JP3712753B2 - Movable lighting equipment for gaming machines - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a movable electric decoration device for a gaming machine in which a light guide shaft having a translucent inner shaft portion therein is disposed between an ornament and a light source, and a method for manufacturing the light guide shaft.
[0002]
[Prior art]
FIG. 14 is a cross-sectional view showing a configuration of a movable electric decoration device of a conventional gaming machine. The movable electric decoration device 1 is attached to a game board 7 that constitutes a part of a gaming machine such as a pachinko machine via a fixed base 3, that is, a cell board 5 on which a design image is applied. The fixed base 3 is provided with a fixed plate 9 having a shape which will be described in detail later. Holes 13a and 13b for passing light of a light source 11 described later are formed at positions above and below the center of the fixed plate 9. Yes. A filament lamp 11 serving as a light source for directing the light emitting side toward each hole 13 and the tip of the light emitting side into each hole 13a, 13b is provided on the side of the game board 7 near the holes 13a, 13b of the fixed plate 9. 15 is attached. Further, a cylindrical bearing portion 17 is provided at the center of the fixed base 3 so as to protrude to the back side of the game board 7, and a lamp windmill 19 as a movable ornament is provided in the bearing portion 17 from the surface side of the cell plate 5. A rotating shaft 21 is inserted.
[0003]
An E-ring 23 is attached to the distal end side of the rotating shaft 21 of the lamp windmill 19 so that the lamp windmill 19 cannot be removed from the fixed base 3. On the surface side of the cell plate 5 of the rotating shaft 21 in the lamp windmill 19, three ball receiving plates 25a, which are made of colored translucent members such as plastic and project outward in the circumferential direction, 25b and 25c are provided.
[0004]
FIG. 15 is a front view showing the front of the conventional movable electric decoration device 1 shown in FIG. The three ball receiving plates 25a, 25b, 25c of the lamp windmill 19 protrude from the rotating shaft 21 toward the outside in the circumferential direction at intervals of 120 degrees. Further, a circular light emitting portion 27 made of a member having a colored translucency, such as plastic, is provided on the front surface of the lamp windmill 19 in contact with the ball receiving plates 25a, 25b, 25c.
[0005]
Note that the fixing plate 9 of the fixing base 3 is not completely circular, and has a substantially elliptical shape with both sides protruding outward, and a screw nail (not shown) is inserted into the protruding portion so that the cell plate It is attached to the game board 7 to which 5 is attached.
[0006]
[Problems to be solved by the invention]
Conventionally, when the light emitting unit 27 of the lamp windmill 19 is intended to emit light relatively brightly, the filament lamp 11 that emits strong light energy must be used, which increases power consumption.
[0007]
Therefore, in order to reduce the power consumption, it is necessary to adopt a configuration in which the distance between the light emitting unit 27 and the filament lamp 11 is made as short as possible, that is, a configuration in which the filament lamp 11 is arranged as far as possible in the game board 7. However, with this configuration, when the filament lamp 11 is disconnected and replaced, the operator's hand does not reach and a very troublesome work is required. If an attempt is made to attach a light source to the movable body side, the electrical wiring process is not easy.
[0008]
The present invention has been made in view of the above problems, and has as its first object to provide a movable electric decoration device for a gaming machine that consumes less power of a light source and that allows easy replacement of the light source. Furthermore, it is a second object to provide a method for manufacturing a light guide shaft having excellent light transmittance.
[0009]
[Means for Solving the Problems]
  BookinventionMobile lighting device for gaming machine according toIs formed with a bearing hole in a fixed base for mounting on a game board, and has a pipe-like light-shielding outer shaft part and a rod-like light-transmitting property assembled integrally inside this bearing hole. A light guide shaft composed of an inner shaft portion is rotatably mounted, a movable ornament is fixed to a tip protruding from a fixed base of the light guide shaft, and a light emitting portion is provided at a portion corresponding to the inner shaft portion of the movable ornament. And a light source for emitting irradiation light passing through the inner shaft portion to the light emitting portion is separated from the light guide shaft and attached to the fixed base.In the movable electric decoration device for a gaming machine according to the present invention, a diffusion space portion whose diameter gradually increases from the inner shaft portion toward the light emitting portion is formed between the inner shaft portion of the light guide shaft and the light emitting portion. The inclined surface forming the diffusion space is configured as a reflection surface, the tip of the inner shaft protruding from the diffusion space is configured in a hemispherical shape, and a partition wall is disposed in the outer shaft of the light guide shaft This partition wall divides the inner shaft part into multiple parts in the circumferential direction, and sets the number of light sources equal to the number of parts of the inner shaft part. A movable portion that rotates in the direction, a movable portion that rotates the movable ornament on the back surface of the fixed base on the light source side, and a plurality of small lenses that refract light are formed on the light emitting portion. May be.
