JP4833253B2 - Bullet ball machine - Google Patents

Bullet ball machine Download PDF

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JP4833253B2
JP4833253B2 JP2008142525A JP2008142525A JP4833253B2 JP 4833253 B2 JP4833253 B2 JP 4833253B2 JP 2008142525 A JP2008142525 A JP 2008142525A JP 2008142525 A JP2008142525 A JP 2008142525A JP 4833253 B2 JP4833253 B2 JP 4833253B2
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effect
movable
image display
support
display unit
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JP2009285284A (en
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邦夫 松元
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株式会社藤商事
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  The present invention relates to a ball and ball game machine such as a pachinko machine, in which a predetermined game state is produced by a long movable production body.

  In a ball game machine such as a pachinko machine, an image display means having an image display unit for variably displaying a plurality of effect symbols is arranged at a substantially central part of the game area of the game board, and the periphery of the image display unit is arranged. A special symbol display means and a movable effect body are arranged on the support frame on the edge side, and the action of the movable effect body is combined with the effect image displayed on the image display means in synchronization with this action in a specific gaming state. In addition, there is one in which an effect of the gaming state is performed (Patent Document 1).

  In this bullet ball game machine, when the special symbol starting means detects a game ball, the special symbol of the special symbol display means fluctuates for a predetermined time and stops in either the big hit mode or the off mode. On the other hand, all the cases where a plurality of (for example, three) effect designs of the image display means fluctuate for a predetermined time in a predetermined fluctuation pattern in synchronization with the fluctuation of the special symbol, and the special symbol after the change becomes a big hit mode. If the special symbol is in the off mode, at least one is stopped in a different off mode.

If the variation pattern of the changing effect image is a specific variation pattern with high reliability that becomes a jackpot effect after the change, the image display is performed if the reach of other effect symbols except for one effect symbol is reached. A movable effect body provided on the support frame of the means is provided so as to be freely movable and protrudes toward the image display section side of the image display means, and a specific image is displayed on the image display section of the image display means in synchronization with the operation of the movable effect body. The effect image is displayed, and the effect of notifying that there is a high possibility that it will be a big hit after the change is performed by combining the operation of the movable effector and the effect image of the image display unit.
JP 2007-222349 A

  The conventional ball game machine has a small image display means, and a relatively small one that can be arranged in the lower right corner of the image display means has been used as the movable effector, but in recent ball game machines, The image display means becomes very large, and along with the increase in size, a long-sized moving effect body tends to be used.

  However, if the movable effector becomes long, the support of the movable effector becomes a problem. That is, the movable effector needs to operate smoothly in synchronism with the effect image displayed on the image display unit. However, if the movable effector becomes long, the movable effector can be moved back and forth on one end side. As long as it is supported, it is difficult to expect a smooth operation of the movable effector.

The present invention is seen paragon such conventional problems, etc. movable directing member is actuated in reliably synchronism with long in effect images of images display, presentation by the operation of the movable effect of long An object is to provide a ball game machine that can be expected to improve the effect.

The present invention, among the image display hand stage having an image display unit for variably displaying the effect diagram pattern, and a retracted position location for saving effect position location and said image display unit or we projecting to the front side of the image display unit a movable directing member long as possible extending and retracting, in a ball-shooting game machine having a drive means for exiting retraction driven between the retracted position and the presentation position the movable directing member, one end of the movable directing member One support means for supporting the side in a swingable manner between the production position and the retracted position and for pivoting around the longitudinal axis of the movable production body on the production position side, The other end of the movable effector is provided with the other support means for supporting the other end of the movable effector and the driving means, and the other support means guides the other end of the movable effector. A guide plate, and a drive of the drive means provided between the guide plate and the movable effector. A swing mechanism for swinging the movable effector around the one support means between the effect position and the retracted position, and the drive means provided between the guide plate and the movable effector. And a rotation mechanism that rotates the movable effector around the longitudinal axis at the effect position .

According to the present invention, the advantage of equal, be expected to improve the presentation effect by the operation of the movable effect of elongated movable effect of reliably synchronism with elongated in the effect image image like the images display unit is activated is there.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIGS. 1-9 has illustrated the 1st Example which employ | adopted this invention for the pachinko machine. In FIG. 1, a gaming machine main body 1 includes a rectangular outer frame 2 and a front frame 4 pivotally attached to the front side of the outer frame 2 by a hinge 3 so as to be openable and closable around a vertical axis. A glass door 5 and a front plate 6 are arranged vertically on the front side of the front frame 4 and are pivotally supported by a hinge 7 on the same side as the hinge 3 with respect to the front frame 4 so as to be openable and closable around the vertical axis.

  On the front side of the front plate 6, a ball supply tray 8 for storing a game ball for launch is arranged, and a launch handle 9 of launch means (not shown) for launching the game ball is provided on the side thereof. A game board 10 (see FIG. 2) is detachably attached to the front frame 4 on the back side of the glass door 5 so as to correspond to the glass door 5.

  As shown in FIG. 2, a guide rail 11 for guiding a game ball fired from the launching means is arranged in a substantially arc shape on the front surface of the game board 10, and in a game area 12 inside the guide rail 11. Various game parts such as the image display means 13, the normal symbol starting means 14, the special symbol starting means 15, the big winning means 16, and the normal winning means 17 are arranged. The game area 12 corresponds to the window hole 18 of the glass door 5.

  As shown in FIGS. 2 and 3, the image display means 13 is disposed, for example, in the approximate center of the game area 12. The support frame 20 mounted on the game board 10 and the approximate center of the support frame 20 are disposed. And an image display unit 21 of a liquid crystal type or the like. The support frame 20 is provided with a normal symbol display means 22 and a special symbol display means 23, and a long movable effect body 25 is provided so as to be movable in and out of the image display unit 21. One or both of the normal symbol display means 22 and the special symbol display means 23 may be provided in another game component mounted on the game board 10.

  The normal symbol display means 22 is for variably displaying normal symbols, and is composed of a plurality of light emitting elements corresponding to a plurality of types of normal symbols (for example, two types of “O” and “X”). On condition that the starting means 14 detects a game ball, the two light-emitting elements blink for a predetermined time so that they are alternately turned on, and a random number value drawn at the time of detection of the game ball by the normal symbol starting means 14 is determined in advance. The light emitting element on the “◯” side in the hit state is turned on when the hit determination value is matched, and the light emitting element on the “×” side in the off state is turned on and stopped in other cases.

  The special symbol display means 23 is composed of a display means such as a segment type that can display the special symbols variably by changing the light emitting part, etc., and the special symbol starting means 15 detects the special balls on condition that the game ball is detected. When the random number value drawn at the time of detection of the game ball by the special symbol starting means 15 matches the predetermined jackpot random number value, the predetermined jackpot mode is displayed. It comes to stop.

