JP2011222326A - Lighting device and game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting system that prevents a plurality of structures from being disconnected even if the structures forming a bearing part are not fixed.SOLUTION: The lighting device LD is provided with: a light source; a base 30; a shielding part 14 that operates between a closed state to shield the light source by rotating against the base 30 and an open state that does not shield the light source; a connection part 12 to be connected to the base 30; and a fixed part 60 to be fixed to the base. The shielding part 14 is axially supported in a freely rotatable manner on a bearing part 52 formed in a state that the base 30 and the connection part 12 are connected. The connection part 12 is held by the base 30 and the fixed part 60 while the base 30 and the fixed part 60 are fixed.

Description

  The present invention relates to a lighting device and a gaming machine.

  2. Description of the Related Art Conventionally, there is known an illuminating device including a shielding unit that operates between a closed state that shields a light source and an open state that does not shield a light source. And as such an illuminating device, the illuminating device which a shielding part will be in a closed state or an open state by rotating a shielding part is known (refer patent document 1).

JP 2009-18809 A

  In such an illuminating device, when the bearing portion that pivotally supports the shielding portion so that the shielding portion can rotate is formed by connecting two components, the shielding portion rotates to impact the bearing portion. In order to maintain the state in which the two components are connected even if the is added, it is necessary to fix the two components with screws or an adhesive.

  This invention is made | formed in view of the said situation, The objective provides the illuminating device which can prevent the connection of a some structure not being cancelled | released, without fixing the some structure which forms a bearing part. There is.

  (1) The present invention provides a light source, a base portion, a shielding portion that operates between a closed state that shields the light source by rotating with respect to the base portion and an open state that does not shield the light source, A connecting portion connected to the base portion; and a fixing portion fixed to the base portion, and the shaft that allows the shielding portion to rotate on a bearing portion formed in a state where the base portion and the connecting portion are connected to each other. The illuminating apparatus is characterized in that the connecting portion is sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed.

  In the present invention, since the connecting portion is sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed, the connection between the base portion and the connecting portion is not released even if the connecting portion is not fixed to the base portion. Can be.

  (2) In the rendering device of the present invention, each of the plurality of bearing portions that includes the plurality of shielding portions and the plurality of connection portions, and is formed in a state where the base portion and the plurality of connection portions are connected. Each of the plurality of shielding portions may be rotatably supported, and the plurality of connection portions may be sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed. .

  If it does in this way, a plurality of connecting parts can be pinched by fixing a base part and a fixed part.

  (3) The present invention operates between a light source, a base portion, and a closed state in which light from the light source is shielded by rotating with respect to the base portion and an open state in which light from the light source is not shielded. A shield part, a connection part connected to the foundation part, and a fixing part fixed to the foundation part, and the shield part is formed on the bearing part formed in a state where the foundation part and the connection part are connected. A lighting device in which the connecting portion is sandwiched between the base portion and the fixing portion in a state where the portion is pivotally supported and the base portion and the fixing portion are fixed, and a control unit that controls the lighting device It is related with the game machine characterized by providing.

  In the present invention, since the connecting portion is sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed, the connection between the base portion and the connecting portion is not released even if the connecting portion is not fixed to the base portion. Can be.

It is a perspective view which shows the external appearance structure of the game machine of this embodiment. It is a perspective view which shows the internal structure of the illuminating device of this embodiment. It is a perspective view which shows the internal structure of the illuminating device of this embodiment. It is a figure for demonstrating the internal structure of the illuminating device of this embodiment. It is a figure for demonstrating the internal structure of the illuminating device of this embodiment. It is a perspective view which shows the internal structure of the illuminating device of this embodiment. It is a perspective view which shows the external appearance structure of the illuminating device of this embodiment. It is an assembly drawing which shows the internal structure of the illuminating device of this embodiment. It is a figure explaining the functional block of the game machine of this embodiment. It is a figure which shows the one part external appearance structure of the illuminating device of deformation | transformation embodiment.

  Hereinafter, embodiments of the present invention will be described. In addition, this embodiment demonstrated below does not unduly limit the content of this invention described in the claim. In addition, all the configurations described in the present embodiment are not necessarily essential configuration requirements of the present invention.

1. Configuration of Gaming Machine FIG. 1 is a perspective view showing an external configuration of a gaming machine according to an embodiment of the present invention.

  The gaming machine according to the present embodiment is a so-called slot machine or spinning-type gaming machine, and is a type of gaming machine that performs games using medals as gaming media.

  In the gaming machine of the present embodiment, a reel unit including a first reel R1 to a third reel R3 is housed in a box-shaped housing including a storage box BX, a front upper door UD, and a front lower door DD. A hopper unit (not shown) as a medal payout device is housed in the lower portion of the reel unit in the housing. In the gaming machine casing of the present embodiment, a CPU, ROM (an example of an information storage medium), RAM, and the like are mounted, and a control board for controlling the operation of the gaming machine is also housed.

  Each of the first reel R1 to the third reel R3 shown in FIG. 1 is divided into 21 regions (each region is referred to as “frame”) at regular intervals on the outer peripheral surface, and each frame has a plurality of types of symbols. One is arranged. The first reel R1 to the third reel R3 are pivotally supported by a step motor (reel driving means: not shown), and are each driven to rotate around the axis of the step motor. By controlling the width or the like, it is possible to stop in units of frames (a predetermined rotation angle unit, a predetermined rotation amount unit). That is, in the gaming machine of the present embodiment, when the step motor rotates and drives the first reel R1 to the third reel R3 in accordance with the drive pulse supplied from the control board, and the supply of the drive pulse from the control board is interrupted, As the rotation of the step motor stops, the first reel R1 to the third reel R3 stop.

  The front upper door UD and the front lower door DD are provided so as to be individually openable and closable, and the front upper door UD has a display window DW that allows observation of the rotation state and the stop state of the first reel R1 to the third reel R3. Is provided. In the stopped state of the first reel R1 to the third reel R3, the plurality of types of symbols arranged at regular intervals on the outer peripheral surfaces of the first reel R1 to the third reel R3 are continuously arranged on the outer peripheral surface. The three symbols (the upper symbol, the middle symbol, and the lower symbol) can be observed through the display window DW from the front of the gaming machine.