[0015]
[Action]
  BookinventionMobile lighting device for gaming machine according toWhen the light source emits light, the light enters the inner shaft portion from the rear end of the inner shaft of the light guide shaft, propagates in the direction along the axial direction, passes through the front surface of the inner shaft portion, and irradiates the light emitting portion of the movable ornament Then, the light emitting unit emits light. Since the inner shaft uses the property of propagating light in the direction along the axial direction, the amount of light at the tip of the inner shaft is almost the same as the amount of light at the rear end, and the light source is close to the rear end of the inner shaft. As a result, the amount of light emitted from the light source becomes substantially equal. In addition, since the light guide shaft is interposed when the light of the light source is irradiated to the light emitting part of the movable ornament, the light is radiated in a straight line from the light source located at a position apart even if the light emission level of the light source is low. And the power consumption of the light source can be reduced. In addition, since the distance between the light source and the light emitting unit can be increased in proportion to the total length of the light guide shaft, the light source can be arranged on the back side of the game board where the operator's hand can easily reach. It is possible to facilitate the replacement work.A diffusion space portion whose diameter gradually increases from the inner shaft portion toward the light emitting portion is defined between the inner shaft portion and the light emitting portion of the light guide shaft, and the inclined surface that forms this diffusion space portion is a reflecting surface. If the tip part of the inner shaft part protruding into the diffusion space part is formed in a hemispherical shape, the light from the light source is refracted and diffused outward at the hemispherical part at the tip of the inner shaft part. A part of the light is reflected by the reflecting surface. If a partition wall is arranged in the outer shaft portion of the light guide shaft, the inner shaft portion is divided into a plurality of circumferential directions in the partition wall, and the number of light sources is set equal to the number of sections of the inner shaft portion, each light source The light propagates in a direction along the axial direction in the circumferentially divided regions in the corresponding inner shaft portion, and is irradiated to the light emitting portion of the movable ornament. The light of each light source mixes and the light-emitting part is irradiated. If a movable part is provided on the back of the light source side of the fixed base to move the movable ornaments in opposite directions, the movable ornament can be forcibly set by driving the movable part while freely setting the installation space for the movable ornament. Can be rotated in the opposite direction. Further, it is possible to rotate the movable ornaments in opposite directions according to the game situation while causing the light emitting part of the movable ornaments to emit light by the light source. If a movable part that rotates the movable ornament in one direction is provided on the back side of the light source side of the fixed base, the movable ornament can be forced in one direction by driving the movable part while freely setting the installation space for the movable ornament. It can be rotated. In addition, it is possible to rotate the movable ornament in one direction according to the game situation while emitting light from the light source of the movable ornament. If a plurality of small lenses that refract light are formed in the light emitting section, the small lenses also rotate together with the movable ornament, and the direction of light divergence is sequentially changed.
[0021]
【Example】
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
FIG. 5 is a front view showing the configuration of a pachinko machine using a movable electric decoration device for a gaming machine according to an embodiment of the present invention. A front frame 33 is attached to the outer frame 31 so as to be opened and closed by a hinge (not shown), and a metal frame 35 is fixed to the inner peripheral edge of the front frame 33. A glass frame 37 is attached to the metal frame 35 so as to be opened and closed by a hinge (not shown), and a transparent glass 39 is attached to the glass frame 37.
[0022]
A game board (not shown) is attached to the front frame 33, and a cell board 41 with a design image is attached to the surface of the game board. The cell plate 41 has a plurality of game nails 43, a windmill 45, a start winning port 47, a winning port 49, a variable winning ball device (attacker) 51 having an opening / closing body, and an out port 53, which form a game ball passage at predetermined positions. , A lamp windmill 55, a blade (winning port) 57, a rotating rotor 59, and the like are provided. In particular, the configuration of the present invention is applied to the lamp windmill 55, the blades (winning port) 57, and the rotary rotor 59, which will be described in detail later.
[0023]
In the outer frame 31, an upper plate set 61 that accommodates game balls is installed at a position below the glass 39. A lower plate set 63 is provided at a position below the upper plate set 61 to accommodate game balls as balls that cannot be accommodated in the upper plate set 61. A handle grip 65 serving as an operation unit for operating a game ball launching device (not shown) is provided at a position substantially aligned with the lower plate set 63.
[0024]
In this pachinko machine, when the handle grip 65 is rotated in one direction, the launching device launches game balls from the upper plate set 61 into the band 67 one by one. The launched game ball is guided from the band to the upper part of the game area in the band 67, and the upward thrust of the game ball becomes smaller than the gravity of the game ball, so that the game ball rolls the game area downward. In the middle of rolling, it becomes a starting ball that moves the blade 57 by entering the starting winning port 47 while hitting the game nail 43, the ramp windmill 55 or the windmill 45, etc. A game ball that has been supplied as an outgoing ball or that has not entered the start winning opening 47 or winning opening 49 enters the out opening 53 and becomes an out ball.
[0025]
FIG. 1 is a cross-sectional view showing a configuration of a movable electric decoration device for a gaming machine according to a first embodiment of the present invention. The movable electric decoration device 71 of the present embodiment is an application of a lamp windmill 55, and constitutes a part of a gaming machine such as a pachinko machine via a fixed base 73, that is, a cell plate 41 on which a design image is applied. It is attached to the game board 7 to be mounted. The fixed base 73 is provided with a fixed plate 79 having a shape that will be described in detail later. The fixed plate 79 is provided with a cylindrical protruding portion 81 that protrudes on the back side thereof, that is, on the back side of the game board 7. . A bearing hole 83 is formed in the projecting portion 81 by utilizing the inner peripheral surface thereof, and further from the bearing hole 83 via a step 85 on the front end (tip on the back side) side of the bearing hole 83. A light source accommodation hole 89 that forms a light source accommodation chamber 87 having a larger radius is also formed. A predetermined number of screw holes 91 for mounting LED lamps 125 to be described later are formed at predetermined positions on the front end surface of the light source accommodation hole 89.