The image display unit 21 has a rectangular shape or other shapes. As shown in FIG. 2, during the game, the effect symbols 24a to 24c and the background image are displayed. In the case of a specific game state, the movable effector 25 is displayed. The notice effect image 26 is displayed in synchronism with the operation of the image. A plurality of, for example, three effect symbols 24a to 24c are displayed at appropriate positions on the image display unit 21, and the effect symbols 24a to 24c are special symbol display means. The change starts in synchronization with the change of the 23 special symbols, and after changing for a predetermined time through a predetermined change pattern, it is sequentially stopped in a predetermined order in synchronization with the end of the change of the special symbol. The stop symbol after the change of the effect symbols 24a to 24c is a jackpot effect mode in which all the special symbols on the special symbol display means 23 stop when the special symbol stops in the jackpot mode, and at least when the special symbol stops in the off mode. A part is a different off-direction production mode.

  For example, numerical symbols from 0 to 9 are used for the effect symbols 24a to 24c, and when the special symbol stops in a jackpot mode, the effect symbols 24a to 24c are jackpot effect modes such as "7 / 7.7". When the special symbol is stopped in a detaching manner, the effect symbols 24a to 24c are stopped in a detaching effect mode such as “2, 4, 5”.

  The special symbol starting means 15 includes a fixed winning opening 28 and a variable winning opening 29 such as an electric tulip. The variable winning award 29 is opened for a predetermined time when the normal symbol after the variation of the normal symbol display means 22 stops and displays the hit state.

  As shown in FIGS. 2 to 4, the support frame 20 of the image display means 13 is mounted on the back surface of the game board 10 corresponding to the opening 30 and supports the image display unit 21, and corresponds to the opening 30. The front panel 32 is attached to the front surface of the game board 10 and covers the support 31 on the outer peripheral side of the image display unit 21 from the front side. The normal symbol display means 22 and the special symbol display means 23 are provided on the front decoration body 32.

  The support 31 includes a peripheral wall portion 33 that contacts the back side of the game board 10, and a recessed portion 34 that is recessed backward from the peripheral wall portion 33. The support 31 has a rectangular opening 35 formed in the back wall of the recessed portion 34, and the image display unit 21 is mounted on the back side of the support 31 corresponding to the opening 35. A decorative plate 37 is fixed in the recessed portion 34 of the support 31 from the front side, and corresponds to the image display unit 21 so that the display of the image display unit 21 can be visually recognized from the front side on the inner periphery of the decorative plate 37. The display window 37a is formed in a substantially rectangular shape with an opening. The rear edge of the display window 37 a of the decoration plate 37 is fitted in the opening 35 of the support 31.

  There is a space 36 between at least one side of the image display unit 21 in the left-right direction between the front decoration body 32 and the support body 31, and a long movable effect body 25 is arranged in the vertical direction in the space 36. Yes. The movable effect body 25 is accommodated in the normal space 36, and is covered from the front by the front decoration body 32 so that a part of the movable effect body 25 is exposed.

  Note that a decorative plate 37 surrounding the outside of the image display unit 21 is fitted and fixed to the front side of the recessed portion 34 of the support 31, but the decorative plate 37 may be integrated with the support 31. Further, the image display means 13 is configured to attach the front decoration body 32 and the support body 31 to the game board 10 from both the front and rear sides, but the front decoration body 32 and the support body 31 are connected to each other. You may make it mount | wear with respect to the game board 10 from the front side so that 31 may fit in the opening 30. FIG.

  The movable effect body 25 is a light emitting type having a light emitting portion 39, and is operated in synchronism with the operation when the light emitting portion 39 is turned forward from the retracted position X to the effect position Y as shown in FIG. The light emitting unit 39 emits light, and a predetermined notice effect is performed in combination with the notice effect image 26 displayed on the image display unit 21 in synchronization with the light emission. The front decoration body 32 is provided with a light emitting unit 40 on the extension of the light emitting unit 39 of the movable effect body 25, and the light emitting unit 40 emits light in synchronization with the light emission of the movable effect body 25.

  The movable effector 25 is a vertically long object having a thin thickness in the front-rear direction compared to the left-right width. For example, the handle part 25a, the blade part 25b, and a collar part 25c fitted between them. It has a shape that imitates a Japanese sword. The movable effect body 25 is a light emitting part 39 that has a light transmitting property over the entire length of the blade part 25 b on the blade edge side, and the light emitting part 39 is caused by light from the light emitting element 41 provided inside the movable effect body 25. It emits light.

  As shown in FIG. 5, the movable effect body 25 is configured by joining a divided body 42 in which a handle portion 25 a and a blade portion 25 b are divided in the middle of the thickness direction with screws 43 or the like, and the blade portion 25 b side. A band-shaped substrate 44 is interposed between the divided bodies 42 along the longitudinal direction. In addition, the movable effect body 25 is arranged in a sideways state so that the light emitting unit 39 is on the image display unit 21 side at the retreat position X.

  An irregular shape and other irregular reflection portions 45 are formed inside the light emitting portion 39. The substrate 44 has a predetermined gap between the edge in the width direction and the irregular reflection portion 45 of the light emitting portion 39, and a plurality of light emitting elements 41 are arranged on one side surface of the edge at a predetermined interval in the longitudinal direction. The light is emitted from both surfaces of the light-emitting portion 39 by causing the light from the light-emitting element 41 to be diffusely reflected by the irregular reflection portion 45. The board 44 has a connector 44a, and a harness 44b connected to the connector 44a is drawn out from the handle 25a side, which is the base side of the movable effector 25.

  Similarly, the light emitting portion 40 of the front decoration body 32 is also provided with light transmittance and irregular reflection properties, and emits light by the light from the light emitting element 49 on the back side.

  The movable effect body 25 is supported at both upper and lower ends by a pair of upper and lower support means 46 and 47 in the space 36 between the support body 31 and the front decoration body 32, and an effect position Y that protrudes to the front side of the image display unit 21 and an image display. It can be moved back and forth by driving the drive means 48 between the retreat position X retreating from the portion 21 to one side in the left-right direction. The movable effect body 25 is positioned substantially vertically along one side of the image display unit 21 at the retracted position X, and the upper side is obliquely inclined toward the front side of the image display unit 21 around the lower support means 47 at the effect position Y. It becomes a state protruding in the direction.

  The lower support means 47 supports the movable effector 25 so as to be swingable between the effect position Y and the retracted position X, and is rotatable at the effect position Y about the longitudinal axis of the movable effector 25. As shown in FIG. 3, the spherical body 50 and the spherical surface receiving body 51 are constituted by spherical coupling means that is slidably fitted around the spherical center 53. The spherical body 50 is mounted on the support member 52 fixed to the support body 31 via the decorative plate 37, and the spherical receiving body 51 is mounted on the movable effect body 25, but they may be mounted on the contrary. The spherical center 53 is located on the opposite side of the image display unit 21 with respect to the center of the movable effector 25 in the width direction, and is located near the center of the movable effector 25 in the thickness direction. The spherical center 53 may be arranged at a position other than this.