  In the gaming machine of the present embodiment, the upper, middle, and lower stages are provided for each reel as display positions for observing the symbol through the display window DW, and the effective line L1 is determined depending on the combination of the symbol display positions for each reel. ~ L4 is set. Specifically, the effective line L1 is set by a combination of the upper stage of the first reel R1, the middle stage of the second reel R2, and the lower stage of the third reel R3, and the upper stage of the first reel R1, the upper stage of the second reel R2, The effective line L2 is set by the combination of the upper stage of the third reel R3 and the effective line L3 is set by the combination of the lower stage of the first reel R1, the lower stage of the second reel R2, and the lower stage of the third reel R3. An effective line L4 is set by a combination of the lower stage of the reel R1, the middle stage of the second reel R2, and the upper stage of the third reel R3. In the gaming machine of this embodiment, the middle stage of the first reel R1 and the middle stage of the third reel R3 are not displayed positions on any effective line. That is, in the gaming machine of this embodiment, a part of the display position of each of the first reel R1 and the third reel R3 is excluded from the display position on the effective line.

  The game result is judged by the symbol combination stopped and displayed on the effective lines L1 to L4 in the display window DW. When the symbol combination on the effective lines L1 to L4 is a symbol combination corresponding to a predetermined role, As the winning combination, medals are paid out from the hopper unit. In the gaming machine of this embodiment, the number of medals required for one game, the so-called prescribed insertion number is set to three, and the effective lines L1 to L1 are set based on the insertion of the prescribed insertion number of medals. L4 is set. Note that the prescribed number of throws may vary depending on the game state, and when multiple types of prescribed throws are set, the number and type of active lines may vary depending on the prescribed number of throws. .

  The front upper door UD is provided with a game information display section DS. The game information display section DS is composed of an LED, a lamp, a 7-segment display, etc., and displays various game information such as the number of medal credits, the number of medals paid out or earned in one game, and the remaining number of bonus games. The

  In addition, the front upper door UD is provided with a liquid crystal display LCD for performing game effects. On the liquid crystal display LCD, various videos (or images) for assisting the game or for exciting the game are displayed. Further, in the gaming machine of the present embodiment, a plurality of speakers (not shown) for performing a game effect are provided for the front upper door UD and the front lower door DD. From the speaker, various sounds for assisting the game or for exciting the game are output.

  Further, an illumination device (production device) LD for performing a game effect is provided on the right side of the display window DW of the front upper door UD. The lighting device LD includes an LED (an example of a light source) and includes a shielding unit that operates between a closed state that shields the LED and an open state that does not shield the LED. And this LED blinks or the shielding part operates between the closed state and the open state, and various effects for assisting the game or boosting the game are performed. The lighting device LD is provided on the back side of the colorless and transparent rectangular region formed on the front panel FP that constitutes the front surface of the front upper door UD, so that the player cannot touch and is visible. ing.

  Note that the first reel R1 to the third reel R3 are also provided on the back side of the colorless and transparent rectangular region formed on the front panel FP, so that the player cannot make contact and is visible. That is, in the front panel FP, a colorless and transparent rectangular area formed corresponding to the positions of the first reel R1 to the third reel R3 functions as the display window DW.

  The front lower door DD is provided with various operation means. As the operation means, an operation that triggers the start of the game by rotating the bet button (insertion operation means) B0 and the first reel R1 to the third reel R3 for performing an operation of inserting a credited (stored) medal. A start lever (rotation start operation means) SL for performing the operation, and a stop button (stop operation means for performing an operation to stop each of the first reel R1 to the third reel R3 that is rotationally driven by the step motor. ) B1-B3 and the like are provided.

  In the gaming machine of the present embodiment, the player starts rotation control of the first reel R1 to the third reel R3 by inserting a medal into the medal insertion slot MI or performing an operation of pressing the bet button B0. Is set to a possible ready state. When the player depresses the start lever SL, the first reel R1 to the third reel R3 are started to rotate on the control board by driving the step motor, and an internal lottery using a random number value is performed, so that the first reel R1 On the condition that the rotation speed of the third reel R3 has increased to a predetermined speed, the pressing operation of the stop buttons B1 to B3 is permitted (validated).

  Thereafter, when the player presses down the stop buttons B1 to B3 at an arbitrary timing, stop switches (stop signal output means: for example, a photo sensor, a continuity sensor, a pressure) built in each of the stop buttons B1 to B3 A sensor or the like) is activated, and the reel stop signal input to the control board is changed from the off state to the on state.

  Further, when the player releases the stop buttons B1 to B3 that are in the pressed state at an arbitrary timing, the stop switch of each button is deactivated, and the reel stop signal input to the control board is changed from the on state to the off state. .

  And the control board is at a stop position according to the result of the internal lottery based on the change from the off state to the on state of the reel stop signal whose signal state changes according to the pressing timing and release timing of the stop buttons B1 to B3. The first reel R1 to the third reel R3 are stopped.

  Further, a medal payout opening MO and a medal tray MP are provided at the lower part of the front lower door DD, and a number of medals according to the game result are paid out from the medal payout opening MO to the medal tray MP. Yes.

2. 2. Configuration of lighting device 2-1. Configuration of Shielding Unit FIG. 2 is a perspective view showing the internal structure of the illumination device LD. 2, 3, 6, 7, and 8 are the vertical and horizontal directions in FIG. 1 unless otherwise specified.

  As illustrated in FIG. 2, the illumination device LD includes three illumination units 10, and an LED (light source) is provided inside each illumination unit 10. And each illumination part 10 is provided with the cylindrical 1st restriction | limiting part 12, and the 1st restriction | limiting part 12 makes the illumination range of LED forward by the linear arrow in a figure by forming circular opening. It is restricted so as to be circular.

  Further, on the inner peripheral surface side of the first restricting portion 12, two plate-like upper shielding plates 14 (first shielding portions) that cover the upper half of the circular opening and the circular opening Two plate-like lower shielding plates 15 (second shielding portions) that cover the lower half semicircular portion are provided. Each of the two upper shielding plates 14 has a shape formed by dividing the upper half semicircle into two by one straight line parallel to the upper half semicircular chord. Each of the lower shielding plates 15 has a shape formed by dividing the lower half semicircle into two by one straight line parallel to the lower half semicircular chord. As shown in FIG. 2, when the two upper shielding plates 14 and the two lower shielding plates 15 are in the closed state, the LEDs (light emitting portions) are shielded.

  Each of the two upper shielding plates 14 and the two lower shielding plates 15 includes a shielding shaft 16 that is a rotation axis parallel to the semicircular chords of the upper half and the lower half. Is pivotally supported (held) with respect to the first restricting portion 12. That is, the shielding shafts 16 of the two upper shielding plates 14 and the two lower shielding plates 15 are provided so as to be parallel to each other. As shown in FIG. 3, when the two upper shielding plates 14 and the two lower shielding plates 15 are rotated from the closed state to the open state, the LEDs (light emitting portions) are not shielded. It has become.