[0026]
A light guide shaft 93 configured as a rotation shaft of the lamp wind turbine 55 is inserted into the bearing hole 83 of the fixed base 73, and an E-ring, for example, is provided on the tip of the light guide shaft 93 (tip facing the game board side). Alternatively, by attaching a ring 94 such as a C ring, the light guide shaft 93 cannot be pulled out of the bearing hole 83 by engaging with the step 85 via the ring 94.
[0027]
The light guide shaft 93 is composed of a pipe-shaped outer shaft portion 95 having a light-shielding property and a rod-shaped inner shaft portion 97 having a light-transmitting property integrated into the outer shaft portion 95. At the front end of the outer shaft portion 95 on the front surface (front surface of the lamp wind turbine 55), a reflection surface 99 whose diameter gradually increases toward the light emitting portion 113 of the lamp wind turbine 55 is formed, thereby forming a diffusion space portion 101. ing. The reflective surface 99 is provided with a metal foil or metal piece such as aluminum or stainless steel, or is plated to increase the light reflectivity. The front end of the inner shaft portion 97 has a slightly convex surface so that the light emitted from the LED lamp 125, which will be described later, can be collected. The front end is formed in a hemispherical shape, for example, and will be described later. It is possible to diffuse 125 light emissions.
[0028]
FIG. 2 is an explanatory view for explaining a part of the manufacturing method of the light guide shaft 93. When manufacturing the light guide shaft 93, first, the outer shaft portion 95 is configured by, for example, lathe processing or molding, and set in the molding space of the molding die 201. Next, the other mold 203 is aligned with the mold 201 while inserting the protruding portion of the outer shaft portion 95 set in the mold 201 into the molding space 205 of the mold 203. At this time, the injection port 207a of the mold 201 and the injection port 207b of the mold 203 are combined to form one injection port 207. Next, for example, a liquid glass fiber material or a transparent resin as a translucent material is injected into the injection port 207 between the molds 201 and 203 that have been matched to each other. Then, the core 209 is inserted into the base of the injection port 207, that is, the boundary between the injection port 207 and the portion where the inner shaft portion 97 is formed, and the both are separated. When the translucent material is solidified, the inner shaft portion 97 is formed in the outer shaft portion 95 in the molds 201 and 203. Thus, after the translucent material is solidified, the molds 201 and 203 are separated, and the outer shaft portion 95 is removed from either of the molds 201 and 203 to obtain the light guide shaft 93. Note that a step is formed in a part of the inner periphery of the outer shaft portion 95 and functions as a retaining stopper for the inner shaft portion 97.
[0029]
In the case of this manufacturing method, since the liquid translucent material is brought into close contact with the inner wall of the outer shaft portion 95 during molding to form the inner shaft portion 97, the inner shaft portion 97 and the outer shaft portion 95 are joined. There is no extra space that absorbs light on the surface, so the inner shaft portion 97 has very good light transmission.
[0030]
FIG. 3 is a schematic cross-sectional view showing a modification in which the configuration of the light guide shaft 93 is partially modified. The light guide shaft 93A differs from the light guide shaft 93 in that no step is formed inside the outer shaft portion 95a and a small hole 95b is formed in a part of the side surface of the outer shaft portion 95a. That is, the liquid translucent material is filled into the inside through the small holes 95b during the same insert molding as described above. In the case of this modification, the translucent material filled in the small hole 95b and solidified has a function of preventing the inner shaft portion 97a from coming off. After the insert molding, the exit of the small hole 95b may be shielded from light by applying, for example, a silver colored paint.
[0031]
In the case of this modification, since no step is formed on the inner peripheral surface of the outer shaft portion 95a, there is no portion that hinders the fluidity of the translucent material, and therefore, the fluidity of the translucent material is good, thereby the inner shaft portion. The adhesiveness of the joint surface between 97 and the outer shaft portion 95a is high, and the light transmittance is further improved. Further, when the exit of the small hole 95b is shielded by applying a colored paint or the like, a part of the light propagating through the inner shaft portion 97 does not leak to the outside, and the light loss can be suppressed. .
[0032]
On the other hand, returning to FIG. 1, for example, a flange 105 is attached to the front end side of the light guide shaft 93, and a screw 109 is screwed into the wind body 107 of the lamp windmill 55 through the flange 105, thereby guiding the light guide shaft. 93 and the wind body 107 are joined. The wind vehicle body 107 is made of light-transmitting plastic, for example, and a light emitting unit 113 is formed on the center side in the rotation direction via a circumferential step 111. The light emitting unit 113 is formed with a plurality of small lenses 114 that refract light. Further, a cylindrical projecting portion 115 is provided on the back side in the vicinity of the step 111, and a screw hole (not shown) is formed at the tip of the projecting portion 115, and the light guide shaft 93 is integrated with this screw hole. The light guide shaft 93 and the wind body 107 are joined by screwing the screw 109 from the flange 105 side.