  As shown in FIGS. 3 and 6, the upper support means 46 is a rocker that swings the movable effector 25 around the lower support means 47 between the effect position Y and the retracted position X by driving the drive means 48. The moving mechanism 54 and a rotating mechanism 55 that rotates the movable effector 25 around the longitudinal axis about the lower support means 47 at the effect position Y by driving the driving means 48 are provided.

  That is, the upper support means 46 is provided with two protrusions 56 and 57 projecting from the movable effector 25 and a guide groove 58 that is disposed opposite to the upper end of the movable effector 25 and guides the two protrusions 56 and 57. , 59 and a guide plate 60. The two protrusions 56 and 57 are provided in different positions in the width direction and the thickness direction of the movable effector 25, and two guide grooves on the front and rear sides of the guide plate 60 corresponding to the two protrusions 56 and 57. 58 and 59 are provided.

  The front guide groove 58 is formed in a substantially straight line in the left-right direction across the retracted position X and the effect position Y of the movable effector 25, and the rear guide groove 59 is the retracted position X of the movable effector 25. A straight portion 59a formed in parallel with the front guide groove 58 from the side to the effect position Y side, and an arc portion 59b formed in an arc shape around the end of the front guide groove 58 on the effect position Y side; Have The arc portion 59b has a length for guiding the protrusion 57 around the protrusion 56 between a state where the light emitting portion 39 faces toward the image display portion 21 and a state where the light emitting portion 39 faces sideways.

  The swing mechanism 54 includes two protrusions 56 and 57, a front guide groove 58, and a straight portion 59a of the rear guide groove 59, and the rotation mechanism 55 includes two protrusions 56 and 57. The end portion on the effect position Y side of the front guide groove 58 and the arc portion 59b of the rear guide groove 59 are configured.

  In this embodiment, the two protrusions 56 and 57 are such that the protrusion 56 close to the effect position Y of the movable effector 25 is the front side of the game board 10 in the front-rear direction and the opposite protrusion 57 is the rear side of the game board 10 in the front-rear direction. The projection 56 that is arranged on the side and close to the effect position Y is arranged so that its axis passes through the substantially spherical center 53 of the lower support means 47. The rotation mechanism 55 rotates the movable effect body 25 at the effect position Y by about 90 degrees. Rollers such as rollers that roll in the guide grooves 58 and 59 are fitted over the outer circumferences of the projections 56 and 57.

  The drive means 48 is constituted by a drive motor 64 mounted on the support plate 63. The drive motor 64 has a vertical drive shaft 65, and a drive arm 66 is fixed to the drive shaft 65. The drive arm 66 is reciprocally rotatable so that the movable effector 25 can be moved back and forth between the retracted position X and the effected position Y, and the rear end of the drive arm 66 is close to the retracted position X via the connecting link 67. It is linked to 57.

  The guide plate 60 and the support plate 63 are fixed to the support 31 via the attachment portion 68 and the decorative plate 37. The guide plate 60 and the support plate 63 may be fixed to the support 31 separately. The drive arm 66 and the connecting link 67, and the protrusion 57 and the connecting link 67 are movably connected via a spherical bearing or a suitable play. The drive shaft 65, the drive arm 66, and the connecting link 67 constitute a crank mechanism. The upper and lower support means 46, 47 are arranged outside the inner peripheral edge 32 a of the front decoration body 32 and are covered with the front decoration body 32 from the front side.

  FIG. 7 shows a control system of the pachinko machine. The control system of the pachinko machine includes a main control board 70 and an effect control board 71. The main control board 70 is responsible for controlling the game operation of the entire pachinko machine. When the normal symbol starting means 14 detects a game ball, it determines whether or not it is a random number and determines whether or not it is hit. In addition to the normal symbol system control means 72 that opens the variable winning opening 29 of the special symbol starting means 15 for a predetermined time after the normal symbol after the fluctuation of the symbol display means 22 stops in a winning manner, the random number lottery means 73, the determination means 74, special symbol control means 75, stop mode determination means 76, fluctuation pattern determination means 77, command transmission means 78, and special game generation means 79.

  The random number lottery means 73 draws a random value when the special symbol starting means 15 detects a game ball, and the judging means 74 compares the random number value drawn by the random number lottery means 73 with the jackpot random number value to determine whether or not it is a big hit. It comes to judge. The special symbol control means 75 changes the special symbol of the special symbol display means 23 for a predetermined time with the detection of the game ball of the special symbol start means 15, and when the determination result of the determination means 74 is a big hit, At this time, the special symbols are controlled so as to stop each in a disengagement mode.

  The stop mode determination means 76 is for drawing and determining the stop mode of the effect symbols 24a to 24c when the determination result of the determination means 74 is a big hit. Fluctuation pattern determining means 77 is used for lottery determination of the big hit fluctuation pattern when the judgment result of the judgment means 74 is a big hit and the outlier fluctuation pattern when the judgment is out of place. One variation pattern to be used for variation of the effect symbols 24a to 24c at that time is selected and determined from the plurality of types of jackpot variation patterns and out-of-range variation patterns.

  There are several types of jackpot variation patterns and out-of-range variation patterns depending on the length of variation time, the presence / absence of reach during the variation of the production symbols 24a to 24c, and the like. For example, there are many types of jackpot fluctuation patterns such as jackpot fluctuation pattern 1, jackpot fluctuation pattern 2, jackpot fluctuation pattern 3,... A variety of patterns are prepared, such as reach / displacement variation pattern 1, reach / displacement variation pattern 2, reach / disappearance variation pattern 1, reach / disappearance variation pattern 2, etc. Has been.

  In general, the fluctuation pattern with reach has a longer fluctuation time than the fluctuation pattern with no reach, and one or more types that are part of the fluctuation pattern with reach have a variation time of the jackpot fluctuation pattern. Some have close variation times. In the case of a fluctuation pattern with a long fluctuation time, the appearance rate is lower than that of a fluctuation pattern with a short fluctuation time and a fluctuation pattern with no reach, but the reliability that a special symbol becomes a big hit after a fluctuation becomes large. ing.

  The special symbol control means 75 changes the special symbol of the special symbol display means 23 in response to the detection of the game ball by the special symbol start means 15 and changes according to the change time of the change pattern determined by the change pattern determination means 77. The special symbol is stopped in either the big hit mode or the off mode according to the determination result of the big hit / out of the determination means 74. The command transmission unit 78 performs one-way communication of the stop mode command determined by the stop mode determination unit 76, the variation pattern command determined by the variation pattern determination unit 77, and the variation stop command for each variation pattern to the effect control board 71 side. It is supposed to send by.