  As described above, in the present embodiment, the two upper shielding plates 14 and the two lower shielding plates 15 are rotated between the closed state and the open state, but the first restriction unit that restricts the illumination range of the LED. By using the space on the inner peripheral surface side of 12 as a space for the two upper shielding plates 14 and the two lower shielding plates 15 to rotate, the two upper shielding plates 14 and the two lower shielding plates A space for rotating the plate 15 is efficiently secured. Thus, in the present embodiment, when the front panel FP is provided on the front surface of the lighting device LD as shown in FIG. 1, even if the space between the lighting device LD and the front panel FP is compressed, When the shielding plate 14 and the two lower shielding plates 15 rotate, it can be prevented from interfering with the front panel FP.

  Here, as shown in FIG. 2, the two upper shielding plates 14 and the two lower shielding plates 15 are for shielding the LED, so that a gap with the first limiting portion 12 is as much as possible in the closed state. It is formed to be narrow. Of the two upper shielding plates 14, the upper upper shielding plate 14 is formed in an arcuate shape with the arc portion at the upper part, so that the lateral width in the direction along the shielding axis 16 is the lower part of the arcuate shape. The chord part is the widest, and the width decreases as it moves away from the bow-shaped chord part. Therefore, in order to prevent the upper upper shielding plate 14 from interfering with the first restricting portion 12 when the upper upper shielding plate 14 rotates, the shielding shaft 16 of the upper upper shielding plate 14 extends along an arcuate chord portion having the widest horizontal width. Is provided.

  The middle upper shielding plate 14 provided below the upper upper shielding plate 14 of the two upper shielding plates 14 is formed in a shape obtained by cutting an upper arc from the upper half semicircle. Therefore, the horizontal width is the widest at the semicircular chord portion which is the lower part of the shape, and the horizontal width becomes narrower as it moves away from the semicircular chord portion. Therefore, the shielding shaft 16 of the middle upper shielding plate 14 is provided in a portion close to the semicircular chord portion having the widest width. As shown in FIG. 2, the shielding shaft 16 of the middle upper shielding plate 14 of the present embodiment is provided in a portion slightly shifted upward from the semicircular chord portion. However, since the rate of change of the circular lateral width decreases as it approaches the diameter portion, the middle upper shielding plate 14 is formed by a slight gap formed between the middle upper shielding plate 14 and the first restricting portion 12. When rotating, it does not interfere with the first limiting portion 12.

  Further, the lower shielding plate 15 in the lower stage of the two lower shielding plates 15 is formed in an arcuate shape having an arc portion as a lower portion. The width becomes narrower as it moves away from the bottom. Accordingly, the shielding shaft 16 of the lower lower shielding plate 15 is provided along an arcuate string portion so as not to interfere with the first restricting portion 12 when the lower lower shielding plate 15 rotates.

  Of the two lower shielding plates 15, the middle lower shielding plate 15 provided on the lower lower shielding plate 15 is formed in a shape obtained by cutting a lower arc from a lower half semicircle. Therefore, the horizontal width is the widest at the semicircular chord portion which is the upper portion of the shape, and the horizontal width becomes narrower as it moves downward from the semicircular chord portion. Therefore, the shielding shaft 16 of the middle lower shielding plate 15 is provided in a portion close to a semicircular chord portion.

  As described above, in the present embodiment, each of the two upper shielding plates 14 has the shielding shaft 16 at a position shifted downward from the center of the vertical width that is the width in the direction orthogonal to the direction along the shielding shaft 16. Each of the two lower shielding plates 15 is provided with a shielding shaft 16 at a position shifted upward from the center of the vertical width. Thus, in this embodiment, the area to be shielded by the two upper shielding plates 14 and the two lower shielding plates 15 is circular, and the two upper shielding plates 14 and the two lower shielding plates 15 are circular. Each of the two upper shielding plates 14 and the two lower shielding plates 15 rotates without interfering with the first restriction portion 12 even if it is provided on the inner peripheral surface side of the first restriction portion 12 that forms the opening. can do.

  In the present embodiment, the shielding shaft 16 of the upper upper shielding plate 14, the shielding shaft 16 of the middle upper shielding plate 14, the shielding shaft 16 of the middle lower shielding plate 15, and the shielding shaft 16 of the lower lower shielding plate 15 are provided. Are provided at equidistant intervals, the shielding shaft 16 of the middle upper shielding plate 14 is provided at a portion slightly shifted upward from the semicircular chord portion, and the shielding shaft 16 of the middle lower shielding plate 15 is provided. Is provided in a portion slightly shifted downward from the semicircular string portion.

  Here, the relationship between the shape of the upper upper shielding plate 14 and the shape of the lower lower shielding plate 15 and the relationship between the shape of the upper upper shielding plate 14 and the shape of the lower lower shielding plate 15 are reversed upside down. It has become a relationship. Since each of the two upper shielding plates 14 is provided with a shielding shaft 16 at a position shifted downward from the center of the vertical width, the upper portion from the shielding shaft 16 is lower than the lower portion with respect to the vertical width. Each of the two lower shielding plates 15 is provided with a shielding shaft 16 at a position shifted from the center of the vertical width, so that the lower portion of the shielding shaft 16 is the upper portion with respect to the vertical width. It is formed longer than.

  Therefore, when the two upper shielding plates 14 and the two lower shielding plates 15 are opened in the same direction when they are opened, the upper ends of the two upper shielding plates 14 move forward. When the lower ends of the two lower shielding plates 15 move rearward and the upper ends of the two upper shielding plates 14 move rearward, the lower ends of the two lower shielding plates 15 move forward. In the open state, the directions of the four shielding plates are not aligned, and the two upper shielding plates 14 or the two lower shielding plates 15 are also provided behind the two upper shielding plates 14 or the two lower shielding plates 15. It is necessary to secure a space for rotation.

  Therefore, in this embodiment, when the two upper shielding plates 14 or the two lower shielding plates 15 are opened from the closed state shown in FIG. 2, the two upper shielding plates 14 are viewed from the left side in the figure. The two lower shielding plates 15 are rotated counterclockwise (reverse direction) when viewed from the left side in the figure. Accordingly, in this embodiment, as shown in FIG. 3, when the two upper shielding plates 14 and the two lower shielding plates 15 are opened, the upper ends of the two upper shielding plates 14 are directed forward. While moving, the lower ends of the two lower shielding plates 15 can also move forward. Therefore, in the present embodiment, the two upper shielding plates 14 and the two lower shielding plates 15 can be aligned in the open state, and the two upper shielding plates 14 or the two lower shielding plates 15 are rearward. In addition, it is not necessary to secure a space for rotating the upper ends of the two upper shielding plates 14 and the lower ends of the two lower shielding plates 15.

