressing 296, the pachinko ball (standby ball) is returned (extracted).
[0018]
As shown in FIGS. 20 and 21, the configuration of the standby ball return unit 420 used in this embodiment is an opening for allowing a pachinko ball to flow into the standby ball return basket 242 formed at the lower part of the standby ball return unit 420. 421 is formed, and a slide plate 423 slidably disposed on the lower surface of the crank channel 416 formed at the end of the guide inclined rod 283 moves in the front-rear direction when the operation button 296 is pressed. The slide plate 423 slides in the front-rear direction as the connecting rod 424 moves, and a spring 422 moves the connecting rod 424 forward (outward) in the connecting rod 424. The slide plate 423 is stretched so as to be biased in the direction of closing the opening 421. As shown in FIG. When the slide plate 423 is urged forward by the pulling 422, the slide plate 423 closes the opening 421, so that the pachinko ball passes over the slide plate 423, and the lifting unit is connected through the connection channel 415. While the pachinko ball is supplied to 400, when the operation button 296 is operated, as shown in FIG. 21A, the operation button 296 is pressed to slide against the bias of the spring 422. As the plate 423 slides inward and the opening 421 is exposed on the bottom surface of the crank passage 416, the pachinko balls flow into the standby ball return basket 242 as shown in FIGS. Pachinko balls (standby balls) are returned to the ball receiving tray 204.
[0019]
Further, in this embodiment, as shown in FIG. 13, a stopper portion 429 is provided adjacent to the standby ball return portion 420, and when the glass door frame 202 is opened, the stopper portion 429 is provided with the stopper portion 429. Thus, the pachinko ball is prevented from overflowing from the downstream end of the crank flow path 416.
[0020]
As shown in FIGS. 13 and 22, the stopper portion 429 used in this embodiment includes a slide plate 430 that is slidable so as to be able to cross the crank flow path 416, and the slide plate 430 of the pachinko machine 2. In the state in which the glass door frame 202 is opened, that is, in the state in which the hit ball supply tray 203 is detached, as shown in FIG. When the slide plate 430 is moved to a position that closes the communication port 433 between the crank channel 416 and the connection channel 415 by the biasing force of the biasing spring 432, pachinko balls overflow from the communication port 433. When the glass door frame 202 is closed, that is, when the hitting ball supply tray 203 is mounted, the engagement formed on the side surface of the slide plate 430 by the mounting operation. When the portion 431 and the outer side wall of the connection channel 415 are in contact with each other, the slide plate 430 slides in the outward direction of the pachinko machine 2 against the biasing of the biasing spring 432, and the communication port 433 By releasing the blockage, pachinko balls are supplied to the connection channel 415 as shown in FIG.
[0021]
In this way, the structure of the stopper portion 429 that is an overflow prevention portion is formed by the slide plate 430 and the biasing spring 432, so that these overflow prevention portions can be formed with a simple structure. However, the present invention is not limited to this, and the overflow prevention unit is configured to have another configuration, for example, the opening of the glass door frame 202 is electrically detected. Then, the slide plate 430 may be operated by a solenoid.
[0022]
Here, the lifting unit 400 used in the present embodiment will be described mainly with reference to FIG. 12. The lifting unit 400 is mainly used to lift pachinko balls one by one inside. The screw 403 is housed, and is provided at a lower end position of the feed path case 402 having a feed path case 402 having an opening / closing part 425 that is openable and closable on the front side thereof. The lower unit 401 includes a driving motor 410 for driving, a ball supply sprocket 413 for supplying a pachinko ball into the lifting path, and a connection channel 415 for guiding the pachinko ball to the ball supply sprocket 413. Yes.
[0023]
As shown in FIGS. 12B and 13, the lower unit 401 is configured to supply pachinko balls that have flowed down the guide inclined rod 283, the crank flow path 416, and the connection flow path 415 to the inside of the lifting path. A disc-shaped sphere supply sprocket 413 is provided to be coaxially supported by a passive gear 412 that meshes with a drive gear 411 driven by a drive motor 410 that drives the lifting screw 403, On the outer periphery of the sphere supply sprocket 413, a substantially semicircular sphere accommodating portion 414 for accommodating one pachinko sphere is provided.
[0024]
In addition, in the present embodiment, in order to alleviate the ball pressure supplied to the ball supply sprocket 413 and the ball pressure supplied to the standby ball return unit 420, the flow direction of the pachinko balls in the guide inclined rod 283 is reduced. A crank passage 416 for reducing the ball pressure by guiding the pachinko sphere in a different direction from the above is provided, and the standby ball return portion 420 is provided at a downstream position of the crank passage 416. It is devised so that the pachinko ball after the relaxation is supplied to the standby ball return unit 420 so that the pachinko ball flows down below the standby ball return unit 420 well.
[0025]
In addition, the pachinko ball whose ball pressure has been relieved in the crank flow passage 416 is further reduced in the inside of the lower unit 401 after the ball pressure is further relieved in the connecting flow passage 415 bent in a substantially inverted S shape when viewed from above. It is supplied to the ball supply sprocket 413 so as to go around.
[0026]
As shown in FIG. 14A, the pachinko balls supplied to these ball supply sprockets 413 are moved by the rotation of the ball supply sprocket 413 so that the ball receiving portion 414 is directed toward the inlet of the pachinko balls. The pachinko sphere is taken into the sphere housing portion 414. Next, as shown in FIG. 14 (b), the pachinko sphere taken into the inside of the ball housing portion 414 moves in the rotation direction as the ball supply sprocket 413 rotates, as shown in FIG. 14 (c). In addition, the pachinko balls are supplied into the ball passage portion 404 constituting the lifting path at a position where the ball supply sprocket 413 is rotated 90 degrees.
[0027]
When the pachinko ball is supplied by the ball supply sprocket 413, the passive gear 412 and the drive gear 411 prevent the pachinko ball from colliding with the spiral convex portion of the lifting screw 403. The lifting screw 403 is synchronized, and at the same time as the pachinko ball is supplied into the ball passage 404, the lower end of the spiral convex portion of the lifting screw 403 and the supplied pachinko ball are in sliding contact. Thus, the pachinko balls are lifted and extracted from the inside of the ball housing portion 414 so that the supplied balls can be quickly transferred to the lifting. .
[0028]
Further, the passive gear 412 and the drive gear 411 have a gear ratio that is lifted by the lift screw 403 rotated coaxially with the drive gear 411 to a substantially intermediate position in the lift path. The gear ratio is such that the passive gear 412 makes one round at the number of rotations (three rotations in this embodiment), and every time the pachinko ball is lifted to an intermediate position in the lifting path, that is, Each time a pachinko ball already lifted to the intermediate position is supplied to the launching device 500, one pachinko ball is supplied to the lifting screw 403, The drive motor 410 that drives the passive gear 412 and the drive gear 411 is connected to the connection connector 410 ′, and the operation thereof is the launch / lift control board 291. Controlled by In Rukoto, pumped pachinko balls by pumped unit 400 in conjunction with the firing of pachinko balls from the launcher 500, the supply is adapted to be implemented.
[0029]
The ball feeding sprocket 413 feeds pachinko balls one by one, as shown in FIGS. 12 (a) and 12 (b), the ball path portion through which the supplied pachinko balls are fed. And a pachinko ball that is conveyed while the outer periphery 403a of the spiral convex portion of the lifting screw 403 is exposed to the ball passage portion 404. The shaft is supported so as to be in sliding contact with the rotation of the lifting screw 403, and the pachinko ball is moved upward in the ball passage portion 404.
[0030]
The transport path case 402 is made of a transparent resin (acrylic resin), and using such a transparent resin means that the state inside the ball passage portion 404 and the inside of the screw accommodating portion 405 are as follows. Although it is preferable because it can be easily confirmed without being visually decomposed, the present invention is not limited to this, and the feed path case 402 may be formed of an opaque resin or metal.
[0031]
In addition, the spiral protrusion of the lifting screw 403 used in this example is formed of a conductive polypropylene resin, which is a conductive material that is low in friction and excellent in antistatic ability. Forming the spiral protrusions with a conductive material or an antistatic material having an antistatic ability means that static electricity is generated by the sliding of the pachinko ball and the lifting screw 403 during the lifting of the pachinko ball. It is preferable that the lifting screw 403 is appropriately grounded so that even if the pachinko sphere is already charged, the charge of the pachinko sphere can be removed. The invention is not limited to this, and the lifting screw 403 is formed of a metal having better conductivity, or a normal resin having no antistatic ability. It may be formed.