[0033]
FIG. 4 is a front view showing the front of the movable electric decoration device of the gaming machine according to the first embodiment of the present invention. Four spherical support plates 119a, 119b, 119c, and 119d are provided on the outer periphery of the cylindrical projecting portion 115 so as to project outward in the circumferential direction at intervals of 90 degrees configured as the wind body 107. . In the state shown in the figure, when the game ball falls and collides with the ball receiving plate 119b, the wind vehicle body 107 rotates clockwise with the light guide shaft 93 by its weight, and when the game ball collides with the ball receiving plate 119d, the wind vehicle body 107 receives the weight. It rotates counterclockwise together with the light guide shaft 93.
[0034]
Note that the fixing plate 79 of the fixing base 73 is not a perfect circle, but has a substantially elliptical shape with both sides protruding outward, and a screw nail (not shown) is inserted into the protruding portion so that the cell plate It is attached to the game board 7 to which 41 is attached.
[0035]
On the other hand, referring back to FIG. 1, a light source housing portion 123 having a cylindrical projecting wall 121 projecting toward the wind turbine 107 at the center of the disc-shaped member is disposed at the tip of the projecting portion 81 of the fixed base 73. On the back side of the light source housing 123, there is disposed a wiring board 127 on which an LED lamp 125 that enters the protruding wall 121 and is turned on by driving an electric unit (not shown) is mounted. Both the light source housing portion 123 and the wiring board 127 are formed with holes for inserting screws 129. The screws 129 are inserted into the holes and screwed into the screw holes 91 of the projecting portion 81, thereby being integrated with the fixed base 73. Attached.
[0036]
  Next, the operation of this embodiment will be described. For example, when the LED lamp 125 shown in FIG. 1 is lit through the driving of the electric unit due to a game ball entering the start winning opening 47 or the winning opening 49 shown in FIG. 5, the light of the LED lamp 125 is transmitted to the inner shaft portion. 97 enters the inner shaft portion 97 from the rear end thereof, propagates in the direction along the axial direction, and is irradiated to the hemispherical portion at the tip of the inner shaft 97, and further diffused at the hemispherical portion and radiates outward. Is done. The tip of the inner shaft portion 97HalfMost of the light diffused and radiated from the spherical portion is applied to the light emitting unit 113 of the wind body 107, but is also reflected from the reflecting surface 99 and applied to the light emitting unit 113. As a result, the light emitting unit 113 shines brightly and emits light. For example, when the light emitting unit 113 is colored (translucent color) having translucency, the color emits a bright color, and when the light emitting unit 113 is transparent, the light emission color of the LED lamp 125 is brighter. Emits color. Therefore, it is possible to play games by blinking in association with game control of pachinko machines.TheCan be increased.
[0037]
  On the other hand, when the wind vehicle 107 rotates while the light emitting unit 113 emits light and the game ball collides with one of the four ball receiving plates 119a, 119b, 119c, and 119d of the wind vehicle 107, the light emission is performed. The small lens 114 of the unit 113 also rotates to sequentially change the direction of light divergence,In the direction of light divergenceVariegatedilluminationCan be provided.
[0038]
  In this embodiment, the inner shaft portion 97 having translucency is formed in the outer shaft portion 95 having light shielding properties, and the tip of the inner shaft portion 97 on the LED lamp 125 side is formed in a convex surface. The tip of the vehicle body 107 on the light emitting part 113 sideHalfDue to the spherical shape, the light from the LED lamp 125 can be diffused widely and irradiated to the light emitting unit 113 while condensing the light from the entire surface. Therefore, the area of the light emitting unit 113 can be increased with less power consumption by the LED lamp 125. And can emit light brightly.
[0039]
Further, in this embodiment, the LED lamp 125 can be installed by screwing the wiring board 127 to the fixed base 73 from the back side of the game board 7. When removing, the operator's hand can easily reach and can be easily removed. That is, with the wiring board 127 removed from the fixed base 73, the light source can be exchanged by a simple operation of removing the old LED lamp 125 from the wiring board 127 and attaching a new lamp to the wiring board 127.
[0040]
  Furthermore, in this embodiment, since the inner shaft portion 97 utilizes the property of propagating light in the direction along the axial direction, the light amount at the front end of the inner shaft portion 97 is made substantially the same as the light amount at the rear end. In addition, since the LED lamp 125 is brought close to the rear end of the inner shaft portion 97, the amount of light emitted from the LED lamp 125 can be made substantially equal. That is, the light guide shaft 93 has the same configuration as an optical fiber having the inner shaft portion 97 as a core and the outer shaft portion 95 as a grad, so that the amount of light generated by the LED lamp 125 is not attenuated and is not attenuated. It is possible to irradiate the light emitting unit 113 by exiting from the tip of the shaft portion 97..