  In this embodiment, when returning the two upper shielding plates 14 and the two lower shielding plates 15 from the open state shown in FIG. 3 to the closed state shown in FIG. The two lower shielding plates 15 are rotated clockwise (forward direction) as viewed from the left side in the figure by rotating counterclockwise (reverse direction) as viewed from the middle left side.

2-2. Configuration of Operation Unit As illustrated in FIG. 2, the illumination device LD of the present embodiment includes three illumination units 10, and includes six upper shielding plates 14 and six lower shielding plates of the three illumination units 10. 15 is simultaneously rotated between a closed state and an open state. Therefore, in this embodiment, the 1st crank part 18 (conversion part) which converts a rectilinear motion into a rotational motion is formed in the left end of each upper shielding board 14. FIG. And this 1st crank part 18 is connected with the plate-shaped 1st slide board 20 provided in the left side of the three illumination parts 10 so that a slide was possible in the up-down direction. When the first slide plate 20 slides in the vertical direction, the straight movement of the first slide plate 20 is converted into rotational movement by the first crank portion 18 so that each upper shielding plate 14 rotates clockwise and counterclockwise. It has become.

  A second crank portion 22 is formed at the left end of each lower shielding plate 15, and the second crank portion 22 goes straight in the vertical direction parallel to the first slide plate 20 on the left side of the first slide plate 20. It is connected to a plate-like second slide plate 24 slidably provided. When the second slide plate 24 slides in the vertical direction, each lower shielding plate 15 rotates clockwise and counterclockwise.

  The first slide plate 20 is connected to the tip (one end) of the first arm 26 on the back side of the first slide plate 20. The first arm 26 is pivotally supported (held) so as to be rotatable with respect to the base portion 30 around a first arm shaft 28 which is a rotation axis parallel to the shielding shaft 16. The rear end of the first arm 26 is connected to a drive portion of a rectilinear solenoid 32 (drive source). On the other hand, the second slide plate 24 is connected to the tip of the second arm 34 on the back side of the second slide plate 24. The second arm 34 is pivotally supported (held) so as to be rotatable with respect to the base portion 30 around a second arm shaft 36 that is a rotation axis parallel to the shielding shaft 16. The rear end (the other end) of the second arm 34 is connected to the drive portion of the linear solenoid 32 (drive source).

  In the present embodiment, the first arm 26 and the second arm 34 are attached to the drive portion of the rectilinear solenoid 32 so as to be symmetrical about the drive portion of the rectilinear solenoid 32. The second arm 34 is a common member.

  FIG. 4A is a diagram showing a relationship among the six upper shielding plates 14, the first slide plate 20, the first arm 26, and the rectilinear solenoid 32 when the illumination device LD is viewed from the left side. . In the state of FIG. 4A, the drive portion of the linear solenoid 32 is in a protruding state, the first arm 26 is rotated clockwise (first state), and the first slide plate 20 is It has been slid downward (first state), and the upper shielding plate 14 is closed.

  Here, in the upper and lower portions of the first slide plate 20, a guide hole 38 that is long in the vertical direction is provided, and a fixing pin 40 that is fixed to the base portion 30 passes through the guide hole 38. ing. Thus, the first slide plate 20 is guided by the fixing pins 40 and can slide linearly in the vertical direction with respect to the base portion 30.

  Further, a portion of the first slide plate 20 connected to the upper shielding plate 14 is provided with a long working hole 42 in the left-right direction in the figure, and the tip of the first crank portion 18 of the upper shielding plate 14 is provided in this working hole 42. A moving pin 44 provided at (one end) passes therethrough. In the state of FIG. 4A, the moving pin 44 is located below the shielding shaft 16 (first state).

  Then, as shown in FIG. 4B, when the drive portion of the linear solenoid 32 moves to the left in the drawing and is in a non-projecting state, the first arm 26 is moved relative to the base portion 30 around the first arm shaft 28. Rotate counterclockwise in the figure. Then, the tip of the first arm 26 moves upward, the first arm 26 pushes up the first protrusion 46 provided on the first slide plate 20, and the first slide plate 20 moves upward (first direction). Slide to.

  Then, the first slide plate 20 applies an upward force to the moving pin 44, and the moving pin 44 rotates clockwise around the shielding shaft 16 while moving so as to reciprocate inside the action hole 42. The pin 44 moves above the shielding shaft 16. That is, each of the six upper shielding plates 14 simultaneously rotates clockwise around the shielding shaft 16.

  Thus, as shown in FIG. 4B, when the drive portion of the linear solenoid 32 is in a non-projecting state, the first arm 26 is rotated counterclockwise (second state), and the first slide plate 20 is moved upward. The sliding state (second state) is entered, and the six upper shielding plates 14 are opened.

  Then, as shown in FIG. 4A, when the drive portion of the linear solenoid 32 moves to the right in the figure and enters a protruding state, the first arm 26 is centered on the first arm shaft 28 with respect to the base portion 30. Rotates clockwise in the figure. Then, the tip of the first arm 26 moves downward, the first arm 26 pushes down the first protrusion 46 provided on the first slide plate 20, and the first slide plate 20 moves downward (second direction). Slide to.

  Then, the first slide plate 20 applies a downward force to the moving pin 44, and the moving pin 44 rotates counterclockwise around the shielding shaft 16 while moving so as to reciprocate inside the action hole 42. The pin 44 moves below the shielding shaft 16. That is, the six upper shielding plates 14 rotate counterclockwise around the shielding shaft 16 and are in a closed state.

  FIG. 5A is a diagram illustrating a relationship among the six lower shielding plates 15, the second slide plate 24, the second arm 34, and the rectilinear solenoid 32 when the illumination device LD is viewed from the left side. . In the state of FIG. 5A, the drive portion of the linear solenoid 32 is in a protruding state, the second arm 34 is rotated counterclockwise (first state), and the second slide plate 24 is It is in a state of sliding upward (first state), and the lower shielding plate 15 is in a closed state.

  Here, similarly to the first slide plate 20, the upper and lower portions of the second slide plate 24 are provided with guide holes 38 that are long in the vertical direction. The guide holes 38 are fixedly provided to the base portion 30. The fixing pin 40 is penetrating. As a result, the second slide plate 24 is guided by the fixing pin 40 and is slidable in the vertical direction with respect to the base portion 30 and parallel to the first slide plate 20.

  Further, a portion where the second slide plate 24 is connected to the lower shielding plate 15 is provided with an action hole 42 which is long in the left-right direction in the figure, and this action hole 42 has a tip of the second crank portion 22 of the lower shielding plate 15. A moving pin 44 provided at (one end) passes therethrough. In the state of FIG. 5A, the moving pin 44 is positioned above the shielding shaft 16 (first state).