[0032]
In the present embodiment, as described above, both the lifting screw 403 and the ball supply sprocket 413 are driven by the drive motor 410 which is the same drive source. Since the number of power sources can be reduced compared to the case where a drive motor is provided in the motor, the cost can be reduced, and the synchronization (interlocking) of the lifting screw 403 and the ball supply sprocket 413 can be performed as described above. However, the present invention is not limited to this, and each power source may be controlled as an individual drive motor. .
[0033]
In the present embodiment, as described above, the opening / closing portion 425 is provided on the front side of the lifting path case 402, and in this way, the opening / closing portion 425 is opened, However, the present invention is not limited to this, and the opening / closing portion 425 may not be provided. .
[0034]
Further, in this embodiment, since the lifting unit 400 is attached so that the ball passage portion 404 is located on the inner side of the pachinko machine 2, the opening / closing portion 425 is opposite to the ball passage portion 404. However, the present invention is not limited to this. For example, when the lifting unit 400 is attached so that the ball passage portion 404 is located on the front side of the pachinko machine 2, the present invention is not limited thereto. An opening / closing part may be provided in the ball passage part 404.
[0035]
The operation of the drive motor 410 is lifted from the ball supply port 417 formed at the upper end of the ball passage portion 404 by the launch / lift control board 291 in conjunction with the launch of the pachinko ball from the launch device 500. It is controlled so that the pachinko ball thus made is discharged and supplied to the launching device 500.
[0036]
Next, the launching device 500 used in the present embodiment will be described with reference to FIGS. 12, 15, and 16. Inside the outer case 510 of the launching device 500, a common swinging shaft 513 is pivotally supported. A supported ball lift arm 502 and firing arm 503 are provided.
[0037]
One end of the ball lift arm 502 and the firing arm 503 has a lift cam fixed coaxially to a cam shaft 501 ′ that is rotationally driven by a cam drive motor 511 fixed to the upper back surface of the launching device 500. When the lift cam 501a and the firing cam 501b are rotated, the ball lift arm 502 and the launch arm 503 perform individual swinging operations by slidingly contacting the lift cam 501a and the launch cam 501b. At the same time, the launch arm 503 is stretched below the launch device 500 so as to be substantially parallel to the launch rail 508 inclined so as to circumscribe the swing arc of the lift arm 502 and the launch arm 503. The ball lift arm 502 is urged by a spring for spring 504, and the ball lift arm 502 is stretched so as to be substantially orthogonal to the firing spring 504. And it is biased by the lift spring 506.
[0038]
The other end of the firing spring 504 that is not connected to the firing arm 503 is coupled to a slide piece 505 that is slidable in the stretching direction of the firing spring 504, and the slide piece 505 is fired. The urging force of the launch arm 503 is adjusted by sliding with the launch intensity adjusting motor 512 fixed on the back side of the apparatus 500 so that the launch intensity of the pachinko ball launched by the launch arm 503 can be adjusted. The adjustment of the firing intensity is performed by controlling the operation of the firing intensity adjusting motor 512 by the launching / lifting control board 291 based on the operation of the hitting ball operating handle 205.
[0039]
In addition, at the inclined lower end position of the firing rail 508, the opening and closing of the inlet 294 to the foul ball passage 295 is slidably brought into contact with the lower end of the ball lift arm 502 so that the ball lift arm 502 swings. A foul ball passage valve 507 to be implemented is provided, and the foul ball passage valve 507 is always urged by a spring (not shown) so as to open the inflow port 294.
[0040]
First, as shown in FIG. 15A, the launching operation of the launching device 500 is such that both the ball lift arm 502 and the launching arm 503 cause the lift spring 506 and the launching spring to move as the cam 501 rotates. It is swung to the position of the lower corner of the launching device 500 against the urging force of 504, and in this state, the drive motor 410 of the lifting unit 400 is driven and lifted from the ball supply port 415. The sent pachinko ball is supplied to the launching device 500.
[0041]
As shown in FIG. 15 (b), the pachinko ball supplied to the launching device 500 first starts to swing only by the ball lift arm 502 by the rotation of the lift cam 501a. On the same plane as the swing plane of the launch arm 503, the ball lift arm 502 is guided to a predetermined launch position on the launch rail 508. During this guidance, the foul ball passage valve 507 is in sliding contact with the lower end of the ball lift arm 502 as the ball lift arm 502 swings, so that the inlet 294 is closed.
[0042]
A circular window through which a launch spring provided at the tip of the firing arm 503 can be inserted is formed at the outer peripheral end of the ball lift arm 502, and is guided to the firing position in the circular window. The pachinko ball is held, and holding the pachinko ball thus fired can improve the positional accuracy of the pachinko ball at the time of launch and enables stable launch of the game ball. Although it is preferable from the above, the present invention is not limited to this, and a configuration in which these holdings are not performed may be employed.
[0043]
Further, the shape of the lift cam 501a is such that the outer diameter thereof is greatly increased so that the moving speed of the swinging lower end of the ball lift arm 502 is increased in the region far from the launch position, and in the vicinity of the launch position. , The outer diameter of the ball lift arm 502 is slightly increased so that the guiding speed of the pachinko sphere guided by the moving speed of the lower end of the swing of the ball lift arm 502 becomes low. It is preferable that the induction speed of the pachinko sphere is low in the vicinity of the launch position because a stable launch intensity can be obtained by reducing the blur (vibration) of the pachinko sphere during the induction. However, the present invention is not limited to this, and a configuration in which the low-speed induction is not performed may be employed.
[0044]
Furthermore, in this embodiment, the low speed induction is performed by the shape of the lift cam 501a. This is because, for example, the low speed induction is performed by the rotational speed control of the cam drive motor 511 or the like. Compared to the above, it is preferable not only that smooth low-speed induction is possible, but also that the repeated acceleration / deceleration of the rotational speed can be avoided and the wear of the cam drive motor 511 can be reduced. However, the present invention is limited to this. However, these low-speed inductions may be performed by controlling the rotational speed of the cam drive motor 511.
[0045]
Next, the pachinko ball guided to a predetermined launch position on the launch rail 508 is released from the force against the launch spring 504 as the launch cam 501b rotates as shown in FIG. 15C. As a result, the launch arm 503 swings in the direction of the arrow in the figure with a momentum proportional to the biasing force of the launch spring 504, and is thus launched into the game area 207 through the launch path 509 on the launch rail 508. It is.
[0046]
At this time, as shown in FIG. 16 (a), the pachinko ball that has not reached the game area 207 flows down on the firing rail 508 to the inclined lower side as shown in FIG. 16 (b). However, as the cam 501 rotates after firing, both the ball lift arm 502 and the firing arm 503 swing against both springs 504 and 506 as shown in FIG. By starting the movement, the foul ball passage valve 507 that has slidably contacted with the lower end portion of the ball lift arm 502 until then has closed the inflow port 294 of the foul ball flow path 295 has been released. By returning to the standing state by a spring (not shown), the inflow port 294 is opened, and the foul sphere flowing down on the firing rail 508 flows into the foul sphere flow path 295, and the foul sphere flow path 295 Foul ball inlet 288 formed at the lower end, is returned to the striking feed tray 203 or surplus ball pan 204 through prize balls passage 273. (See Figure 18)
[0047]
Next, the game area 207 formed on the front surface of the game board 206 will be described. The game area 207 of the present embodiment has a launching device 500 at the upper left side position toward the game board 206, so that Since the pachinko machine has no launch rail or the like, the game area 207 is greatly expanded downward compared to the game area of the conventional pachinko machine, and its shape is a hanging bell shape. . In the vicinity of the upper center of the game area 207, as shown in FIG. 3, a variable display section 209 for variable display of a plurality of types of identification information called “special symbols”, and an individual symbol (book) called “ordinary symbols” In the embodiment, there is provided a variable display device 208 including a display 210 in which “◯” and “×”) are alternately lit. In this embodiment, the variable display unit 209 is formed by an LCD display (liquid crystal display), and can display a special symbol variably. Specifically, in the display area of the variable display unit 209, nine variable display areas are formed on the display in a manner of being arranged in the vertical and horizontal directions, and in these areas, a plurality of symbols common to each area are individually variable. Is displayed.
[0048]
Further, the display 210 has two LEDs on the left and right, and the special symbol displayed on the variable display unit 209 is variably started based on the start winning of the hitting ball at the start winning opening 214 as will be described later. . On the other hand, the normal symbol displayed on the variable display unit 210 is variably started based on the hit ball passing through the first passage gate 211a as described later.
[0049]
Below the variable display portion 209, a start winning memory display 218 having four display portions (LEDs) for storing and displaying the number of starting winning balls won in the starting winning opening 214 is provided. In this embodiment, with an upper limit of four, every time a start prize is stored, one additional LED of the start prize storage display 218 is lit. Each time the variable display unit 209 starts variable display of the special symbol, one LED is turned off.