[0041]
  FIG. 6 is a perspective view showing a configuration of a main part of a movable electric decoration device for a gaming machine according to a second embodiment of the present invention. Here, only the configuration of the light guide shaft 161 and the light source accommodating portion 171 will be described, and the description of the fixed base and the like having the same configuration as the above embodiment will be omitted. The light guide shaft 161 is composed of a pipe-shaped outer shaft portion 163 having a light shielding property and a rod-shaped inner shaft portion 165 having a light-transmitting property integrated into the outer shaft portion 163. Inside the portion 163, that is, inside the inner shaft portion 165, a partition wall 167 having a cross shape in cross-section, which divides the inner shaft portion 165 into four portions at intervals of 90 degrees in the circumferential direction, is disposed. In particular, the front end of the partition wall 167 on the ornament side is the inner shaft portion 165.HalfThe light does not enter the spherically formed portion, and therefore the light emitted from each of the LED lamps to be described later is reflected on the inner shaft portion 165.HalfIt is possible to mix in the part formed in the spherical shape.
[0042]
In addition, a diffusion space portion can be formed by forming a reflection surface 169 whose diameter gradually increases toward the ornament at the tip of the outer shaft portion 163 on the side where the ornament is installed (the tip on the left side in the drawing). Further, the tip of the inner shaft portion 165 on the side where the ornament is installed is formed in an antispherical shape so that light emission can be diffused.
[0043]
In the cylindrical projecting wall 173 projecting toward the ornament side of the light source housing 171, a sectional wall 175 having a cross shape in cross section is arranged to divide the projecting wall 173 into four at 90 ° intervals in the circumferential direction. . In the wiring board 177, four LED lamps 179a, 179b, 179c, which individually enter the respective compartments defined by the partition wall 175 in the projecting wall 173 of the light source housing 171 and are lit by driving an electric unit (not shown). 179d is arranged. The LED lamps 179a, 179b, 179c, and 179d can have different emission colors. The light source housing portion 171 and the wiring board 177 are integrally assembled to a fixed base (not shown) with screws (not shown).
[0044]
FIG. 7 is an explanatory diagram for explaining the previous step among the steps in the method of manufacturing the light guide shaft. First, when the outer shaft portion 163 is configured by, for example, lathe processing or molding, for example, a small hole (not shown) is formed in a part of the side surface of the outer shaft portion 163. Then, as shown in the drawing, the partition wall 167 is inserted into the outer shaft portion 163 while preventing the small hole opened on the side surface of the outer shaft portion 163 from being blocked. Next, the outer shaft portion 163 is disposed in the molding space of one molding die, and the other molding die is inserted into the molding space while inserting the outer shaft portion 163 of the portion protruding from the one molding die, Match to one mold. Next, for example, a glass fiber or a transparent resin as a translucent material is injected into the injection port that leads to the small hole of the outer shaft portion 163. When the translucent material is solidified, the inner shaft portion 165 is formed in the outer shaft portion 163 in the molding die to be matched. Thus, after the translucent material is solidified, the outer shaft portion 163 is removed from both molds to obtain the light guide shaft 161.
[0045]
Also in the case of this manufacturing method, since the liquid translucent material is brought into close contact with the inner wall of the outer shaft portion 163 at the time of molding to form the inner shaft portion 165, the inner shaft portion 165 and the outer shaft portion 163 are formed. There is no extra space for absorbing light on the joint surface, and therefore the inner shaft portion 165 has very good light transmission. In addition, since no step is formed on the inner peripheral surface of the outer shaft portion 163, there is no portion that hinders the fluidity of the translucent material, and therefore the fluidity of the translucent material is good, thereby the inner shaft portion 165 and the outer shaft portion. The adhesiveness of the joint surface with 163 is high, and the light transmittance is further improved. When the exit of the small hole is shielded by applying a colored paint or the like, part of the light propagating through the inner shaft portion 165 does not leak to the outside, and light loss can be suppressed.
[0046]
Next, the operation of this embodiment will be described. For example, when each of the LED lamps 179a, 179b, 179c, and 179d shown in FIG. 6 is turned on by driving the electric unit due to a game ball entering the start winning opening 47 or the winning opening 49 shown in FIG. The light from the LED lamps 179a, 179b, 179c, and 179d propagates in the direction along the axial direction in the region defined by the partition wall 167 in the inner shaft portion 165 from the rear end in the inner shaft portion 165, respectively. The inner shaft portion 165 mixes at the tip of the hemispherical portion and is diffused and radiated to the outside. Each light diffused and emitted from the hemispherical portion at the tip of the inner shaft portion 165 causes a light emitting portion of an ornament (not shown) to emit light in each color, or emit light in a synthesized light emission color. That is, the light emitted from each of the LED lamps 179a, 179b, 179c, and 179d can be mixed at the hemispherical portion at the tip of the inner shaft portion 165, and thus emits light according to the viewing angle at the light emitting portion of the ornament. It is possible to see a phenomenon that the colors emit light with the emission colors of the respective LED lamps 179a, 179b, 179c, and 179d, or the synthesized emission colors. On the other hand, when the light-emitting part of the ornament rotates, the light (color) that is more varied from the light-emitting part to the player, that is, the light-emitting color of the light-emitting part further changes according to the viewing angle of the player. Rich light (color) can be provided.