  Then, as shown in FIG. 5B, when the drive portion of the linear solenoid 32 moves to the left in the figure and enters a non-projecting state, the second arm 34 is centered on the second arm shaft 36 with respect to the base portion 30. Rotate clockwise in the figure. Then, the tip of the second arm 34 moves downward, the second arm 34 pushes down the second protrusion 48 provided on the second slide plate 24, and the second slide plate 24 slides downward.

  Then, the second slide plate 24 applies a downward force to the moving pin 44, and the moving pin 44 rotates counterclockwise around the shielding shaft 16 while moving so as to reciprocate inside the action hole 42. The pin 44 moves below the shielding shaft 16. That is, each of the six lower shielding plates 15 simultaneously rotates counterclockwise around the shielding shaft 16.

  Thus, as shown in FIG. 5B, when the drive portion of the linear solenoid 32 is in the non-projecting state, the second arm 34 is rotated clockwise (second state), and the second slide plate 24 is moved downward. The sliding state (second state) is entered, and the six lower shielding plates 15 are opened.

  Then, as shown in FIG. 5A, when the drive portion of the linear solenoid 32 moves to the right in the figure and enters a protruding state, the second arm 34 is centered on the second arm shaft 36 with respect to the base portion 30. It rotates counterclockwise in the figure. Then, the tip of the second arm 34 moves upward, the second arm 34 pushes up the second protrusion 48 provided on the second slide plate 24, and the second slide plate 24 slides upward.

  Then, the second slide plate 24 applies an upward force to the moving pin 44, and the moving pin 44 rotates clockwise around the shielding shaft 16 while moving so as to reciprocate inside the action hole 42. The pin 44 moves above the shielding shaft 16. That is, each of the six lower shielding plates 15 rotates clockwise around the shielding shaft 16 and is in a closed state.

  As described above, in this embodiment, as shown in FIGS. 4A and 5A, the drive portion of the linear solenoid 32 is driven from the non-projecting state to the projecting state. As shown in FIG. 5, the first arm 26 rotates clockwise and the second arm 34 rotates counterclockwise as shown in FIG. As the first arm 26 rotates clockwise as shown in FIG. 4 (A), the first slide plate 20 slides downward, and as shown in FIG. 5 (A), the second arm 34 moves. The second slide plate 24 slides upward as it rotates counterclockwise. Then, as shown in FIG. 4 (A), as the first slide plate 20 slides downward, the upper shielding plate 14 rotates counterclockwise and closes, and as shown in FIG. As the two slide plates 24 slide upward, the lower shielding plate 15 rotates clockwise and enters a closed state.

  Further, as shown in FIG. 4B and FIG. 5B, as the drive portion of the linear solenoid 32 is driven from the projecting state to the non-projecting state, the first arm as shown in FIG. 26 rotates counterclockwise and the second arm 34 rotates clockwise as shown in FIG. As the first arm 26 rotates counterclockwise as shown in FIG. 4B, the first slide plate 20 slides upward, and as shown in FIG. 5B, the second arm 34 moves. The second slide plate 24 slides downward as it rotates clockwise. Then, as shown in FIG. 4 (B), as the first slide plate 20 slides upward, the upper shielding plate 14 rotates clockwise to be in the open state, as shown in FIG. 5 (B). As the two slide plates 24 slide downward, the lower shielding plate 15 rotates counterclockwise and enters the open state.

  Thus, in this embodiment, the six upper shielding plates 14 and the six lower shielding plates 15 are simultaneously moved by one linear solenoid 32, and the rotation direction of the upper shielding plate 14 and the rotation direction of the lower shielding plate 15 are opposite to each other. Can be rotated. In the present embodiment, the first slide plate 20 and the second slide plate 24 are constituted by thin plate-like members, and the first slide plate 20 and the second slide plate 24 are as shown in FIG. They are provided so as to be adjacent to each other so as not to interfere with each other. Therefore, in this embodiment, the space required for the configuration in which the six upper shielding plates 14 and the six lower shielding plates 15 are operated as described above can be reduced.

2-3. 6 is a perspective view showing a state in which the first restricting portion 12 (connecting portion) shown in FIG. 2 is removed from the base portion 30. As shown in FIG. As shown in FIG. 6, the first restricting portion 12 includes four pieces on each of the left portion and the right portion of the rear end 49 that contacts the base portion 30 when the first restricting portion 12 is connected to the base portion 30. A recess 50 is formed. Each concave portion 50 is formed so as to be able to receive the shielding shaft 16, and when the first limiting portion 12 is connected to a predetermined position of the base portion 30, the two upper shielding plates 14 and the two lower portions are formed. Four bearing portions 52 that pivotally support each shielding shaft 16 of the shielding plate 15 with respect to the first restriction portion 12 are formed.

  Here, the first restricting portion 12 is provided with a hook-like hook member 54 on each of the left part and the right part of the rear end 49 so as to protrude rearward from between the two recesses 50. A flange portion 56 that protrudes inward is formed at the tip of 54. Further, the base portion 30 is provided with a hole (not shown) into which the flange portion 56 of each flange member 54 is fitted. And when attaching the 1st restriction | limiting part 12 to the predetermined position of the base part 30, between each shielding member 54 between the shielding axis | shaft 16 of the middle upper shielding board 14, and the shielding axis | shaft 16 of the middle lower shielding board 15 is carried out. First, the flange portion 56 of each flange member 54 is brought into contact with the base portion 30 so as to pass through. When the first restricting portion 12 is pushed toward the base portion 30 from this state, each flange member 54 is deformed to the outside, and when the first restricting portion 12 is further pushed toward the base portion 30, the rear of the first restricting portion 12 is reached. The end 49 contacts the base 30. Then, in this state, the collar portion 56 of each collar member 54 reaches the collar hole of the base portion 30 and is elastically deformed so that each collar member 54 that has been deformed to the outside returns to the original position, so that the collar portion 56 becomes the base portion. It is inserted into 30 potholes. In this way, in the present embodiment, the connection state between the first restriction portion 12 and the base portion 30 is maintained.

  Here, the moving pin 44 shown in FIG. 4A or the like simply passes through the action hole 42, and the moving pin 44 is provided with a configuration that prevents the movement pin 44 from coming out of the action hole 42. It is not done. However, in this embodiment, the operation of the two upper shielding plates 14 and the two lower shielding plates 15 is rotated about each shielding shaft 16 by connecting the first limiting portion 12 and the base portion 30. Since the movement is limited to the operation, the movement pin 44 can be prevented from coming out of the action hole 42 even if the movement pin 44 simply passes through the action hole 42.