[0050]
A first passage gate 211 a that guides the hit ball is provided on the side of the variable display device 208. The first passage gate 211a includes a gate switch 212a that detects a hit ball that has passed through the first passage gate 211a.
[0051]
The start winning opening 214 is provided with a movable piece 215, which is opened by the solenoid 216, and the starting winning ball that has won the starting winning opening 214 is guided to the back of the game board 206, and the start switch 217. Detected by.
[0052]
In addition, a second pass gate 211b and a third pass gate 211c are provided below the start winning opening 214, and both pass gates 211b and 211c each have a gate switch 212b for detecting a passed ball. 212c, and when the hit ball passes through the second passage gate 211b, the opening / closing operation of the movable piece 269a of the accessory device 269 provided at the central lower position of the game area 207 is performed twice. When the hit ball passes through the third passage gate 211c, the opening / closing operation of the movable piece 269a of the accessory device 269 is performed once.
[0053]
A variable winning ball apparatus 219 provided with an opening / closing plate 220 is attached to a position below both the passage gates 211b and 211c. When the gaming state becomes a big hit state (specific gaming state), the opening / closing plate 220 is opened by the solenoid 221 and the big winning opening of the variable winning ball apparatus 219 is opened. A winning ball that has entered a specific winning area (V pocket) among balls that have entered the big winning opening is detected by the V count switch 222. On the other hand, a winning ball that has won a normal winning area other than the specific winning area in the big winning opening is detected by the count switch 223.
[0054]
In addition, an accessory device 269 is provided at the lower center position of the game area 207, and a movable piece 269a that is opened and closed by a solenoid 269b is provided on the outer periphery of the right and left of the accessory device 269. A rotating body 269c that is driven and rotated by a rotating body drive motor 269e is provided at the center position, and a hitting ball wins at the center position inside the accessory device 269 on the outer periphery of the upper surface of the rotating body 269c. A V winning opening 269d is formed in which a gaming state is a big hit state (specific gaming state), and a hitting ball that has won a prize in the V winning opening 269d is detected by the V ball detection switch 269g, whereby a big winning state (specific Gaming state). Further, both side regions of the V winning opening 269d are voids, and a hit ball that has not won the V winning opening 269d falls into the void and is detected by the winning ball detection switch 269f. Yes.
[0055]
The game board 206 is provided with a plurality of winning holes 224a to 224c. A decorative lamp 225 that is lit and displayed during the game is provided around the left and right sides of the game area 207, and an out port 226 that collects a hit ball that has not won a prize is provided at the bottom. Further, as shown in FIG. 1, two speakers 227 that emit sound effects are provided on the left and right upper portions outside the game area 207, and a game effect LED 228a and a game effect lamp are provided on the outer periphery of the game area 207. 228b and 228c are provided.
[0056]
In this embodiment, a prize ball lamp 251 is provided in the vicinity of one speaker 227 for lighting when a prize ball is paid out, and a ball break lamp 252 that is lit in the vicinity of the other speaker 227 when a supply ball is cut. Is provided.
[0057]
The hit ball launched from the launching device 500 by the operation of the hitting operation knob 205 enters the game area 207 and flows down the game area 207. When the hit ball passes through the passage gate 211a and is detected by the gate switch 212a, the normal symbol stopped and displayed on the display 210 is variably started. If the hit ball passes through the passage gate 211a during the variable display of the display 210, the passage is stored, and the passage memory is stored after the display 210 stops and can start changing again. By subtracting “1”, the display 210 is variably controlled. The upper limit of the passing memory is set to “4”, for example, and the current passing memory number is displayed by a passing memory display (not shown).
[0058]
Further, when the hit ball is won at the start winning opening 214 and is detected by the start winning opening switch 217, the special symbol displayed on the variable display unit 209 starts scrolling if the variation of the special symbol can be started. . For example, if the change of the special symbol cannot be started immediately because the variable display has already started and the special symbol is changing, the start winning memory is increased by one.
[0059]
When the display result after the variable display operation of the indicator 210 becomes a predetermined specific display result (for example, the left LED corresponding to the above “◯” is lit), it is provided in the start winning opening 214. The movable piece 215 thus formed is opened for a predetermined time, which is advantageous for a player who can easily win a pachinko ball in the start winning opening 214.
[0060]
If a pachinko ball is won in the start winning port 214 and detected by the start winning port switch 217, all special symbols are variable in the variable display unit 209 of the variable display device 208 if the variation of the special symbol can be started. Display (variation display) starts. After that, when the special symbols in the 9 area are stopped and the specific display mode (for example, 777) determined in advance is aligned on a predetermined line, the number of seconds corresponding to the display mode is displayed. Meanwhile, the movable piece 269a of the accessory device 269 is released, and the hit ball can flow into the upper surface of the rotating body 269c.
[0061]
When any one of the striking balls that have flowed into the upper surface of the rotating body 269c wins the V winning opening 269d while the movable piece 269a is opened, a specific game state (big hit state) occurs. The specific display mode in which the movable piece 269a is thus opened is called a big hit symbol, and in this example, a plurality of types are determined in advance.
[0062]
When the big hit state occurs in this way, the opening / closing plate 220 of the variable winning ball apparatus 219 is opened, and a first state advantageous to the player is obtained. This first state ends when a predetermined period (for example, 30 seconds) or a predetermined number of hit balls (for example, 10) wins, whichever comes first, and then the player This is a disadvantageous second state. If a hit ball that has entered the large winning opening of the variable winning ball apparatus 219 in the first state wins the specific winning area (V pocket) and is detected by the V count switch 222, the first time of that time Waiting for the end of the state, the opening / closing plate 220 is opened, and the first state is entered again. In this embodiment, the repeated continuous control in the first state can be executed up to 15 times. Such a time when the first state that can be executed 15 times at maximum is called a round of repeated continuation control. In this example, the repeated continuation control can be repeatedly executed from the first round to the maximum 15th round.
[0063]
In addition, when the special symbols of the nine areas variably displayed on the variable display unit 209 of the variable display device 208 are stopped and displayed with a combination of big hit symbols that match the same symbol type, a big hit occurs as described above. When the big winning symbol is a plurality of lines, or when different special symbols are displayed in all nine areas, the big winning is generated in comparison with the normal gaming state when the V winning opening 269d is won. The probability variation state (hereinafter also referred to as a probability variation state) in which the probability of performing the variation is high. A special display mode jackpot symbol that triggers the occurrence of such a probability variation state is called a probability variation symbol. Hereinafter, the jackpot generated by the probability variation symbol is referred to as a probability variation jackpot, and is distinguished from the normal jackpot which is a jackpot generated by a jackpot symbol other than the probability variation symbol (non-probability variation symbol).
[0064]
Once a probability variation jackpot occurs in the normal gaming state, the probability variation state is, for example, a probability variation state until a jackpot for at least a predetermined number of probability variation continuations (for example, once or twice) occurs. Is continuously controlled. Further, if a probability variation big hit occurs during the probability variation state, the probability variation continuation count is counted again after that probability variation big hit, and then the probability variation state continues until at least the number of probability variation continuations occurs. If the jackpot that has reached the probability variation continuation count is due to a non-probability variation symbol other than the probability variation symbol, the normal gaming state in which the probability variation does not occur is returned.
[0065]
In the variable display unit 209 of the variable display device 208, a reach state may occur. Here, the “reach state” refers to a specific state even when the variable display unit 209 of the variable display device 208 is variably started and reaches a stage before the display control proceeds and the display result is derived and displayed. A display mode that does not deviate from the display condition that is the display mode. In other words, the reach is a display for making the player think that the combination of the specific display modes is easily displayed at the stage where the display result of the variable display device 208 has not yet been derived and displayed. State. For example, the reach display state includes a state in which the variable display unit 209 performs variable display while maintaining a state where the combinations of the specific display modes are aligned. Furthermore, some reach is likely to generate a big hit when it appears, compared to normal reach (normal reach). Such a specific reach is called super reach.
[0066]
The reach state is a display state at the time when the display control of the variable display device 208 progresses to reach a stage before the display result is derived and displayed, and before the display result is derived and displayed. It also refers to a display state when at least a part of the display results of the determined plurality of variable display areas 209 satisfies the condition for the specific display mode.
[0067]
The opening and closing of the movable piece 269a of the accessory device 269 is also performed by the passage of the second passage gate 211b and the third passage gate 211c, and the hitting ball flows into the upper surface of the rotating body 269c by the opening and closing, and a V prize is awarded. A big hit state (specific game state) also occurs when winning the mouth 269d. In this case, the repeated continuation control can be repeatedly executed from the first round to the maximum eighth round. When the display result of the variable display unit 209 during a big hit becomes a specific display mode (for example, 777), the big hit ends and the movable piece 269a is opened. ing.