[0047]
In this embodiment, the inner shaft portion 165 is divided into four at 90 ° intervals in the circumferential direction by a partition wall 167 having a cross-sectional view in cross section, and the protruding wall 173 of the light source housing portion 171 is cross-shaped in cross section. The partition wall 175 is divided into four sections at intervals of 90 degrees in the circumferential direction, and four LED lamps 179a, 179b, 179c, and 179d having different emission colors are accommodated in a room in which the light source is partitioned by the partition wall 175. In particular, since the tip of the partition wall 167 is not allowed to enter the hemispherical portion of the inner shaft portion 165, in addition to having the same effect as that of the above embodiment, the hemispherical portion Since the light from each of the LED lamps 179a, 179b, 179c, and 179d that transmits the light can be mixed in the hemispherical portion, this allows the light emitting part of the ornament to You can see the phenomenon that the emission color changes according to the angle of viewing by the engineer, can provide more varied light emission (color) of ornaments, flash in association with game control of pachinko machines, etc. By doing so, the player can be more vividly appealed, and the gameability is further enhanced.
[0048]
Next, a third embodiment of the present invention will be described with reference to FIGS. FIG. 8 is a partial cross-sectional view showing the configuration of the third embodiment of the present invention. The movable electric decoration device 301 of the present embodiment is an application of a rotating rotor 59 of an accessory or a lamp windmill (not shown), and constitutes a part of a gaming machine such as a pachinko machine via a fixed base 303, that is, a design. It is attached to the game board 7 which mounts the cell board 41 on which the drawing was given. The fixed base 303 is provided with a fixed plate 305 that comes into contact with the cell plate 41 on the game board 7 near the outer peripheral edge, and in the vicinity of the center axis of the fixed plate 305 is formed in a cylindrical shape on the back side of the game board 7. A projection hole 306 is formed by utilizing the inner peripheral surface of the projection, and a projection 309 for rotatably accommodating a light guide shaft 307 described later is provided in the bearing hole 306.
[0049]
The light guide shaft 307 of this embodiment has basically the same configuration as that of the modification of the light guide shaft described in the first embodiment, but an annular or spiral recess is formed on the outer periphery on the tip side. It is formed and integrated with a rotary rotor 59 to be described later via this recess. A gear 311 is provided on the outer periphery of the rear end side of the light guide shaft 307 (a position slightly on the back side of the game board 7 from the end of the protruding portion 309). This gear 311 is meshed with a gear 327 installed on a rotating shaft of a motor 325 as a movable portion described later. Needless to say, the light guide shaft 307 may be the light guide shaft of the second embodiment.
[0050]
  On the other hand, a screw attached in the vicinity of the outer periphery of the fixed plate 305 is configured as a predetermined number (for example, three or four, four in this example) of columnar members protruding at equal intervals toward the back side of the game board 7. A part 313 is provided. At the tip of each screw mounting portion 313, the top of each screw mounting portion 313Close toA movable part attaching part 315 configured as a disk-shaped member to be joined is arranged. The movable portion attaching portion 315 is integrally joined to the screw attaching portion 313 with a screw 317.
[0051]
  An insertion hole 319 is formed in the center of the movable portion attachment portion 315 so as to pass through the rear end of the light guide shaft 307 (the rear end of the light guide 311 and the front end of the rear surface). Further, a shaft hole 321 is formed in a part of the outer peripheral side from the insertion hole 319 of the movable portion attaching portion 315, and the movable portion near the shaft hole 321 is movable.PartMounting part 315A motor 325 for inserting the rotary shaft 323 into the shaft hole 321 is disposed on the back side of the motor by, for example, screwing (not shown) or bonding. A gear 327 is attached to the rotating shaft 323 of the motor 325 and meshes with the gear 311 of the light guide shaft 307 as described above. In addition, a screw attachment portion 329 that protrudes toward the back side of the game board 7 in a cylindrical shape is provided at another part of the movable portion attachment portion 315 (for example, at a position opposite to the position where the motor 325 is disposed on the outer peripheral side from the insertion hole 319). In the screw mounting portion 329, the LED lamp 331 is disposed on the back side of the light source housing portion 333, and the LED lamp 331 is disposed on the back side of the light source housing portion 333. A wiring board 335 on which the LED lamp 331 is mounted is placed in a position to enter the inside, and is screwed to the screw mounting portion 329 with a screw 337. In this arrangement, the front end surface of the LED lamp 331 is directed to the rear end surface of the light guide shaft 307. When the light guide shaft 307 has the same configuration as that of the light guide shaft described in the second embodiment, the light source accommodating portion 333 is divided into four in the axial direction, and one light source is accommodated in each of the divided chambers. One LED lamp will be accommodated at a time.
[0052]
On the other hand, the lamp windmill 340 that is integrally assembled on the outer periphery of the light guide shaft 307 is made of light-transmitting plastic, for example, and is a cylinder that protrudes from the back side to the front side at the center in the rotational direction. A light emitting portion 343 is formed on the tip side of the protruding portion 341 having a shape. Although not shown, the light emitting unit 343 has a plurality of small lenses that refract light. Further, a projecting portion 345 that projects in a cylindrical shape from the front side to the back side is provided outside the outer periphery of the projecting portion 341, and a wind body 347 is provided on the outer periphery of the projecting portion 345.