  Here, since the impact is applied to the bearing portion 52 every time the two upper shielding plates 14 and the two lower shielding plates 15 are rotated, the flange portion 56 of each flange member 54 is placed in the hole of the base portion 30. There is a concern that the first restricting portion 12 may be detached from the base portion 30 due to an impact only by being fitted. Accordingly, it is desirable that the first restricting portion 12 and the base portion 30 are firmly fixed by screws or the like. In this case, a space for screwing the first restricting portion 12 and the base portion 30 is required. Moreover, the problem that a manufacturing process will increase will generate | occur | produce.

  Therefore, in the present embodiment, as shown in FIG. 7, with the three first restriction portions 12 temporarily fixed to the base portion 30, the front cover portion 60 ( The fixing part) is fixed to the base part 30 with screws. The front cover portion 60 is formed so as to be in close contact with the front ends of the three first limiting portions 12 while being fixed to the base portion 30 with screws. Therefore, when the front cover part 60 is fixed to the base part 30 with screws, the three first restricting parts 12 are held (clamped) between the base part 30 and the front cover part 60.

  Therefore, in this embodiment, even if the first restricting portion 12 is not fixed to the base portion 30 with screws or the like, the connection state between the base portion 30 and the first restricting portion 12 is not released due to an impact applied to the bearing portion 52. Can be. In addition, in the present embodiment, the three first restricting portions 12 can be held at the same time by one front cover portion 60 so that the connection state with respect to the base portion 30 is not released.

  Specifically, the front cover part 60 is a design part that forms the appearance of the lighting device LD, and covers the three lighting parts 10, the first crank part 18, the second crank part 22, the first slide plate 20, The second slide plate 24 is covered. And the front cover part 60 is formed in the box shape by which the front surface was opened to the rectangle, and the width of the front-back direction of a right-and-left side surface is gradually widened from the upper part to the lower part. Further, an upper collar portion extending upward is provided from the left side portion of the front end of the upper surface of the front cover portion 60, and the left side extending leftward from the entire front end of the left side surface of the front cover portion 60. A collar portion is provided, and the upper collar portion and the left collar portion are formed to be continuous.

  And the front cover part 60 is provided with the 3rd 2nd restriction | limiting part 62 which restrict | limits each illumination range of the three illumination parts 10 so that it may become circular toward the front shown by the linear arrow in a figure. More specifically, three circular openings having substantially the same size as the circular opening formed by the first restricting portion 12 are provided on the back side surface 64 surrounded by the upper and lower surfaces and the left and right side surfaces of the front cover portion 60. ing. The three circular openings on the back side surface 64 coincide with the circular openings formed by the three first limiting portions 12 in a state where the front cover portion 60 is fixed to the base portion 30 with screws. Is provided. In the state in which the front cover part 60 is fixed to the base part 30 with screws, the back side of the back side face 64 is formed so as to be in close contact with the front ends of the three first restriction parts 12.

  Further, on the front side of the back side surface 64, three second restriction portions 62 that form a circular opening having substantially the same size as the circular opening formed by the first restriction portion 12 are provided. Each of the three second restricting portions 62 is provided on the front side of the rear side surface 64 so that the circular opening formed by each second restricting portion 62 matches the circular opening formed by each first restricting portion 12. It has been. Accordingly, in the present embodiment, the circular opening of the second restricting portion 62, the circular opening of the back side surface 64, and the first restricting portion with the lighting device LD attached to the gaming machine as shown in FIG. Through the 12 circular openings, a player heading to the front of the gaming machine can view the three illumination units 10.

  Here, in this embodiment, when the lighting device LD is attached to the gaming machine, the rectangular opening surface formed by the upper and lower surfaces and the left and right side surfaces of the front cover portion 60 faces the front direction of the gaming machine. The opening of the cylindrical space formed by the circular opening of the restricting portion 62, the circular opening of the back side face 64, and the circular opening of the first restricting portion 12 is left (as viewed from the gaming machine) from the front direction. To the right). That is, in this embodiment, as shown in FIG. 1, since the illumination device LD is provided on the right side of the display window DW, the center of the illumination range of the three illumination units 10 is directed to the player who faces the front of the gaming machine. It is like that.

  FIG. 8 is an assembly diagram of the illumination device LD. As shown in FIG. 8, the base portion 30 includes an attachment portion 66 to which the first restriction portion 12 is attached, an LED substrate 68 provided with LEDs, and three lenses 70 that cover the LEDs of the three illumination portions 10, A back cover portion 72 that covers the back side of the LED substrate 68 is provided.

  The lens 70 is formed in a cylindrical shape with an opening at the rear, and the circular surface in front of the lens 70 is provided with irregularities to diffuse the light of the LED. The lens 70 is fitted from the back side inside the cylindrical portion 74 of the attachment portion 66 to which the first restriction portion 12 is attached. Here, a convex portion 76 is provided at a part of the rear end of the side surface of the lens 70, and a concave portion having a shape corresponding to the convex portion 76 (see FIG. Not shown).

  When the lens 70 is fitted into the mounting portion 66, the convex portion 76 is fitted into a concave portion (not shown) so that the lens 70 does not rotate in the circumferential direction inside the cylindrical portion 74. Even if the upper shielding plate 14 and the lower shielding plate 15 rotate, the upper shielding plate 14 and the lower shielding plate 15 and the front end of the lens 70 are positioned so as not to contact each other. Further, an LED substrate 68 is provided behind the lens 70, and an area where no conductor pattern is printed on the front side of the LED substrate 68 contacts the rear end of the lens 70, so that the lens 70 does not move backward. Positioned. In FIG. 8, the lens 70 is already fitted inside the cylindrical portion 74 for the middle illumination unit 10 and the lower illumination unit 10.

  And the back cover part 72 is attached with respect to the attachment part 66 from the back of the attachment part 66, and is fixed with a screw | thread. Then, the front ends of the six protrusions 73 provided on the front side of the back cover portion 72 come into contact with the back side of the LED substrate 68, and the front side of the LED substrate 68 and the rear end of the lens 70 come into contact with each other. When the portion 76 and the concave portion (not shown) of the attachment portion 66 are in contact, the LED substrate 68 and the three lenses 70 are held between the back cover portion 72 and the attachment portion 66 ( Pinched).

  Moreover, the front cover part 60 is attached with respect to the attachment part 66 from the front of the attachment part 66, and is fixed with a screw | thread. Then, when the back side of the back side surface 64 of the front cover part 60 and the front ends 78 of the three first restriction parts 12 come into contact, the three first restriction parts between the front cover part 60 and the attachment part 66. 12 is held (clamped) so as to be sandwiched.