[0068]
Next, the structure of the back surface of the pachinko machine 2 will be described with reference to FIG. A mechanism plate 236 is provided on the back side of the game board 206 of the pachinko machine 2, and a variable display control on which a display control board 280 for performing display control of the variable display unit 209 is mounted on the mechanism plate 236. A unit 229, a game control board 231 covered with a game control board box 232 and mounted with a game control microcomputer, etc., a prize ball control board 237 equipped with a payout control microcomputer for performing payout control of pachinko balls, etc. are installed. Has been. Furthermore, a launching / lifting control board 291 on which a microcomputer for controlling the operation of the lifting unit 400 and the launching device 500 is mounted, and a game effect LED 228a at the right corner portion of the mechanism plate 236 toward the upper corner. There are provided a lamp control board 235 for sending signals to the game effect lamps 228b and 228c, and a voice control board 270 on which a microcomputer for controlling voice output from the speaker 227 is mounted.
[0069]
Further, reference numeral 290 in FIG. 2 is provided in a flow path to the surplus ball receiving tray 204, and a full tank switch 213 for detecting a full tank of the surplus ball receiving tray 204 or an upstream portion of the ball dispensing device 297. The game control board 231 receives signals from various switches such as a ball break switch 233, a count switch 223, a V count switch 222, a prize ball count switch 248a, and a lending ball count switch 248b. It is the switch relay board | substrate for frames for relaying to.
[0070]
A ball tank 238 is provided on the top of the mechanism plate 236, and pachinko balls are supplied to the ball tank 238 from a supply pipe (not shown) derived from the supply rod of the game island. Pachinko balls in the ball tank 238 are supplied to the ball dispensing device 297 through the guide rod 239.
[0071]
Two ball supply passages 245 are connected to the downstream end portion of the guide rod 239 via a curve rod 243 and a ball supply rod 244, and the lower end of the ball supply passage 245 is connected to a winning prize. The pachinko ball that flows down the guide rod 239 is suspended in a swingable manner with the mounting boss as a fulcrum. By the ball leveling member 249 attached, the ball flowing down in two levels is made one level by the action of the weight embedded in the ball leveling member 249 and divided into two lines by the guide rod 239. After that, the flow direction is changed from the left and right directions downward by the curve rod 243 and is supplied to the dispensing device 297 via the ball supply rod 244 and the ball supply passage 245.
[0072]
In addition, a ball break switch 233 is provided corresponding to each item in the path of the ball supply passage 245, and the ball break switch 233 allows 25 balls, which is the number of balls lent at one time in the dispensing device 297. Whether pachinko balls are prepared in the ball supply passage 245 is detected.
[0073]
Further, the bent portion of the curve rod 243 is provided with a ball release valve 247, and the operation lever (not shown) for operating the ball release valve 247 is operated by operating it from the front side of the pachinko machine 2. The balls waiting in the guide rod 239 and the ball tank 238 on the upstream side of the unit are discharged to the out ball tank of the game island through the ball extraction passage 246 provided substantially parallel to the ball supply passage 245.
[0074]
As shown in FIGS. 10 and 11, the payout device 297 is provided with sprockets 606 for ball cutting corresponding to the respective strips of the ball supply passage 245. Three notches (see FIG. 11) are formed on the outer periphery of the sprocket 606. When the sprocket 606 is rotated by the drive of the payout motor 601, the pachinko balls that have entered the notch are moved downward one by one. It is supposed to be discharged. Further, the sprockets 606 corresponding to the respective strips are arranged so that the positions of the notches are shifted from each other, and the pachinko balls are alternately discharged by synchronously rotating both the sprockets 606.
[0075]
Below these sprockets 606, a prize ball count switch 248a and a rental ball count switch 248b for detecting the passage of the pachinko balls paid out from the payout device 297 and the pachinko balls paid out for the prize balls are rented out. The pachinko balls to be paid out are detected independently, and the upstream position of the prize ball count switch 248a and the lending ball count switch 248b swings by the excitation or release of the sorting solenoid 602, A flow path switching valve 607 for switching the flow path of the pachinko balls discharged by the rotation of the sprocket 606 to either the detection path of the prize ball count switch 248a or the detection path on the lending ball count switch 248b side. Is provided.
[0076]
In the payout device 297, when the prize ball is paid out, the pachinko ball discharged by the rotation of the sprocket 606 is detected by the prize ball count switch 248a by setting the flow path switching valve 607 to the state shown in FIG. After that, the prize ball passage 273 is discharged. At the time of paying out the ball, the flow path switching valve 607 is swung by the excitation of the sorting solenoid 602, and the state as shown in FIG. 11B is obtained, and the pachinko ball discharged by the rotation of the sprocket 606 is the rental ball. After the detection by the count switch 248b, the prize ball passage 273 is discharged.
[0077]
In addition, an upper plate communication port 274 communicating with the hitting ball supply tray 203 of the glass door frame 202 is provided at a downstream position of the prize ball passage 273, and the pachinko balls paid out from the payout device 297 are used for the prize ball passage 273. Moreover, it is paid out and stored in the hitting ball supply tray 203 through the upper plate communication port 274. Further, at the side of the upper plate communication port 274, the lowermost end portion is connected to a surplus ball passage 271 that communicates with a surplus ball receiving tray 204 provided below the glass door frame 202. Since the pachinko balls stored in the plate 203 are full, the pachinko balls overflowing from the upper plate communication port 274 flow down the surplus ball passage 271 and flow down to the surplus ball receiving plate 204. .
[0078]
Further, in this embodiment, a foul ball inlet 288 connected to the lower end of the foul ball passage 295 is formed in the path of the prize ball passage 273, and the foul that has flowed in from the foul ball inlet 288 is formed. The balls flow down the prize ball passage 273 and are returned to the hitting ball supply tray 203 or the surplus ball receiving tray 204.
[0079]
Further, as shown in FIG. 5, in the path of the surplus ball passage 271, the full tank switch 213 for detecting that the pachinko balls that have flowed down to the surplus ball receiving tray 204 are full in the surplus ball receiving tray 204. When the full tank switch 213 is turned on, the driving of the payout motor 601 of the ball payout device 297 is stopped to disable the payout operation of the winning ball and the rental ball.
[0080]
In addition, you may make it also stop the drive of the drive motor 410 of the cam drive motor 511 of the discharge device 500 and the raising unit 400 as needed. The full tank switch 213 has its upper end pivotally supported by a shaft projection and is positioned so as to be swingable. An actuator constituting the full switch 213 is positioned behind the detection lever to detect the swing operation of the detection lever. Is.
[0081]
Here, the configuration on the inner surface side of the mechanism plate 236 will be described. On the inner surface side of the mechanism plate 236, as shown in FIG. 6, a winning ball guiding passage 276 for guiding a winning ball and an out ball are guided. An out-ball passage 277 is formed. Above the winning ball guiding passage 276 is a winning ball dropping entrance 278, which is collected and released by a winning ball guiding cover body (not shown) formed so as to cover the back of the game board 206. The received ball is guided by the winning ball guiding passage 276 toward one side and guided to the back side of the mechanism plate 236 from the communication port 279 formed in the mechanism plate 236. Further, the communication port 279 and the downstream portion of the bulb passage 246 are led to a confluence passage 286 that communicates with the passage 286. The ball removal passage 246 is bent in an inverted L shape along the outer peripheral edge of the mechanism plate 236 at a position upstream of the joining portion with the joining passage 286, and is formed on the substantially rear side of the mechanism plate 236. It finally joins a merged discharge passage 287 formed on the right side of the surplus ball passage 271.
[0082]
Accordingly, the winning balls discharged from the game board 206 and received from the winning ball drop entrance 278 via the winning ball guiding cover body are stored in the winning ball guiding passage 276, the communication port 279, the merging passage 286, and the ball removal passage 246. It is guided to the outside of the pachinko machine 2 through the most downstream portion and the merged discharge passage 287. The space between the winning ball drop entrance 278 and the winning ball guide passage 276 is supported so as to vibrate by the winning ball falling from the winning ball drop entrance 278 and rolls on the winning ball guide passage 276. A guide member for aligning the winning balls to be aligned is provided.
[0083]
The out ball passage 277 is formed below the concave portion 281 formed on the side of the winning ball drop entrance 278 so as to overlap with the winning ball guiding passage 276 in the vertical direction. A communication port 282 is opened in the main body so as to communicate with the merged discharge passage 287. The concave portion 281 described above is for accommodating a game board locking lever attached to substantially the center of the lower part of the game board storage frame in order to fix the lower part of the game board 206 from the back surface.