  The special game generating means 79 is for generating a special game (bonus game) advantageous to the player after the special symbol is stopped in the big hit mode when the judging means 74 determines that the big hit is, for example, the big winning means 16 Is opened a plurality of times for a predetermined time. Note that the opening / closing pattern of the special winning means 16 in the special game can be determined as appropriate. In addition, in special games, in addition to the opening of the big winning means 16 or separately from the opening of the big winning means 16, it is advantageous for other players to change the probability of changing the jackpot lottery probability on condition of the type of jackpot mode of special symbols. Various elements may be added.

  The effect control board 71 analyzes the commands transmitted from the main control board 70 and controls the effect symbols 24a to 24c, the background image, and the notice effect image 26 displayed on the image display unit 21 of the image display means 13, Further, it is for controlling the operation of the movable effect body 25 and the light emission of the light emitting units 39, 40. The command receiving means 81, the effect symbol control means 82, the notice effect determining means 83, the effect image control means 84, the movable effect control means. 85, light emission effect control means 86, and the like.

  The command receiving means 81 is for receiving and analyzing each command transmitted from the command transmitting means 78 to the effect control board 71 side. In accordance with the variation pattern command from the main control board 70, the effect symbol control means 82 changes the effect symbols 24a to 24c in a predetermined variation pattern for a predetermined time in synchronization with the variation of the special symbol on the special symbol display means 23, and a stop command is issued. When there is, the effect symbols 24a to 24c are stopped in the jackpot effect mode or the off effect mode. The three effect symbols 24a to 24c are stopped in the stop mode specified by the stop mode command so that all the special symbols are stopped in the big hit mode, and in other cases, the presence or absence of reach Accordingly, the stop is selected in the stop mode selected on the production symbol control means 82 side.

  The notice effect determining means 83 includes one or a plurality of variation pattern commands that are a part of the reach variation pattern that has a variation time close to the variation time of the jackpot variation pattern and a variation time that is close to the variation time of the jackpot variation pattern. If there is, a random number value is randomly selected on the condition of the variation pattern command to determine whether or not to perform a notice effect. In the case of the big hit variation pattern, the lottery rate of the notice effect may be higher than that of the loss variation pattern. In that case, the lottery rate may be changed for each variation pattern.

  The effect image control means 84 selects one of a plurality of types of background images according to the variation pattern command to control the background images of the effect symbols 24a to 24c, and when the notice effect determination means 83 determines the notice effect. After the effect symbols 24a to 24c have reached reach, a lightning bolt or other notice effect image centered on the movable effector 25 at the effect position Y in synchronization with the operation of the movable effector 25 and the light emission of the light emitting units 39 and 40. 26 is controlled to emit light. The notice effect image 26 may be displayed in a flashing manner or in a blinking manner.

  The movable effect control means 85 is for controlling the effect caused by the operation of the movable effect body 25. When the notice effect determining means 83 determines the notice effect and the effect symbols 24a to 24c reach, the drive means 48. The movable effector 25 is moved from the retracted position X to the effect position Y on the front side of the image display unit 21 by driving, and the movable effector 25 is controlled to return to the retracted position X after the effect by the light emission of the light emitting unit 39. To do. The movable effector 25 may be stopped for a predetermined time with the light emitting unit 39 facing forward at the effect position Y, or immediately after the light emitting unit 39 faces forward at the effect position Y, to the retreat position X. You may make it return.

  The light emission effect control means 86 controls the light emission of the movable effect body 25 and the light emitting portions 39 and 40 of the front decoration body 32. The notice effect determination means 83 determines the notice effect and the effect symbols 24a to 24c reach and move. When the light emitting units 39 and 40 of the effector 25 are actuated forward at the effect position Y, the light emitting part 39 of the movable effector 25 and the front decoration body 32 is synchronized with the operation by the light of the light emitting elements 41 and 49. , 40 are caused to emit light. At this time, the light emission unit 39 of the movable effect body 25 and the light emission unit 40 of the front decoration body 32 may emit light simultaneously with the notice effect image 26 of the image display unit 21. Further, the light emitting unit 39 of the movable effector 25 is caused to blink several times, and during the blinking light emission, the light emission of the light emitting unit 40 of the front decoration body 32 and the light emission display of the notice effect image 26 of the image display unit 21 are performed simultaneously or with a time difference. You may be made to do it.

  This pachinko machine performs the following controls and effects during the game. That is, when the special symbol starting unit 15 detects a game ball, the random number lottery unit 73 draws a random number value, and the determination unit 74 determines whether or not the big hit is based on whether or not the random number value is the same as the big hit random number value. I do. And if a determination result is a big hit, the stop mode determination means 76 will determine the stop mode of the production symbols 24a-24c. If the determination result is a big hit, the fluctuation pattern determining means 77 selects any one of a plurality of types of big hit fluctuation patterns, and if it is off, the fluctuation pattern determining means 77 selects any one of a plurality of types of outlier fluctuation patterns. .

  Subsequently, after the special symbol of the special symbol display means 23 starts to fluctuate and fluctuates for the fluctuation time specified by the fluctuation pattern selected by the fluctuation pattern determination means 77, the judgment result of the jackpot / off is judged by the judgment means 74. In response to this, the vehicle stops in either a big hit mode or an off mode. If the determination means 74 determines that the game is a big hit, after the special symbol stops in the big win mode, a special game is generated by the special game generation means 79, and the big winning means 16 is released a plurality of times. The game can be continued in an advantageous state.

  On the other hand, when the stop mode determining unit 76 determines the stop mode of the effect symbols 24a to 24c and the variation pattern determining unit 77 determines the variation pattern of the effect symbols 24a to 24c, the command transmission unit 78 moves to the effect control board 71 side. Send each command. On the side of the production control board 71, when the variation pattern command is received, the production symbols 24a to 24c start to fluctuate in synchronization with the start of variation of the special symbol by the control of the production symbol control means 82 (see FIG. 8A). It fluctuates for a predetermined time according to the fluctuation pattern. Then, as shown in FIGS. 8B and 8C, each of the effect symbols 24a to 24c shifts to a swing variation close to the stop state in the order of left, right, middle, etc. Finally stop at either. Further, during the game, the background images of the effect symbols 24a to 24c are displayed under the control of the effect image control means 84.

  For example, when the variation pattern determining unit 77 selects any of the jackpot variation patterns by the jackpot determination of the determination unit 74, or when selecting any one of the reach reach variation patterns close to the variation time of the jackpot variation pattern In this case, the notice effect determining means 83 determines whether or not to perform the notice effect. And if the notice production | presentation determination means 83 decides the notice production, after the production symbols 24a to 24c become reach, the operation (swing and rotation) of the movable production body 25, the light emission of the light emitting portions 39 and 40, and the image. A notice effect is performed in combination with the notice effect image 26 on the display unit 21.