[0053]
FIG. 9 is a front view showing the front of the movable electric decoration device of the gaming machine according to the third embodiment of the present invention. Eight ball receiving plates 349 a, 349 b, 349 c, 349 d, 349 e, 349 f, which protrude toward the outer side in the circumferential direction at 45 ° intervals formed on the outer periphery of the cylindrical projecting portion 345, 349g and 349h are provided. Since the wind body 347 is rotated by the drive of the motor 325, even if a game ball falls and collides with the ball receiving plate 349a or the like, it is not affected by the collision. Therefore, when the rotational speed of the wind body 347 is slow, the game ball is held for a while by the ball receiving plate 349a or the like, and then the game ball is dropped downward when the rotational angle of the wind body 347 is increased by a predetermined amount or more. Become.
[0054]
  Next, the operation of this embodiment will be described. For example, when the LED lamp 331 shown in FIG. 8 is turned on through the driving of the electric unit due to the game ball entering the start winning opening 47 or the winning opening 49 shown in FIG. 5, the light of the LED lamp 331 is transmitted through the light guide shaft. The light enters the portion 307 and propagates in a direction along the axial direction, and is irradiated to the hemispherical portion at the tip of the light guide shaft 307, and further diffused and emitted outward in the hemispherical portion. The tip of the light guide shaft 307HalfThe light diffused and emitted from the spherical portion is applied to the light emitting unit 343 of the lamp windmill 340. As a result, the light emitting unit 343 emits light brightly. For example, when the light emitting unit 343 is colored with translucency (semi-transparent color), the color emits a bright color, and when the light emitting unit 343 is transparent, the LED lamp 331 emits a brighter color. To emit. Therefore, it is possible to improve the gameability by blinking in association with the game control of the pachinko machine.
[0055]
Further, when the LED lamp 331 shown in FIG. 8 is turned on, for example, when a game ball enters the start winning opening 47 or the winning opening 49 shown in FIG. 5, the motor 325 is driven via the driving of the electric unit, The light guide shaft 307 rotates through the rotation of the gears 327 and 311, and the lamp wind turbine 340 also rotates by this rotation. Accordingly, the lamp windmill 340 rotates while the light emitting unit 343 emits light with the light of the LED lamp 331 that passes through the light guide shaft 307. At this time, the small lens configured in the light emitting unit 343 also rotates. As a result, the direction of light divergence is sequentially changed, and a variety of light can be provided to the player.
[0056]
In the present embodiment, a gear 311 is provided for the light guide shaft 307 that can rotate integrally with the lamp windmill 340, and this gear 311 is engaged with a gear 327 that is integrated with the rotating shaft 323 of the motor 325. Since the motor 325 is driven to rotate the lamp windmill 340 through the rotation of the light guide shaft 307, the lamp windmill 340 emits light from the LED lamp 331 according to the game situation. Can be forced to rotate in one direction. In addition, the light emission of the light emitting unit 343 can be changed to light emission rich in change according to the rotation of the small lens by forced rotation.
[0057]
Further, in this embodiment, for example, when replacing the LED lamp 331 due to a failure, the screw 337 exposed on the back side of the game board 7 is loosened so that it can be easily pulled away from the movable part attaching part 315 together with the wiring board 335. Since it can be done, the operator's hand is easy to reach and can be easily removed.
[0058]
In the present embodiment, the case where the lamp windmill 340 is applied as a movable ornament integrated with the light guide shaft 307 has been described. However, it is also easy to apply this to the rotating rotor 59. In that case, a light emitting part is formed in the central part of the rotating direction of the rotary rotor 59, and this light emitting part emits light with the light of the LED lamp 331. Further, the motor 325 may be driven (forward rotation or reverse rotation) according to the game situation, and thereby the rotating rotor 59 may be rotated clockwise or counterclockwise.
[0059]
Next, a fourth embodiment of the present invention will be described with reference to FIGS. FIG. 10 shows a cross-sectional configuration of the main part of the fourth embodiment of the present invention (that is, a cross-sectional view in which the main part of the part divided by the two-dot chain line S in FIG. It is a partial sectional view shown. The movable illumination device 401 of the present embodiment applies the wings 57 of the accessory, and constitutes a part of a gaming machine such as a pachinko machine via the fixed bases 403A and 403B, that is, a design image is applied. It is attached to the game board 7 to which the cell board 41 is attached. The fixed base 403 is configured by integrally attaching the fixed base 403B to the fixed base 403A by screwing a screw 407 or the like through a mounting portion 405 or the like integrated with the rear peripheral wall 404 of the fixed base 403A.
[0060]
In the center of the upper part of the fixed base 403A, there are provided a winning game entrance 409 for taking in a game ball and a winning game ball guiding passage 411, and the gaming ball supplied to the winning game ball guiding passage 411 is a winning game ball guiding passage 411. After hitting the ball contact portion 413 assembled at the end of the ball, an internal winning ball switch is actuated through a passage (not shown) to supply a predetermined number of balls to an upper plate set (not shown). A display unit accommodating chamber 415 is formed by a partition wall protruding toward the front of the game board 7 at a position below the winning ball guiding passage 411 of the fixed base 403A. For example, a display unit (for example, a segment LED or a dot matrix) is formed. 417) is accommodated. On the wall surface 419 forming the side wall of the display portion accommodation chamber 415, a wiring through window 421 wired to the display portion 417 is provided.