[0084]
Accordingly, the out ball taken in from the out port 226 of the game board 206 is guided to an out ball discharge passage (not shown) engraved and formed on the back surface of the game board 206, and is further provided at the lower part of the game board storage frame. After being guided to the above-described out-ball passage 277 through the out-ball communication port formed in the plate-like portion, the outside ball is guided to the outside of the pachinko machine 2 through the communication port 282 and the junction discharge passage 287. That is, the above-described merged discharge passage 287 is joined with all the ball removal balls from the ball removal passage 246, out balls from the out ball passage 277, and winning balls from the winning ball guide passage 276. It is guided and discharged from the merged discharge passage 287 to the outside of the pachinko machine 2.
[0085]
A power supply unit box 272 that houses a power supply unit board that generates a plurality of power supplies having different voltages is provided at a position on the left side of the merge discharge path 287. A power connector to which a power line is connected is mounted on the power unit board. A power line connected to the power connector is routed to a lower portion of the mechanism plate 236 along a wiring processing groove (not shown) formed on the back side of the mechanism plate 236, and each opening provided in the main body of the mechanism plate 236. To the front side of the main body and connected to the power connector. The voltage supplied by the power supply line is a voltage of AC24V, and a plurality of voltages generated by the power supply unit board (power supply generation board) are four types of DC30V, DC21V, DC12V, and DC5V. (However, AC24V is also supplied to other substrates.)
[0086]
In addition, the power supply unit board is used to back up (hold) the stored contents of the RAM provided on each board while the driving power is not supplied to each CPU of the game control board 231 and the prize ball control board 237. Backup power is supplied to the board. Note that the game control board 231 and the prize ball control board 237 perform processing for backup by outputting a power-off signal from the power supply unit board (power generation board).
[0087]
A game control board box 232 that houses a game control board 231 for controlling the game operation is detachably attached to the back side of the power supply unit box 272 described above. The attachment is made to the horizontal projecting plate 284 that is bridged in a slightly upper part from the lower side of the opening window 240 of the mechanism plate 236. The laterally projecting plate 284 includes a lamp control board 235 and a sound control board that are attached to the back side of the power supply unit box 272 and the game board 206 when the game control board box 232 is attached. The height is set so as to be superimposed so as not to come into contact with the control board box that accommodates 270, and is substantially the same as the height of the L-shaped protruding plate.
[0088]
Here, when an example of the circuit configuration of the game control board 231 of the pachinko machine 2 of this embodiment is shown in FIG. 7, the game control board 231 includes a basic circuit 253 that controls the pachinko machine 2 according to a program, and a winning ball detection. Switch 269f, V ball detection switch 269g, gate switches 212a-c, start winning port switch 217, V count switch 222, count switch 223, winning ball detection switches 299a-c, full tank switch 213 (full tank receiving tray 204 full tank Full switch 213), a ball break switch 233, a prize ball count switch 248 a, a switch circuit 258 that gives signals from the lending ball count switch 248 b to the basic circuit 253, a solenoid 216 that opens and closes the movable piece 215, and an opening and closing Solenoid 221 for opening and closing the plate 220, possible The solenoid 269b for opening and closing the piece 269a, the motor / solenoid circuit 259 for driving the rotating body drive motor 269e for rotating the rotating body 269c in accordance with a command from the basic circuit 253, and the start winning memory display 218 are turned on and blinking. And a lamp / LED circuit 260 for driving the display 210 and the decorative lamp 225.
[0089]
In addition, the game control board 231 generates jackpot information indicating the occurrence of a jackpot, starting information indicating the number of starting winning balls used for variable display of the variable display device 208, and probability variation in accordance with data provided from the basic circuit 253. A first information output circuit 264 that outputs probability variation information indicating that the information is output to an external management computer or the like.
[0090]
The basic circuit 253 includes a ROM 254, a RAM 255, a CPU 256, an I / O port 257, and a clock generation unit 250. The ROM 254 is for storing various information (data) such as a game control program. The RAM 255 is for use as a work memory. The CPU 256 performs a control operation such as a game control operation in accordance with various control programs such as a game control program. The I / O port 257 has a plurality of ports provided for input / output of various information such as data and signals. The clock generation unit 250 supplies an operation clock serving as a reference timing when the basic circuit 253 operates to each unit in the basic circuit 253 such as the CPU 256.
[0091]
Further, the game control board 231 includes an initial reset circuit 266 for resetting the basic circuit 253 when the power is turned on, a periodic reset circuit 265 for periodically resetting the basic circuit 253 after the power is turned on, and the basic circuit 253. An address decoding circuit 267 that decodes a given address signal and outputs a signal for selecting any I / O port of the I / O ports 257 is provided.
[0092]
The basic circuit 253 is initially reset by the initial reset circuit 266 when the power is turned on. Further, after the power is turned on, the basic circuit 253 is periodically reset (for example, every 2 ms) by the periodic reset circuit 265, and interrupt processing is executed. Thus, each time the interrupt process is executed, the game control program is executed again from the predetermined position.
[0093]
The hitting ball launching device 500 that launches hitting balls and the lifting unit 400 that supplies hitting balls to the hitting ball launching device 500 are linked to the launching of the hitting ball launching device 500 by the circuit on the launching and lifting control board 291. The lifting unit 400 is controlled to intermittently lift the pachinko ball and supply the lifting ball to the hitting ball launching device 500.
[0094]
At this time, when a continuous firing operation is performed by the operation knob 205, the drive motor 410 of the lifting unit 400 is substantially moved without changing the rotation speed in the lifting of the continuous pachinko ball. The pachinko balls intermittently supplied from the ball supply sprocket 413 are lifted at the same rotational speed, and in this way, in the continuous pachinko ball lift, The wear of the drive motor 410 due to acceleration / deceleration can be reduced and the lifted ball dances in the ball passage portion 404 as compared with the case where the supply speed of the pachinko ball to the hitting ball launcher 500 is measured by changing the rotation speed. However, the present invention is not limited to this, and the rotational speed is not limited to this. By reduction may be measure supply synchronization to hitting the firing device 500.
[0095]
The launching force of the launching ball by the launching device 500 is controlled by the operation of the launching intensity adjusting motor 512 provided in the launching device 500 according to the operation amount of the operation knob 205, and the biasing force of the launching spring 504 is controlled. Is adjusted according to the operation amount of the operation knob 205. In other words, the circuit on the launch / lift control board 291 is controlled so that the hit ball is launched at a speed corresponding to the operation amount of the operation knob 205.
[0096]
Also, from the game control board 231 to the display control board 280, display control command data and an interrupt signal (hereinafter referred to as a display control signal) as a strobe signal are provided as command information relating to display control of the variable display unit 209 of the variable display device 208. Is also transmitted). On the display control board 280 side, display control of the variable display unit 209 is performed in accordance with the instruction content of the display control command data CD.
[0097]
From the game control board 231 to the lamp control board 235, command information relating to control of the game effect LED 228a, prize ball lamp 251, ball-out lamp 252 and game effect lamps 228b and 228c controlled by the lamp control board 235 is provided. Information such as a lamp control signal is transmitted.
[0098]
From the game control board 231 to the voice control board 270, information such as command data for voice control as command information relating to voice control such as sound effects outputted from the speaker 227 by the voice control board 270 is transmitted. In accordance with the voice control command data, the voice control microcomputer provided in the voice control board 270 performs voice control such as generation of sound effects from the speaker 227.
[0099]
Further, the basic circuit 253 generates a predetermined number of prize balls based on the detection signals of the winning ball detection switches 299a to 299c, the detection signal of the start winning port switch 217, the detection signal of the V count switch 222, and the detection signal of the count switch 223. A prize ball signal for payout is output to the prize ball control board 237. The prize ball control board 237 controls the ball payout device 297 based on the outputted prize ball signal to perform a control for paying out a predetermined number of prize balls.
[0100]
Specifically, with respect to the winning balls that have won the big winning opening of the variable winning ball apparatus 219, for example, 15 winning balls are paid out by detecting one winning ball in the count SW, and the starting winning opening 214 is given. For example, five winning balls are paid out when one winning ball is detected at the start winning hole SW with respect to the winning balls that have been won, and the other winning balls 224a to 224c are won with winning. One ball is detected by any of the winning ball detection SWs 299a to 299a-c provided corresponding to each winning port, and for example, five winning balls are controlled to be paid out.