  A second restricting portion 62 is attached to the front side of the back side surface 64 of the front cover portion 60. More specifically, the second restricting portion 62 is provided with a hook-like hook member 80 protruding rearward from the right portion of the rear end 79 of the second restricting portion 62. A flange portion 82 is formed so as to protrude from the top. Further, on the right portion of the circular opening formed on the back side surface 64 of the front cover portion 60, a ridge groove 84 into which the ridge portion 82 of the ridge member 80 is fitted is provided. When the second restriction portion 62 is attached to the back side surface 64, the flange portion of the flange member 80 of the second restriction portion 62 with the rear end 79 of the second restriction portion 62 in contact with the front side of the back side surface 64. 82 is fitted into the groove 84. And the 2nd restriction | limiting part 62 is fixed with the screw with respect to the back side surface 64 in this state.

3. Functional Block FIG. 9 is a functional block diagram of the gaming machine of this embodiment.

  The gaming machine of this embodiment is controlled by a game control means (control board) 100. The game control means 100 receives input signals from input means such as the medal insertion switch 210, the bet switch 220, the start switch 230, the stop switch 240, etc., and performs various calculations for executing the game, and based on the calculation results. The operation control of the output means such as the reel unit 310, the hopper unit 320, the display device 330, the acoustic device 340 is performed. The functions of the game control means 100 are stored in advance in various processors (CPU, DSP, etc.), ASIC (gate array, etc.), ROM (an example of an information storage medium), or hardware such as RAM, ROM, etc. It is realized by software consisting of a given program.

  The game control unit 100 includes a main control unit 110 and a sub control unit 120.

  The main control means 110 performs an internal lottery that determines whether or not a winning combination is made based on a start signal from a start switch 230 that is actuated by a player pressing down a start lever (rotation start operation means) SL, and the first reel R1 to the third reel R3 are rotated by a step motor.

  The main control unit 110 is driven to rotate by a step motor based on a stop signal from a stop switch 240 that is activated by pressing (stopping) the stop buttons B1 to B3 corresponding to the rotating reel. Control is performed to stop the reels R1 to R3 according to the lottery flag setting state (internal lottery result).

  Then, the main control means 110 performs a process for determining whether or not a winning combination has been won based on the stopping mode of the first reel R1 to the third reel R3. Based on the determined payout, the number of medals to be paid out in the game is determined, and control is performed to cause the hopper unit 320 (payout device) to pay out medals corresponding to the determined number of payouts.

  Further, the main control means 110 owns the game state transition control process for shifting the game state between the normal state, the bonus establishment state, and the bonus state based on the establishment of a predetermined transition condition, and the player with the winning. By changing the replay lottery state in which the next game is performed without requiring a game medium, a replay probability variation process is performed to vary the winning probability of the replay in the internal lottery.

  The sub-control unit 120 uses the display device 330 (effect device) such as a lamp, an LED, a liquid crystal display LCD, and an illumination device LD based on the effect data stored in the effect data storage unit 122, and a display effect or sound device. Control regarding the sound effect performed using 340 (effect device) is performed. Specifically, various operations such as insertion of medals, bet button B0, start lever SL, operation on stop buttons B1 to B3, stop mode of first reel R1 to third reel R3, winning determination result, game state change, etc. In response to the occurrence of a game event, the lamp, LED, or lighting device LD is turned on or blinked, the lighting device LD is operated, the display content of the liquid crystal display LCD is changed, or the sound is output from the speaker. Thus, production control is performed to excite the game or assist the game.

4). Modifications The present invention is not limited to that described in the above embodiment, and various modifications can be made. Note that the above-described embodiments and various configurations described later as modified examples can be appropriately combined or employed as a configuration for realizing the present invention. In addition, the control method described in each of the above embodiments is merely an example, and even when an equivalent method that exhibits the same effect as the control method of each of the above embodiments is employed, it is included in the scope of the present invention. it can.

4-1. Modification 1
For example, in the above-described embodiment, an example in which the illumination device LD includes three illumination units 10 and one illumination unit 10 includes four shielding plates has been described. However, the number of illumination units 10 and the shielding plates are described. The number of can be changed as appropriate. Moreover, although the said embodiment demonstrated and demonstrated the example in which the 1st restriction | limiting part 12 which restrict | limits the illumination range of a light source formed the circular opening, the shape of the opening which a restriction | limiting part forms can be changed suitably. .

  For example, as shown in FIG. 10 (A), the illumination unit 10 rotates from the closed state to the limit unit 400 that forms a circular opening, and rotates clockwise around the shielding shaft 16 as viewed from the left side in the figure. One upper shielding plate 402 (first shielding portion) and one lower shielding plate 404 (second shielding portion) that rotates counterclockwise around the shielding shaft 16 and changes from the closed state to the open state. You may make it provide. Further, as shown in FIG. 10 (B), the illumination unit 10 includes a restriction unit 406 that forms an elliptical opening, and three pieces that rotate clockwise around the shielding shaft 16 and change from a closed state to an open state. The upper shielding plate 408 (first shielding portion) and two lower shielding plates 410 (second shielding portions) that rotate counterclockwise around the shielding shaft 16 and change from the closed state to the open state. May be. Further, as shown in FIG. 10 (C), the illumination unit 10 includes a restriction unit 412 that forms a rectangular opening, and two pieces that rotate clockwise around the shielding shaft 16 to change from a closed state to an open state. An upper shielding plate 414 (first shielding portion) and two lower shielding plates 416 (second shielding portions) that rotate counterclockwise about the shielding shaft 16 and change from a closed state to an open state are provided. Also good. That is, since each side of the rectangle forming the opening of the restricting portion 412 and each shielding shaft 16 are not parallel, the width of the upper shielding portion becomes narrower from the bottom to the top, and the shape of the lower shielding portion is When the present invention is applied when the lateral width becomes narrower from the upper part to the lower part, the shield part can be prevented from interfering with the surrounding structure when the shield part rotates between the closed state and the open state. .

  Further, as shown in FIG. 10D, the illumination unit 10 rotates counterclockwise around the shielding unit 16 and the limiting unit 418 that forms an opening having a shape formed by combining two triangles that are inverted up and down. The two upper shielding plates 420 (first shielding portions) that are opened from the closed state to the open state and the two lower shielding plates 422 that rotate clockwise around the shielding shaft 16 and are opened from the closed state ( A second shielding portion). That is, even when the shape of the upper shielding part becomes narrower as it goes from the upper part to the lower part, and the width of the lower shielding part becomes narrower as it goes from the lower part to the upper part, the shielding part is closed when the present invention is applied. When rotating between the open state and the open state, the shield can be prevented from interfering with surrounding structures. In any case, the shielding shaft 16 of each shielding portion may be provided at a portion where the horizontal width of each shielding portion is the widest or in the vicinity thereof.