  That is, the movable effect body 25 is normally in the retracted position X as shown in FIG. 9A, but the two effect symbols 24a are changed while the three effect symbols 24a to 24c are fluctuated in a predetermined variation pattern. , 24c is reached, the driving means 48 is activated by the control of the movable effect control means 85. When the drive means 48 is activated, the drive arm 66 is rotated in the direction indicated by the arrow a in FIG. 6, and the projection 57 is pulled in the direction indicated by the arrow b in FIG. 54 projections 56 and 57 move along the guide grooves 58 and 59 in the direction indicated by the arrow b. Therefore, the movable effector 25 swings around the spherical center 53 of the lower support means 47 from the retracted position X to the effect position Y in the direction indicated by the arrow c in FIG. 3, as shown in FIG. 9B. Projects to the front side of the image effect unit 21.

  When the projection 56 reaches the end of the guide groove 58 on the effect position Y side, the projection 57 is guided in the direction indicated by the arrow d in FIG. 55, the movable effector 25 rotates about 90 degrees around the axis connecting the projection 56 and the spherical surface center 53 in the direction indicated by the arrow d, and the light emitting portion 39 of the movable effector 25 faces forward. Become.

  When the movable effector 25 is actuated in the forward state at the effect position Y, the movable effector 25 is synchronized with the operation of the movable effector 25 in the forward state as shown in FIG. The light emitting unit 39 emits light along the longitudinal direction of the body 25, and the light emitting unit 40 of the front decoration body 32 emits light. On the other hand, under the control of the effect image control means 84, lightning bolts and other appropriate notice effect images 26 are emitted and displayed around the movable effector 25 at appropriate locations in the image display unit 21 in synchronization with the light emission of the movable effector 25 and the like. The Note that in FIG. 9C, each light emission state is indicated by hatching.

  In this manner, the light emitting units 39 and 40 emit light in a straight line from the movable effect body 25 to the front decoration body 32, and the notice effect image 26 is emitted and displayed on the image display unit 21 on the rear side of the movable effect body 25. As a result, the effects of the notice effect are improved because these are integrated to produce a single effect.

  Moreover, the notice effect determining means is used when the change pattern determining means 77 selects any of the jackpot change patterns, or when selecting any one of the specific reach and deviation change patterns close to the change time of the jackpot change pattern. Since 83 determines whether or not to perform the notice effect, if there is such a notice effect, the player can have a sense of expectation for the jackpot.

  After that, when the drive arm 66 of the drive means 48 rotates in the reverse direction (counter-a arrow direction), the protrusion 57 moves along the arc portion 59b of the guide groove 59 in the counter-d arrow direction. Reference numeral 25 denotes an effect position Y that is rotated approximately 90 degrees in the direction indicated by the arrow d around the axis connecting the projection 56 and the spherical center 53. And since each protrusion 56,57 moves to the anti-b arrow direction along the guide grooves 58,59, the movable production | presentation body 25 is anti-c arrow around the spherical center 53 in the state substantially parallel to the image display part 21. FIG. Returning to the retracted position X while swinging in the direction shown. In addition, three effect symbols 24a to 24c and a background image are displayed again on the image display unit 21, and the effect symbols 24a to 24c continue to fluctuate in a predetermined fluctuation pattern, and a big hit effect mode and a loss effect mode are generated by a stop command. Stop at either.

  The light emitting units 39 and 40 such as the movable effector 25 emit light in a forward-facing state, and when the return operation to the retracted position X is started, the light emission ends, and the notice effect image 26 on the image display unit 21 also disappears. The movable effect body 25 may take other effect forms such as returning the light emitting unit 39 while the light emitting unit 39 is still emitting light. Further, during the light emitting display of the notice effect image 26, the effect symbols 24a to 24c may not be displayed, or the effect symbols 24a to 24c are displayed by moving from the normal display position of the image display unit 21 to another position. May be.

  In terms of mechanism, a movable effect body 25 having a length longer than the vertical dimension of the image display unit 21 is used, and the movable effect body 25 is placed on one side of the image display unit 21 by upper and lower support means 46 and 47. Since it is supported so that it can be moved back and forth between the retreat position X and the effect position Y protruding to the front side of the image display unit 21, the movable effect is compared with the case where a conventional small movable effector is used. The production effect by the body 25 is improved, the operation of the movable production body 25 becomes smooth, and the movable production body 25 can be operated in synchronization with the notice production image 26 of the image display unit 21.

  Further, although the movable effector 25 is a long object that is long in the vertical direction, the upper and lower ends of the movable effector 25 are supported by the pair of support means 46 and 47, and the upper support means 46 side thereof. Since the movable effector 25 is driven by the provided driving means 48 and the movable effector 25 is swung with the lower support means 47 as a fulcrum, the movable effector 25 is smoothly moved out and out. be able to.

  Further, the upper support means 46 includes a swing mechanism 54 and a rotation mechanism 55, and when the drive means 48 is driven, the movable effector 25 supports the lower support means 47 via the swing mechanism 54 and the rotation mechanism 55. As the fulcrum swings in an oblique direction to the effect position Y, and the light emitting unit 39 is rotated so as to be in the forward-facing state at the effect position Y, the movable effector 25 having a certain width is provided. In spite of being used, the range where the movable effector 25 covers the image display unit 21 from the front side is reduced, and the light emitting unit 39 of the movable effector 25 and the notice effect image 26 displayed on the image display unit 21 are reduced. Harmony can be easily achieved.

  Further, the lower support means 47 is provided corresponding to the side farther from the image display portion 21 of the movable effect body 25 having a predetermined width in the left-right direction, and the movable effect passing through the spherical center 53 of the support means 47. There is a protrusion 57 on the longitudinal axis of the body 25, and the light-emitting unit 39 is moved to the near side because the light-emitting units 39 and 40 are rotated forward around the axis at the production position Y in the movable effect body 25. The movable effector 25 can be rotated in such a manner as to protrude.

  10 and 11 illustrate a second embodiment of the present invention. In this embodiment, the guide plate 60 of the upper support means 46 has one guide groove 59 that guides the two protrusions 56 and 57, and the guide groove 59 includes a left and right linear portion 59a and the guide groove 59. The linear portion 59a has an arc portion 59b that curves from the end portion on the effect position Y side to the front side. The linear portion 59 a side is the swing mechanism 54, and the arc portion 59 b is the rotation mechanism 55. Of the two protrusions 56, 57, the protrusion 57 on the retracted position X side is connected to the drive arm 66 of the drive motor 64 via a connection link 67. Other configurations are substantially the same as those of the first embodiment.

  In this case, when the drive motor 64 is activated in the effect direction, the two protrusions 56 and 57 are guided by the linear portion 59a of the guide groove 59, and the movable effect body 25 moves from the retracted position X to the effect position Y side. Swing. Then, since the projections 56 and 57 pass through the straight part 59a and are guided by the arc part 59b, the movable effector 25 rotates around the spherical center 53 so that the light emitting part 39 faces forward along the arc part 59b. .