[0101]
In order to control the payout of two types of prize balls, the game control board 231 performs a control operation as follows. When a detection signal from the winning ball detection switch 269f, the V ball detection switch 269g, the start winning port switch 217, the V count switch 222 or the count switch 223 is input, the detection signal is used when determining the number of payout balls. As the number-of-payout determination data, it is temporarily stored internally according to the number of prize balls paid out according to the switch. Thereafter, if any of the detection signals of the winning ball detection switches 299a to 299c is input, it is determined by referring to the payout number determination data whether there is a detection signal from the start winning port switch 217 before the input. If there is, the game control board 231 outputs a prize ball command signal for instructing the prize ball control board 237 to pay out the number of prize balls of “5”. When there is a detection signal from the count switch 223 or the V count switch 222, a prize ball command signal for giving a payout command of the number of prize balls of “15” is output. On the other hand, when there is a detection signal from any of the winning ball detection switches 299a to 299c, a detection signal is input from any of the start winning port switch 217, the count switch 223, or the V count switch 222 before that. If not, the game control board 231 outputs a prize ball command signal of “5” to the prize ball control board 237. In the prize ball control board 237, the control for causing the prize payout device 297 to pay out the prize ball is executed by the payout control microcomputer based on the prize ball command signal.
[0102]
In addition, when the detection signal from the full tank switch 213 indicates a full state, a prize ball prohibition command signal is sent to the prize ball control board 237 according to the situation, and the ball dispensing device 297 determines the prize ball. Stop paying out.
[0103]
Further, a second information output circuit unit 268 is provided on the prize ball control board 237 so that information on the number of prize balls to be controlled controlled by the prize ball control board 237 can be output to the outside. Yes.
[0104]
The prize ball control board 237 is connected to an I / O port 319 provided on a card unit control board (not shown) of the card unit 3 via a connection cable 262 and a connection connector 263 (see FIGS. 2 and 8). Connected, and a later-described lending completion signal (EXS) and a pachinko machine ready signal (PRDY) are output to a later-described microprocessing unit (MPU) 321 provided in the card unit 3, and A card unit ready signal (BRDY) and a lending request completion confirmation signal (BRQ), which will be described later, output from the MPU 321 of the card unit 3 are input.
[0105]
2 and 8, the operation board 18 is connected to the I / O port 319 of the card unit 3 via a connection cable 262 and the connection connector 263, and the lending button 16 is A lending input signal that is output when the player makes a ball lending operation or a return button 15 is operated, and the player returns the prepaid card inserted into a card insertion slot 314 (to be described later). The return input signal output in this case is output to the MPU 321 of the card unit 3, and a frequency signal for performing display control of the frequency display unit 17 is input from the MPU 321. The display control of the frequency display unit 17 is performed by an output signal from the MPU 321 of the card unit 3. It has become.
[0106]
Next, the card unit 3 used in this embodiment will be described with reference to FIG. 1 and FIG. 8. On the front surface of the card unit 3, as shown in FIG. 301, a usable display 302 for displaying whether or not the prepaid card is usable, and a connecting base for displaying which side of the pachinko machine 2 is compatible with the card unit 3 A direction indicator 303 and a card insertion slot 314 into which a prepaid card can be inserted are provided.
[0107]
The structure of the card unit 3 will be described. As shown in FIG. 8, in addition to the operation lamp 301, the usable indicator 302, and the connecting table direction indicator 303, the card unit 3 is connected to the card insertion slot 314. A card reader / writer 317 that reads the later-described identification information (ID) recorded in the inserted prepaid card and the number of games, and writes a new frequency updated by the game, and the inserted The pachinko machine 2 is connected to the storage unit 318 that stores the frequency and the like read and written from the prepaid card, and stores a control program in which control contents executed by the MPU 321 described later are described, and the like. An I / O port 319 for inputting / outputting various signals to / from the prize ball control board 237 and the operation board 18; A communication unit 325 for performing data communication with a management computer (not shown) via a communication cable, and an MPU 321 for performing display control, input detection, and the like of these units and the frequency display unit 17 mounted on the operation board 18. These parts are connected as shown in FIG.
[0108]
Further, as described above, each of these card units 3 is connected to a management computer (not shown). When the prepaid card is inserted, the card unit 3 is read from the inserted prepaid card and stored in the storage unit 318. When a change is made to the frequency that has been added, or when the return processing and collection processing of the inserted prepaid card are performed, the identification information (ID) and frequency described later recorded on the prepaid card are recorded. Data, changed new frequency data, and the like are output to the management computer.
[0109]
The prepaid card inserted into the card insertion slot 312 is given and recorded with identification information (ID) that can identify each prepaid card, and the ID of the prepaid card and the corresponding prepaid card in the management computer. The card is registered in association with the corresponding frequency, and based on the identification information (ID) recorded on the prepaid card, the frequency that can be used by the prepaid card is specified by the management computer, By being notified to the card unit 3 and stored in the storage unit 318, a lending process for lending a pachinko ball used for a game of the pachinko machine 2 based on the stored frequency can be performed. .
[0110]
The control status of this lending process will be described with reference to FIG. 9. First, the prize ball control board 237 of the pachinko machine 2 is supplied with balls to the ball tank 238 (see FIG. 2) of the pachinko machine 2 to When the payout becomes possible, the standby state is entered, and the PRDY is output as LOW to the MPU 321 of the card unit 3 (S1).
[0111]
When the lending button 16 is operated in such a state where PRDY is LOW, the MPU 321 of the card unit 3 outputs BRDY as LOW to the prize ball control board 237 (S2). Further, the BRQ is output as LOW to the prize ball substrate 237 (S3).
[0112]
Next, when the prize ball control board 237 detects BRQ in a state where the BRDY output from the MPU 321 is detected, the prize ball control board 237 outputs EXS as LOW to the MPU 321 (S4).
[0113]
The MPU 321 that detects the LOW of the EXS sets the output of the BRQ to HIGH, and the prize ball control board 237 that detects the HIGH of the BRQ outputs a ball payout signal to the ball payout device 297, and based on this, the ball payout control board 237 The payout of the corresponding number of balls (25 balls in this embodiment) is performed, and the output of the EXS is set to HIGH based on the end of the payout (S5).
[0114]
The MPU 321 that has detected HIGH of EXS subtracts 1 degree from the frequency read from the prepaid card inserted in the card insertion unit 314 of the card unit 3 and stored in the storage unit 318, and the frequency The display is updated by subtracting 1 degree from the frequency displayed on the display unit 17 (S6).
[0115]
The MPU 321 repeatedly performs the control of (S3) to (S6) as many times as lent based on one operation of the lending button 16 (for 5 degrees in FIG. 9), and after these controls are completed. , BRDY is set to HIGH to complete the lending process (S7).
[0116]
In this way, based on the number of times BRQ is output from the MPU 321 of the card unit 3, the prize ball board 237 rents pachinko balls of a quantity corresponding to one degree (25 balls). Thus, the player can play the game in the pachinko machine 2 by using the pachinko balls lent out.
[0117]
As described above, according to the pachinko machine 2 that is the ball game machine of the present embodiment, the stopper portion 429 that is an overflow prevention portion is provided downstream of the crank passage 416 that is the separation portion of the game ball supply passage. In the inspection and maintenance, even if the glass door frame 202 is opened and the hitting ball supply tray 203 is detached, the game ball does not overflow, and the bullet having better maintainability and workability. A ball game machine can be provided.
[0118]
  Each element in the embodiment corresponds to the present invention as follows.
  Claim 1 of the present invention provides a gaming machine frame 201 to which a gaming board 206 is attached, and a hitting ball provided in a lower position of the ball and ball gaming machine (pachinko machine 2) for storing gaming balls for use in gaming. A storage unit (hit ball supply tray 203), a lifting means (lifting unit 400) for lifting game balls stored in the hit ball storage unit (hit ball supply tray 203), The launching device 500 for launching the game ball lifted by the sending unit 400) into the game area 207, and the storing means (lifting unit 400) stores the hitting ball storage unit (the hitting ball supply tray 203). In the bullet ball game machine (pachinko machine 2) provided with game ball supply passages (guidance inclined rods 283, crank flow paths 416, connection flow paths 415) for aligning and supplying the game balls being used, the lifting means (Lifting unit 400) A screw member having a spiral convex part on the outer periphery and rotatably supported, a linear feed passage formed along a side surface of the spiral convex part of the screw member, and the screw A drive motor that rotates the member in a predetermined direction, and the spiral protrusion is exposed to the lifting passage so that the game ball and the upper surface of the spiral protrusion are in contact with each other in the lifting passage. Each time the screw member rotates a plurality of times by rotating horizontally in conjunction with the rotation of the screw member. And a disk-shaped sprocket for supplying the game balls supplied from the game ball supply passage and accommodated in the recesses one by one into the lift passage, provided on the gaming machine frame 201, and Hitting ball storage unit (hit supply tray 03) is detachably provided with respect to the gaming machine frame 201, and is separated by detachment of the hitting ball storage portion (hitting ball supply tray 203), the gaming ball supply passage (guide inclination rod 283, crank flow path 416, connection The separation portion of the flow path 415) is provided with an overflow prevention portion (stopper portion 429) for preventing overflow of the game ball by detachment of the hit ball storage portion (hit ball supply tray 203), and the sprocket is erected. The lifting passage and the recess are provided so as to form a single passage at a predetermined rotational position, and each time one game ball is launched in the launching device, By supplying the game ball so as to come into contact with the upper surface of the spiral convex portion at the predetermined rotational position, the game ball stored in the hitting ball supply tray is independently pushed up without being pushed up by the subsequent game ball. Supply to the launcher in stateAnd the rotational movement direction of the outer periphery of the sprocket and the rotational movement direction of the outer periphery of the screw member in the lifting means are the same direction.The
[0119]
According to a second aspect of the present invention, the overflow preventing portion (stopper portion 429) includes a blocking piece (sliding plate 430) that is movable between a position where the overflow of the game ball is blocked and a position where the overflow is not blocked. A spring member (biasing spring 432) that urges the blocking piece (slide plate 430) to a position where the gaming ball is prevented from overflowing, and the blocking piece (slide plate 430) is the ball striking part ( With the detachment of the hitting ball supply tray 203), the urging force of the spring member (the urging spring 432) moves to a position where the overflow of the game ball is prevented.