  In addition, when the width of the at least one of the upper shielding portion and the lower shielding portion becomes wider or narrower from the upper portion to the lower portion, the shielding portion is between the closed state and the open state when the present invention is applied. It is possible to prevent the shielding part from interfering with the surrounding structure when rotating at.

4-2. Modification 2
Moreover, in the said embodiment, a 1st shielding part and a 2nd shielding part are provided so that the direction along the shielding axis | shaft 16 may become a horizontal direction, and the shape of a 1st shielding part and a 2nd shielding part is horizontal width in an up-down direction. However, the direction in which the first shielding part and the second shielding part are provided or the direction in which the illumination part 10 is provided can be arbitrarily changed. For example, when the first shielding part and the second shielding part are provided so that the direction along the shielding axis 16 is the vertical direction (vertical direction), the shape of the first shielding part and the second shielding part is the left-right direction. It can be set as the shape from which vertical width changes.

4-3. Modification 3
In the above embodiment, an example in which a plurality of upper shielding plates 14 are connected to the first slide plate 20 and a plurality of lower shielding plates 15 is connected to the second slide plate 24 has been described. When the solenoid 32 rotates one upper shielding plate 14 and one lower shielding plate 15, the first crank portion 18 converts the rectilinear motion of the rectilinear solenoid 32 into the rotational motion of the upper shielding plate 14, If the second crank portion 22 is configured to convert the rectilinear motion of the rectilinear solenoid 32 into the rotational motion of the upper shielding plate 15, the first slide plate 20, the second slide plate 24, the first arm 26, and the second arm 34. Can be omitted.

4-4. Modification 4
Moreover, although the said embodiment demonstrated and demonstrated the example which uses the rectilinear solenoid which performs rectilinear movement as a drive source, you may make it use the motor which performs rotary motion as a drive source. In this case, a rack (spur gear) is formed on the first slide plate 20 and the second slide plate 24, and the rack of the first slide plate 20 is connected to a pinion (circular gear) provided on the rotating shaft of the motor. By connecting the rack of the second slide plate 24 to a pinion (circular gear) provided on the rotation shaft of the motor via an intermediate gear (circular gear), the rotational movement of the motor in the positive direction is caused by the first slide plate. 20 is converted into a rectilinear motion in the second direction and a rectilinear motion of the second slide plate 24 in the first direction. The second slide plate 24 can be converted into a straight movement in the second direction.

4-5. Modification 5
In the above-described embodiment, an example in which the present invention is applied to a lighting device in which a plurality of shielding units operate between a closed state that shields LEDs and an open state that does not shield LEDs has been described. A display area for a display object such as a liquid crystal display, a character model, or a hologram is provided behind the shielding part, and the closed state where the shielding part shields the display area for the display object and the display area (effect area) for the display object are shielded. The present invention may be applied to an effect device that operates between an open state and a non-open state. That is, the present invention is applied to an effect device for a gaming machine, in which the shielding unit operates between a closed state that shields a predetermined display region and an open state that does not shield the predetermined display region. Also good.

  Moreover, in the said embodiment, the example which is provided with the light source and the shielding part which shields a light source on the bearing part 52 formed in the state in which the base part 30 and the 1st restriction | limiting part 12 were connected is rotatably supported is given. As described above, not only the shielding part that shields the light source, but also a rotating part (effect product) that produces an effect by rotating may be pivotally supported by the bearing part 52. That is, it is a production device for a gaming machine, and includes a base part, a rotating part that rotates with respect to the base part, a connection part that is connected to the base part, and a fixed part that is fixed to the base part. The rotating part is rotatably supported by a bearing part formed in a state where the part and the connecting part are connected, and the connecting part is sandwiched between the base part and the fixing part while the base part and the fixing part are fixed. The present invention may be applied to an apparatus.

  Further, in the above embodiment, the lighting device (direction device) according to the present invention has been described with reference to the case where the lighting device (direction device) is attached to the rotary type gaming machine. However, the lighting device (direction device) according to the present invention is You may make it attach to.

BX storage box, UD front upper door, DD front lower door, DW display window, L1-L4 effective line, DS game information display unit, LCD liquid crystal display, LD illumination device,
R1 first reel, R2 second reel, R3 third reel,
B0 bet button, SL start lever, B1-B3 stop button,
MI medal slot, MO medal outlet, MP medal tray,
10 illuminating unit, 12 first limiting unit, 14 upper shielding plate, 15 lower shielding plate, 16 shielding axis,
18 1st crank part, 20 1st slide plate, 22 2nd crank part,
24 second slide plate, 26 first arm, 28 first arm shaft, 30 base part,
32 linear solenoid, 34 second arm, 36 second arm shaft, 38 guide hole,
40 fixing pin, 42 working hole, 44 moving pin, 46 first projection, 48 second projection,
50 concave portion, 52 bearing portion, 54 flange member, 56 flange portion, 60 front cover portion,
62 second restriction portion, 64 back side surface, 66 mounting portion, 68 LED substrate, 70 lens,
72 back cover part, 74 cylindrical part, 100 game control means, 110 main control means,
120 sub-control means, 122 effect data storage means,
210 medal insertion switch, 220 bet switch, 230 start switch,
240 stop switch, 310 reel unit,
315 reel index, 320 hopper unit,
325 payout medal detection switch, 330 display device, 340 sound device

Claims (3)

A light source;
The foundation,
A shielding part that operates between a closed state that shields the light source by rotating with respect to the base part and an open state that does not shield the light source;
A connecting portion connected to the base portion;
A fixing portion fixed to the base portion,
The shielding portion is rotatably supported by a bearing portion formed in a state where the base portion and the connection portion are connected,
The lighting device, wherein the connection portion is sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed. In claim 1,
A plurality of the shielding portions and a plurality of the connection portions;
Each of the plurality of shielding portions is rotatably supported by each of a plurality of bearing portions formed in a state where the base portion and the plurality of connection portions are connected,
A lighting device, wherein a plurality of the connecting portions are sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed. A light source;
The foundation,
A shield that operates between a closed state that shields light from the light source by rotating relative to the base and an open state that does not shield light from the light source;
A connecting portion connected to the base portion;
A fixing portion fixed to the base portion,
The shielding portion is rotatably supported by a bearing portion formed in a state where the base portion and the connection portion are connected,
A lighting device in which the connection portion is sandwiched between the base portion and the fixing portion in a state where the base portion and the fixing portion are fixed;
A gaming machine comprising a control unit that controls the lighting device.

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