  Thus, by guiding the two protrusions 56 and 57 with one guide groove 59 of the guide plate 60, the movable effector 25 is swung between the retreat position X and the effect position Y, and the effect is also provided. It is possible to rotate at the position Y.

  FIG. 12 illustrates a third embodiment of the present invention. In this embodiment, in the guide groove 59 of the guide plate 60, a linear portion 59a for left and right oscillation, and a linear portion 59c for rotation that bends in an oblique direction from the end portion on the effect position Y side of the linear portion 59a to the front side. It is provided in the shape of a letter. Other configurations are substantially the same as those of the embodiments.

  Thus, even if it is configured to guide the two protrusions 56 and 57 by the guide groove 59 in which the two linear portions 59a and 59c are combined, the movable effect such that the light emitting unit 39 faces forward on the effect position Y side. The body 25 can be rotated.

  13 and 14 illustrate a fourth embodiment of the present invention. The movable effect body 25 is similar to a bow having an arcuate curved portion 25d, and both upper and lower ends are supported by a pair of support means 46 and 47. In the retracted position X, the movable effect body 25 is arranged vertically on one side of the image display unit 21 with the bending portion 25d facing forward, and at the effect position Y, the bending portion 25d faces the center side of the image display unit 21. With the lower support means 47 as a fulcrum, the support means 47 is disposed obliquely in front of the image display unit 21.

  The guide plate 60 of the upper support means 46 has a guide groove 59 that guides the two projections 56 and 57 of the movable effector 25. The guide groove 59 is provided with a straight line portion 59a in the left-right direction and a circular arc portion 59b that curves backward from the end of the straight line portion 59a on the effect position Y side. The movable effector 25 is pivoted rearward so that the movable effector 25 approaches the image display unit 21 side at the arc portion 59b. The movable effector 25 has a light emitting portion 39 that faces forward when rotated at the effect position Y, and the light emitting portion 39 emits light by light from the internal light emitting element 41 during the notice effect. It has become. Other configurations are substantially the same as those of the embodiments.

  In this case, at the time of the notice effect, the movable effector 25 swings from the retracted position X to the effect position Y, and then rotates approximately 90 degrees at the effect position Y, so that the bending portion 25d is in the sideways state. In synchronization with this, the light emitting unit 39 of the movable effector 25 emits light in an arcuate manner. On the other hand, the image display unit 21 is synchronized with the light emission of the light emitting unit 39 and includes a string in a tension state corresponding to the movable effect body 25 simulating a bow and a notice effect image including an arrow hung on the string. 26 is displayed, and an image effect such as shooting the effect symbol 24b that is changing in the reach state with the arrow is made.

  As described above, the movable effect body 25 may be rotated in the direction approaching the image display unit 21 side at the effect position Y.

  FIG. 15 illustrates a fifth embodiment of the present invention. A light emitting element 90 is provided at a required location such as the back surface of the front decoration body 32 corresponding to the movable effector 25 at the retracted position X, and the front surface of the movable effector 25 is caused to emit light by the light from the light emitting element 90. I am doing so. The light emitting elements 90 are mounted on a substrate 91 arranged along the longitudinal direction of the movable effector 25 at a predetermined interval in the longitudinal direction. The substrate 91 is fixed to the back surface of the front decoration body 32. The front surface of the movable effector 25 is configured to diffusely reflect light from the light emitting element 90. Other configurations are the same as those of the first embodiment. In this way, the movable effector 25 at the retreat position X may be caused to emit light as necessary.

  16 to 18 illustrate a sixth embodiment of the present invention. The upper support means 46 includes a guide plate 60 having an arcuate guide portion 92 centered on the lower support means 47, and a slide that is slidably guided by the guide portion 92 through dovetail fitting or the like. And a moving body 93. The sliding body 93 has a vertical pivot shaft 94 that pivotally supports the strip-shaped movable rendering body 25 disposed on the front surface thereof, and the movable rendering body in a state substantially parallel to the image display unit 21. A stopper 95 with which 25 abuts from the front side is provided.

  The movable effect body 25 is urged around the pivot shaft 94 by a spring 96 so as to contact the stopper 95. The pivot shaft 94 is provided such that its axis passes through the substantially spherical center 53, and the movable effector 25 is rotatable about the pivot shaft 94 and the spherical center 53. A rack 100 is formed on the lower side of the slide body 93, and a pinion 97 that meshes with the rack 100 is fixed to a drive shaft 65 of the drive motor 64. The slide body 93 is guided by forward and reverse rotation of the drive motor 64. The plate 60 can reciprocate in the left-right direction along the guide portion 92 of the plate 60.

  A protrusion 98 is provided at the upper end of the movable effector 25, and the movable effector 25 is opposed to the spring 96 via the protrusion 98 when the movable effector 25 comes to the effect position Y side on the guide plate 60. A cam 99 that rotates around is provided. The movable effector 25 has a light emitting unit 39 on the side close to the image display unit 21, and emits light by light from the internal light emitting element 41.

  The swing mechanism 54 is constituted by the guide plate 60 having the guide portion 92 and the slide body 93, and the guide plate 60 having the guide portion 92, the slide body 93, the pivot shaft 94, the spring 96, the protrusion 98, the cam 99, and the like. Thus, the rotation mechanism 55 is configured. The protrusion 98 may be mounted on the guide plate 60 side, and the cam 99 may be mounted on the movable effector 25 side. A stopper 92Aa is provided at the end of the guide portion 92 on the retracted position X side.

  In this case, when the pinion 97 of the drive motor 64 rotates in the forward rotation direction, the sliding body 93 swings in the direction indicated by the arrow c along the guide portion 92 via the rack 100, and the movable effect body 25 is moved downward. It swings from the retracted position X to the effect position Y with the support means 47 as a fulcrum. When the sliding body 93 reaches the vicinity of the effect position Y, the projection 98 comes into contact with the cam 99, and the movable effect body 25 is pivoted against the spring 96 by the cooperative action of the cam 99 and the projection 98. It rotates in the direction of the arrow d around the axis of the support shaft 94, and its light emitting portion 39 faces forward. In this state, the light emitting unit 39 emits light, and the image display unit 21 performs the notice effect by, for example, displaying the notice effect image 26 with light emission.

  Further, when the drive motor 64 rotates in the reverse direction, the sliding body 93 slides in the anti-d arrow direction in the vicinity of the effect position Y, so that the movable effect body 25 is anti-c arrow about the pivot shaft 94 by the spring 96. The light emitting unit 39 is turned sideways by rotating in the direction shown. Thereafter, the movable effect body 25 returns to the retracted position X while swinging.