[0120]
  Claim 3 of the present invention providesThe hit ball storage unit is detachable by rotating in the forward direction of the gaming machine with respect to the gaming machine frame,The movable direction of the blocking piece (slide plate 430) is substantially the same direction as the direction of detachment of the hit ball storage unit (hit ball supply tray 203)..
[0121]
According to a fourth aspect of the present invention, there is provided an extraction means (standby ball return section 420) for extracting the game ball that stops inside the game ball supply passage (the guide inclined rod 283, the crank flow path 416, and the connection flow path 415). It was.
[0122]
  Claim 5 of the present invention providesA foul ball flow path installed in parallel along the lifting passage to cause a foul ball that has not reached the game area due to weak launch momentum to flow down from the launch device is provided. A launching arm for projecting a ball toward the game area, a launching cam slidingly contacting one end of the launching arm to cause the launching arm to perform a predetermined swinging motion for the game ball, and the lift A ball lift arm that guides the game ball supplied from the device to a bullet position where the launch arm bullets and waits, and a slidable contact with one end of the ball lift arm for guiding the ball lift arm for the guidance A lifting cam for predetermined swinging movement, a driving motor for rotationally driving the firing cam and the lifting cam, and a slanting arrangement so as to circumscribe a swinging arc of the firing arm and the ball lift arm. A launch rail for guiding the game ball bulleted by the game to the game area, an inflow opening provided at an inclined lower end position of the launch rail, and communicating with the foul ball flow path; A foul ball passage valve that opens and closes, and the foul ball passage valve opens and closes as the ball lift arm swings.The
[0123]
As mentioned above, although embodiment of this invention was described in the said Example with drawing, this invention is not limited to these each Example, There exists a change and addition in the range which does not deviate from the main point of this invention. Needless to say, these are also included in the present invention.
[0124]
For example, in the above embodiment, the pachinko balls are individually lifted by the lifting screw 403 as the lifting means, but the present invention is not limited to the lifting unit 400 by the lifting screw 403. In addition, as these lifting means, it is possible to lift pachinko balls, for example, a lifting device that lifts pachinko balls in a state where the inside of the lifting pipe is connected by a lifting sprocket, or a single pachinko ball can be lifted Such as a linear lifting device that lifts pachinko balls by sequentially moving the magnetized position, or a lifting device that has a bucket that houses the pachinko balls on a rotating belt, etc. An apparatus may be used.
[0125]
Moreover, in the said Example, the movable direction of the slide plate 430 used as a prevention piece is made into the substantially same direction as the removal direction of the said hitting ball supply tray 203 which is a hitting ball storage part. Although it is preferable because the mechanism for moving can be simplified and the increase in cost due to the provision of these stopper portions 429 can be further reduced, the present invention is not limited to this. For example, as shown in FIG. The guide inclined rod 283 ′ is connected to the side of the path 415 ′, and the movable direction of the slide plate 430 is substantially orthogonal to the detaching direction of the hitting ball supply tray 203 due to the engagement with the engagement protrusion 435. You may make it become a direction.
[0126]
In the embodiment, the biasing spring 432, which is a spring member, is biased so that the slide plate 430, which is a blocking piece, moves to a position where the pachinko ball is prevented from overflowing when the hitting ball supply tray 203 is detached. However, the present invention is not limited to this, and these spring members urge the slide plate 430 so as to move to a position that does not prevent the overflow of the pachinko balls. The slide plate 430, which is a blocking piece, may be moved to a position where the overflow of the pachinko balls is blocked against the bias of the spring member.
[0127]
Further, in the embodiment, the crank flow path 416 and the connection flow path 415 are provided in order to relieve the ball pressure of the pachinko sphere supplied to the ball supply sprocket 413. Although it is preferable because it is possible to avoid the occurrence of a supply failure of pachinko balls due to a high ball pressure supplied to the sprocket 413, the present invention is not limited to this, and the crank flow path 416 and the connected flow are not limited thereto. A configuration without the path 415 may be employed.
[0128]
Moreover, in the said Example, although the pachinko ball which exists in a pumping path is made into two, this invention is not limited to this, When sufficient pumping speed is obtained, these pumping paths The number of pachinko spheres existing inside may be one or zero.
[0129]
【The invention's effect】
  The present invention has the following effects.
  (A) According to the invention of claim 1, by providing the overflow prevention part in the separation part of the game ball supply passage, the game ball overflows even if the hit ball storage part is detached during inspection and maintenance. Therefore, it is possible to provide a ball game machine that is more maintainable and workable.In addition, the supply of game balls is surely performed to the lifting device, and the number of shot balls within a predetermined time does not decrease due to a supply error of game balls. Sales will not decrease.
[0130]
(B) According to invention of Claim 2, the said overflow prevention part can be formed with a simple structure, and the cost rise by providing these overflow prevention parts can be suppressed.
[0131]
(C) According to the invention of claim 3, the mechanism for moving the blocking piece can be simplified by setting the moving direction of the blocking piece and the detaching direction of the hit ball storage portion to be substantially the same direction. Cost increase due to provision of the blocking portion can be further reduced.
[0132]
(D) According to the invention of claim 4, it is possible to simply extract the game ball that stops in the game ball supply passage and perform inspection and maintenance work, thereby improving workability.
[0133]
  (D) According to the invention of claim 5,To obtain a stable firing strength.it canAt the same time, the foul ball can be recovered from the launcher.
[Brief description of the drawings]
FIG. 1 is a front view showing a ball game machine and a card unit according to an embodiment of the present invention.
FIG. 2 is a rear view showing a ball game machine and a card unit according to an embodiment of the present invention.
FIG. 3 is a view showing an open state of the glass door frame in the ball game machine according to the embodiment of the present invention.
FIG. 4 is an enlarged view showing a configuration of a lower part of the front surface of the ball game machine according to the embodiment of the present invention.
FIG. 5 is a view showing a pachinko ball flow path by a mechanism plate in the ball game machine according to the embodiment of the present invention.
FIG. 6 is a perspective view showing a mechanism plate in the ball game machine according to the embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of a ball game machine according to an embodiment of the present invention.
FIG. 8 is a block diagram showing the connection status between the ball game machine and the card unit and the configuration of the card unit in the embodiment of the present invention.
FIG. 9 is a diagram illustrating an output state of each signal output from the prize ball control board and the card unit of the ball game machine according to the embodiment of the present invention.
FIG. 10 is a view showing a payout device used in the ball game machine according to the embodiment of the present invention.
FIGS. 11A and 11B are explanatory diagrams of payout status in the ball game machine according to the embodiment of the present invention. FIGS.
FIG. 12 (a) is a detailed side sectional view showing a lifting device and a launching device used in an embodiment of the present invention.
(B) is a figure which shows the bb cross section of the conveying apparatus used for the Example of this invention.
FIG. 13 is a transparent perspective view showing a lower end portion of the lifting device used in the embodiment of the present invention.
FIGS. 14A to 14D are explanatory views of the supply status of pachinko balls to the lifting device according to the embodiment of the present invention.
FIGS. 15A to 15C are diagrams showing a launch situation in the launch device used in the embodiment of the present invention. FIGS.
FIGS. 16A to 16C are views showing a foul ball taking-in state in the launching device used in the embodiment of the present invention. FIGS.
FIG. 17 is a diagram illustrating a flow of a game ball at a normal time in the ball game machine according to the embodiment of the present invention.
FIG. 18 is a diagram showing the flow of a foul ball in the ball game machine according to the embodiment of the present invention.
FIG. 19 is a diagram showing a flow of game balls when returning a standby ball in the ball game machine according to the embodiment of the present invention.
FIG. 20 is an enlarged perspective view showing a configuration around a standby ball return unit in the ball game machine according to the embodiment of the present invention.
FIG. 21 (a) is a top view showing a situation during a return operation of the standby ball return unit.
(B) is a top view which shows the condition at the normal time of a waiting ball return part.
22A is a view showing a state of the stopper portion when the glass door frame 202 is released. FIG.
(B) is a figure which shows the state of the stopper part at the time of opening and closing of the glass door frame 202. FIG.
FIG. 23A is a diagram showing a state when the stopper portion of another form is detached.
(B) is a figure which shows the state at the time of mounting | wearing with the stopper part of another form.
[Explanation of symbols]
2 Pachinko machines (ball game machines)
3 Card unit
14 Operation unit
15 Return button
16 Lending button
17 Frequency display
18 Operation board
201 gaming machine frame
202 Glass door frame
203 Ball supply tray (top plate)
203 'upper plate housing
204 Surplus ball tray (lower plate)
204 'lower plate housing
205 Hitting operation handle (operation knob)
206 Game board
207 Game area
208 Variable display device
209 Variable display
210 Display
211a Passing gate
211b Passing gate
211c passing gate
212a Gate switch
212b Gate switch
212c Gate switch
213 Full switch
214 Start prize opening
215 movable piece
216 Solenoid
217 Start switch
218 Start winning memory indicator
219 Variable winning ball device
220 Opening and closing plate
221 Solenoid
222 V count switch
223 count switch
224a prize opening
224b prize opening
224c winning entrance
225 decorative lamp
226 Out mouth
227 Speaker
228a Game effect LED
228b Game effect lamp
228c Game effect lamp
229 Variable display control unit
230 Inducted inclined inlet
231 Game control board
232 Game control board box
233 Out of ball switch
234 Lower plate opening lever
235 Lamp control board
236 Mechanism plate
237 Prize ball control board
238 ball tank
239 guide rod
240 Open window
241 cylinder lock
242 Waiting ball return basket
243 Curve 樋
244 ball supply bowl
245 ball supply passage
246 Ball passage
247 Ball release valve
248a Count switch for prize ball
248b Lending ball count switch
249 Ball leveling member
250 clock generator
251 prize ball lamp
252 Out-of-ball lamp
253 Basic circuit
254 ROM (read-on-memory)
255 RAM (Random Access Memory)
256 CPU (Central Processing Unit)
257 I / O port
258 switch circuit
259 Solenoid circuit
260 Lamp / LED circuit
262 connection cable
263 Connector
H.264 first information output circuit
265 Periodic reset circuit
266 Initial reset circuit
267 Address decoding circuit
268 Second information output unit
269 Accessory equipment
269a Movable piece
269b Solenoid
269c Rotating body
269d V prize opening
269e Rotating body drive motor
269f winning ball detection switch
269g V sphere detection switch
270 Voice control board
271 Surplus ball passage
272 Power supply unit box
273 prize ball passage
274 Top plate communication port
276 winning ball guide passage
277 Out ball passage
278 winning ball drop entrance
279 communication port
280 Display control board
281 recess
282 Communication port
283 Induction tilting ridge
283 'guide tilt
284 Horizontal protruding plate
286 Junction passage
287 Confluence discharge passage
288 Foul Sphere Inlet
289 Box
290 Switch relay board for frame
291 Launch control board
292 Lamp module
294 Inlet
295 Foul sphere channel
296 Return operation button
297 Ball dispenser
298 communication port
299a winning ball detection switch
299b Winning ball detection switch
299c winning ball detection switch
301 Operation lamp
302 Available indicator
303 Connecting table direction indicator
314 Card slot
317 Card reader / writer
318 storage unit
319 I / O port
321 Microprocessing unit (MPU)
325 Communication Department
400 Lifting unit
401 Lower unit
401 'base plate
402 Lifting path case
403 Lifting screw
403a outer periphery
404 Ball passage
405 Screw housing
410 Drive motor
410 'connector
411 Drive gear
412 Passive gear
413 Ball supply sprocket
414 Ball housing part
415 Connection channel
415 'connecting channel
416 Crank passage
417 Ball supply port
420 Standby ball return section
421 opening
422 Spring
423 slide plate
424 connecting rod
425 Opening and closing part
429 Stopper part
430 slide plate
430 'slide plate
431 engaging part
432 Biasing spring
433 communication port
435 Engagement protrusion
500 launcher
500 'launcher
501 'camshaft
501a Lift cam
501b Launch cam
502 Ball lift arm
503 launch arm
504 Spring for launch
505 slide piece
506 Lifting spring
507 Foul ball passage valve
508 launch rail
509 Launch Path
510 exterior case
511 Cam drive motor
512 Fire strength adjustment motor

Claims (5)

A gaming machine frame to which a game board is attached, a hitting ball storage part for storing a gaming ball for use in a game, which is provided at a position below the ball game machine, and a gaming ball stored in the hitting ball storage part A launching means for launching a game ball lifted by the lifting means into the game area, and a lifting device for lifting the game ball. In a ball game machine comprising: a game ball supply passage for aligning and supplying game balls stored in the hit ball storage section to the lifting means;
The lifting means has a spiral convex portion on the outer periphery and is rotatably supported by a screw member, and a linear lift formed along the side surface of the spiral convex portion of the screw member. And a drive motor that rotationally drives the screw member in a predetermined direction. The spiral convex portion is lifted so that the game ball and the upper surface of the spiral convex portion are in contact with each other in the lift passage. The screw member that has a lifting device exposed in the feeding passage and a recess that can accommodate a game ball supplied from the hit ball storage portion on the outer periphery, and rotates horizontally in conjunction with the rotation of the screw member. A disc-shaped sprocket that is supplied from the game ball supply passage and is supplied from the game ball supply passage to the lift passage one by one every time a plurality of rotations are provided, and is provided in the gaming machine frame. As well as
Overflow of game balls due to the removal of the hit ball storage portion is provided in the separation portion of the game ball supply passage, wherein the hit ball storage portion is provided detachably with respect to the gaming machine frame and separated by the release of the hit ball storage portion An overflow prevention part to prevent
The sprocket is provided so that the lifting passage and the recess that are erected form a single passage at a predetermined rotational position, and each time one game ball is launched in the launching device, By supplying one game ball accommodated in the recess so as to come into contact with the upper surface of the spiral convex portion at the predetermined rotational position, the game ball stored in the hitting ball supply tray is supplied to the subsequent game ball. to supply and pumped to the firing device with no single state that pushed up, the rotation direction of movement and in the same direction der Rukoto of the screw member periphery and the rotational moving direction of said sprocket periphery of the pumped means A ball game machine characterized by   The overflow prevention unit includes a blocking piece movable between a position for preventing overflow of the game ball and a position for preventing overflow, and a spring for biasing the blocking piece to a position for preventing overflow of the game ball The ball game machine according to claim 1, further comprising: a member, wherein the blocking piece moves to a position where the overflow of the game ball is blocked by the urging force of the spring member by the separation of the hit ball storage unit.   The hit ball storage unit is detachable by rotating in the forward direction of the gaming machine with respect to the gaming machine frame, and the movable direction of the blocking piece is substantially the same direction as the detachment direction of the hit ball storage unit. The ball game machine according to claim 2.   The bullet ball game machine according to any one of claims 1 to 3, further comprising an extraction means for extracting a game ball that stops inside the game ball supply passage. A foul sphere flow path installed in parallel along the lifting passage to cause a foul sphere that has not reached the game area due to weak launch momentum to flow down from the launcher,
The launcher is
A launch arm for projecting a game ball toward the game area;
A launch cam that slides in contact with one end of the launch arm and causes the launch arm to swing in a predetermined manner for the ball of the game ball;
A ball lift arm that guides and waits for a game ball supplied from the lifting device to a ball position where the launch arm bullets;
A lift cam that is in sliding contact with one end of the ball lift arm and causes the ball lift arm to perform a predetermined swing operation for the guidance;
A drive motor for rotationally driving the firing cam and the lift cam;
A launch rail that is disposed so as to circumscribe the swinging arc of the launch arm and the ball lift arm, and guides the game ball bulleted by the launch arm to the game area;
An inlet provided at an inclined lower end position of the firing rail and communicating with the foul ball passage;
A foul ball passage valve that opens and closes the inlet;
Have
The ball game machine according to any one of claims 1 to 4, wherein the foul ball passage valve is opened and closed as the ball lift arm swings.

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