  The swing mechanism 54 and the rotation mechanism 55 of the upper support means 46 may be configured as in this embodiment. Therefore, the swing mechanism 54 has a function of reciprocatingly swinging the movable effector 25 between the retreat position X and the effect position Y or the vicinity thereof with the lower support means 47 as a fulcrum. A function of reciprocatingly rotating the movable effector 25 at the effect position Y, or a function of reciprocally rotating the movable effector 25 using a slight reciprocal swing between the vicinity of the effect position Y and the effect position Y. It is sufficient if it has, and its specific mechanism can be variously changed.

  19 and 20 illustrate a seventh embodiment of the present invention. The support means 47 on the lower side of this embodiment is a pivot shaft 101 in the front-rear direction that protrudes forward from the support body 31, is supported by the pivot shaft 101 so as to be swingable in the left-right direction, and is supported by the movable effector 25. And a pivot shaft 103 that is pivotally inserted about an axis. The pivoting pivot 101 and the pivoting pivot 103 are arranged in a substantially orthogonal direction.

  The swing pivot 101 is fixed to the support 31 via the support member 105 or directly to the support 31. The pivot shaft 103 has a shaft holding portion 108, and the pivot shaft 101 is rotatably inserted into the shaft holding portion 108 and is prevented from being detached by a retaining member 106 such as a retaining ring.

  The movable effect body 25 is provided with a shaft holding portion 102 into which the pivot shaft 103 for rotation is inserted so as to be rotatable around the axis. The shaft holding portion 102 is disposed on one end side in the width direction of the movable effector 25 and is provided in the longitudinal direction of the movable effector 25 so as to substantially coincide with the axis of the protrusion 57 or the pivot shaft 94. Other configurations are the same as those in each embodiment.

  In this support means 47, the movable effector 25 is swung in the left-right direction about the swing pivot 101 between the retracted position X and the effect position Y, and is rotated around the pivot pivot 103 on the effect position Y side. Accordingly, the lower support means 47 may be a cross joint type in which the two pivots 101 and 103 are arranged in a crossing manner in addition to the spherical coupling means having the spherical center 53. The lower support means 47 may be provided in the middle of the lower side of the movable effector 25.

As shown in FIG. 21, the lower support means 47 may include a shaft holding member 107, and the pivot holding shaft 101 and the turning pivot 103 may be rotatably inserted into the shaft holding member 107. The swing pivot 101 is disposed on the center side in the width direction of the movable effector 25, and the pivot pivot 103 is on the opposite side of the image display unit 21 with respect to the swing pivot 101 and on one end side in the width direction of the movable effector 25. Has been placed.

22 and 23 illustrate an eighth embodiment of the present invention. In this embodiment, the game board 10 is made of a transparent synthetic resin plate such as an acrylic board, and the game board 10 is provided with a guide rail 11, an image display means 13, a normal symbol start means 14, a special symbol start means 15, and a grand prize. Various game parts such as means 16 and normal winning means 17 are arranged. An opening 30 corresponding to the image display means 13 is not formed in the game board 10, a support body 31 that supports the image display section 21 is mounted on the back side of the game board 10, and a front decoration body 32 is mounted on the front side. It is installed. The image display means 13 includes an image display unit 21 and a support 31 on the back side of the game board 10, and a front decoration body 32 on the front side of the game board 10.

  Between the game board 10 and the support 31, there is a predetermined space 36 on at least one side of the image display unit 21, and the space 36 is movable corresponding to the side part 32 c of the front decoration body 32. The production body 25 is arranged in the vertical direction. The movable effect body 25 is the same as that in each embodiment, and is supported by a pair of upper and lower support means 46 and 47 so as to be movable back and forth between the retreat position X and the effect position Y as in each embodiment. Yes.

  The movable effect body 25 is arranged on the back side of the game board 10 corresponding to the back side of the side part 32 c of the front decoration body 32 of the image display means 13, but at least a part of the game area 12 is at the retreat position X. It corresponds to the rolling area 12a of the game ball, and the movable effect body 25 can be viewed from the front side through the rolling area 12a of the game board 10.

  When the movable effector 25 is retracted to the retracted position X, the left and right sides of the side part 32c of the front decoration body 32 or the rolling region 12a side can be viewed from the front through the game board 10, and the image display unit 21 At the effect position Y protruding to the front side, it can be visually recognized through the game board 10 from the front. The support means 46 and 47 correspond to the back side of the shield provided on the front surface or the back surface of the game board 10 such as the back side of the front decoration body 32 and are not visible from the front side through the game board 10. .

  As described above, when the game board 10 is a transparent synthetic resin plate, the movable effect body 25 may be arranged on the back side of the game board 10 so as to be visible through the game board 10. Note that when the movable effector 25 is retracted to the retracted position X, substantially the whole or the main part thereof may be visible from the front side.

  Further, the movable effect body 25 may be in harmony with the decorative image printed on the front surface or the back surface of the game board 10. In that case, as shown by hatching in FIG. 22, a fluoroscopic part 12 b corresponding to the movable effect body 25 is provided in a part of the decorative image on the falling region 12 side, and the movable effect body 25 at the retracted position X You may enable it to visually recognize from the front side via the see-through | perspective part 12b.

  As mentioned above, although each Example of this invention was explained in full detail, this invention is not limited to this each Example, A various change is possible in the range which does not deviate from the meaning of this invention. For example, in the embodiment, the movable effector 25 exemplifies a vertically long object, but may be a horizontally long object. Further, the movable effector 25 may have any form as long as the dimension between both ends is longer than the vertical or horizontal dimension of the image display unit 21. Therefore, the shape of the movable effector 25 is not limited to a band shape or the like. Further, the movable effect body 25 may be arranged on the left and right sides of the image display unit 21 in addition to being arranged on one side of the image display unit 21 in the left-right direction, or may be arranged on the upper side of the image display unit 21. In either case, it goes without saying that both ends of the movable effector 25 are supported by the support means 46 and 47.

  When the movable effector 25 is arranged in the vertical direction, the movable effector 25 is moved in the left-right direction between the retreat position X and the effect position Y with the lower support means 47 as a fulcrum as illustrated in each embodiment. Alternatively, the movable effector 25 may be swung in the left-right direction between the retracted position X and the effect position Y with the upper support means 46 as a fulcrum. Moreover, you may move the up-and-down both sides of the movable production | presentation body 25 in the left-right direction. At that time, either one of the movement amounts may be increased. The case where the movable effect body 25 is arranged in the left-right direction can be the same as the case where it is arranged in the up-down direction.

  A moving mechanism including a swing mechanism 54 and a rotating mechanism 55 is provided on a pair of support means 46 and 47 that support both ends of the movable effect body 25, and the movable effect body is operated by a single drive means 48 via this movement mechanism. You may make 25 move freely. Further, when the moving mechanism including the swing mechanism 54 and the rotation mechanism 55 is provided on the pair of support means 46 and 47, the drive means 48 that operates in synchronization may be provided on each of the support means 46 and 47 separately.

  At least one of the pair of support means 46 and 47 needs to include a moving mechanism for reciprocating the movable effector 25 between the retracted position X and the effect position Y. The configuration of the moving mechanism is a movable effector. It can be appropriately changed according to the 25 operation modes. For example, when the movable effector 25 swings between the retreat position X and the effect position Y, and the effector Y rotates on one of the support means 46 and 47 on the effect position Y side, The configuration of the moving mechanism including the swing mechanism 54 and the rotation mechanism 55 can be freely changed within a range of conditions.

  In the embodiment, the notice effect is performed by combining the operation of the long movable effect body 25, the light emission of the light emitting unit 39 and the notice effect image 26 of the image display unit 21. The predetermined effect may be performed only by the operation of the body 25, or the combination of the operation of the long movable effector 25 and the light emission of the light emitting unit 39, or the operation and image of the long movable effector 25. The notice effect may be performed in combination with the notice effect image 26 displayed on the display unit 21. Further, the operation of the long movable effector 25 and the other movable effector may be combined to produce an effect.

  The jackpot notice effect is illustrated as an effect by the movable effect body 25 or the like. However, as long as the effect is in the game, another notice effect for notifying a specific gaming state occurring in the future may be used, or the gaming state at that time An effect other than a notice for the future, such as a simple effect, may be used.

  When the movable effect body 25 is provided on the support frame 20 of the image display means 13 via the support means 46 and 47 on both ends, the support body 31 that supports the image display section 21 or the support body on the outer peripheral side of the image display section 21 The support means 46, 47 may be attached to the decorative plate 37 arranged on the front side of 31, or the support means 46, 47 may be attached to the back side of the front decoration body 32.

  When an effect image is displayed on the image display unit 21 in synchronization with the operation of the movable effector 25, the effect image may be displayed before the movable effector 25 swings to the effect position Y depending on the effect mode. The effect image may be displayed for a predetermined time after the movable effect body 25 starts the retreat operation from the effect position Y to the retreat position X. Needless to say, the present invention can be similarly applied to other ball game machines such as an arrangement ball machine and a sparrow ball game machine.

1 is a perspective view of a pachinko machine showing a first embodiment of the present invention. It is a front view of the game board. It is a front view of the principal part containing the movable production | presentation body. It is a plane sectional view of the important section containing the movable production body. It is sectional drawing of the movable production | presentation body. It is a top view of the support means of the same upper side. It is a block diagram of the same control system It is explanatory drawing of the design fluctuation | variation of the effect design. It is explanatory drawing of the movable production | presentation. It is a front view of the principal part which shows the 2nd Example of this invention. It is a top view of the support means of the same upper side. It is a top view of the upper support means which shows the 3rd example of the present invention. It is a schematic front view which shows the 4th Example of this invention. It is a top view of the support means of the same upper side. It is a plane sectional view of an important section showing the 5th example of the present invention. It is a front view of the principal part which shows the 6th Example of this invention. It is a top view of the support means of the same upper side. It is a side view of the upper support means. It is a front view of the lower support means which shows the 7th example of the present invention. It is side surface sectional drawing of the principal part. It is sectional drawing which shows the modification of the lower support means. It is a front view of the lower support means which shows the 8th example of the present invention. It is a plane sectional view of the important section containing the movable production body.

Explanation of symbols

13 Image display means 21 Image display parts 24a to 24c Production pattern 25 Movable production body 26 Production image 31 Support body 32 Front decoration body 39 Light emitting part 41 Light emitting elements 46 and 47 Support means 48 Drive means 54 Swing mechanism 55 Rotation mechanism X Retraction position Y Production position

Claims (5)

  1. An image display hand stage having an image display unit for variably displaying the effect diagram pattern, which can be projecting and retracting between a retracted position location for saving effect position location and said image display unit or we projecting to the front side of the image display unit a movable directing body elongated in a ball-shooting game machine having a drive means for exiting retraction driven between the retracted position and the presentation position the movable directing member, wherein the directing one end of the movable directing member One movable means for swingably supporting between the position and the retracted position and pivotally supported around the longitudinal axis of the movable effector at the effect position side, the movable effector On the other end side, the other support means for supporting the other end side of the movable effector and the driving means, the other support means, a guide plate for guiding the other end side of the movable effector, It is provided between the guide plate and the movable effector and is driven forward by the driving means. A swing mechanism for swinging the movable effect body around the one support means between the effect position and the retracted position, and driving the drive means provided between the guide plate and the movable effect body And a turning mechanism for turning the movable effector around the longitudinal axis at the effect position .
  2. The movable effector comprises two protrusions on the other end side, the guide plate has a guide groove for guiding the protrusions, and the driving means drives the movable effector via a crank mechanism. The bullet ball game machine according to claim 1.
  3. A support for supporting the image display unit of the image display hand stage, comprising a movable directing member between the front decorative body of the front of the support, wherein the image is movable directing member in the retracted position location located in the vertical direction along one side of the lateral direction of the display unit, characterized in that the presentation position of the upper side Ri supporting hand DanMawari lower in location projects and diagonally to the front side of the image display unit The bullet ball game machine according to claim 1 or 2.
  4. The movable directing body ball-shooting game machine according to claim 2 or 3, characterized in that it has a light-emitting element to the light emitting portion of the front side from the inside when pivoted in the presentation position.
  5. When the movable directing member is rotated to the presentation position location, that it has to perform an effect of by Risho constant in the presentation picture image displayed on the light emitting and the image display unit of the movable directing member The bullet ball game machine according to any one of claims 1 to 4, characterized in that:
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JP6140319B2 (en) * 2016-02-05 2017-05-31 株式会社大一商会 Game machine
JP6140317B2 (en) * 2016-02-05 2017-05-31 株式会社大一商会 Game machine
JP6140318B2 (en) * 2016-02-05 2017-05-31 株式会社大一商会 Game machine
JP6367287B2 (en) * 2016-09-16 2018-08-01 株式会社ユニバーサルエンターテインメント Game machine
JP2017104519A (en) * 2016-11-11 2017-06-15 京楽産業.株式会社 Game machine
JP2018183288A (en) * 2017-04-24 2018-11-22 株式会社三共 Game machine
JP6653725B2 (en) * 2018-04-25 2020-02-26 株式会社ユニバーサルエンターテインメント Gaming machine

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JP4585283B2 (en) * 2004-11-10 2010-11-24 株式会社ニューギン Game machine directing device
JP4313350B2 (en) * 2005-09-01 2009-08-12 株式会社藤商事 Game machine
JP2007222349A (en) * 2006-02-22 2007-09-06 Samii Kk Pachinko game machine
JP4754389B2 (en) * 2006-03-31 2011-08-24 株式会社ニューギン Movable production device for gaming machines
JP4784992B2 (en) * 2006-04-05 2011-10-05 ゼネラル株式会社 Cartridge type transfer tool

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