[0061]
Note that mounting bosses 423 and 425 are provided on the back surface of the wall surface 419. The mounting boss 423 is an assembly portion when the ball contact portion 413 is assembled with the screw 427, and the attachment boss 425 is an assembly portion when the fixing base 403B is assembled with the screw 429.
[0062]
Near the center of the fixed base 403A (that is, a position below the bottom wall 431 of the display unit accommodating chamber 415 by the size of the blades 57 described later), a hole through which a light guide shaft 471 described later is inserted at the center. A protruding portion 435 that slightly protrudes forward from the flat plate portion 430 is provided, and the central flat plate portion 430 has a hole through which the light guide shaft 471 is inserted in the center on the back side facing the position where the protruding portion 435 is formed. A protrusion 439 that protrudes further toward the rear of the game board 7 is provided. As shown in FIG. 13, one blade 57 for assembling the light guide shaft 471 is provided on each side of the winning room 441, so that the projections 435, 439 also correspond to the two blades 57, 57. Two are provided. FIG. 10 shows a cross section of the right-hand blade 57 of the blades 57, 57 shown in FIG.
[0063]
A window (not shown) that leads to the winning room 441 constituted by the fixed bases 403A and 403B is provided at a position below the protruding portion 435 of the fixed base 403A, and the game ball that enters when the blades are opened wins the winning room 441. Lead to. The winning room 441 has side surfaces defined by a winning room rear surface peripheral wall 443 that protrudes toward the back side of the game board 7 in the fixed base 403A and a winning room rear surface peripheral wall that protrudes toward the front side of the game board 7 at the fixed base 403B. Although not shown, a winning ball sorting device is housed inside.
[0064]
A window (not shown) is provided below the central flat plate portion 430 of the fixed base 403A (a portion serving as an exit of the winning ball sorting device, that is, a position on the most downstream side of the bottom plate 445 forming a part of the winning ball sorting device). . Below this window is a partition wall 447 that projects forward and divides the special winning opening 449A and the normal winning opening 449B, and a special winning detection is detected below the central special winning opening 449A. A switch 449 is provided. Also, a special winning ball guiding path 451A and a normal winning ball guiding path 451B are provided below the special winning port 449A and the normal winning port 449B partitioned by the partition wall 447 (that is, below the special winning detection switch 449). Yes. Further, in the winning room 441, a gap larger than the diameter of the ball is provided between the inclined partition plate A for rolling the winning ball that has been won when the blades 57 are opened and the central flat plate portion 461 of the fixed base 403B. The winning ball on the inclined partition plate A falls on the bottom plate 445.
[0065]
Note that the winning ball that has entered the winning room 441 rolls backward on the inclined partition plate A and falls, for example, onto the bottom plate 445 constituting a part of the winning ball sorting device, and rolls into the special winning opening 449A. One of the winning prize openings 449B is entered.
[0066]
On the other hand, in the central flat plate portion 461 of the fixed base 403B, a protrusion 463 that protrudes toward the front of the game board 7 has a hole through which the light guide shaft is inserted at the center at a position corresponding to the protrusion 439 of the fixed base 403A. The tip of the protrusion 439 is in contact with the tip of the protrusion 439. Further, a protrusion 465 that has a hole through which the light guide shaft is inserted at the center and slightly protrudes backward is provided on the back surface of the central flat plate part 461 at a position corresponding to the protrusion 463.
[0067]
FIG. 11 is an enlarged partial sectional view showing the schematic configuration of the light guide shaft 471 inserted through the hole of the protruding portion 439 of the fixed base 403A, the hole of the protruding portion 463 of the fixed base 403B, and the peripheral configuration thereof. FIG. The configuration of the light guide shaft 471 is basically the same as that of the modification of the light guide shaft described in the first embodiment, but an annular or spiral recess is formed on the outer periphery on the tip side. The blade 57 is integrated with the recess. A light emitting portion 475 is provided in front of a portion of the blade 57 that is integrated with the light guide shaft 471 via a space portion 473, and a plurality of small lenses are formed in the light emitting portion 475. On the other hand, a rotating crank 479 is disposed on the rear end side of the light guide shaft 471, that is, on the front side of the portion protruding rearward from the protruding portion 465 of the fixed base 403B, and a shaft integrated with the rotating crank 479. 481 (a part of which is shown in the figure) 481 is loosely fitted to a solenoid link described later. An annular recess is formed at a position slightly behind the position where the rotation crank 479 of the light guide shaft 471 is disposed, and a ring 483 is provided in this recess. The illustrated state shows a state in which the light guide shaft 471 rotates with the rotation of the rotation crank 479, and the blades 57 rotate to the front side in the drawing by this rotation and are opened horizontally.
[0068]
A predetermined number of screw mounting portions configured as pillar-like members projecting rearward at a position not hindering the rotation of the rotating crank 479 on the back surface of the central flat plate portion 461 around the protruding portion 463 of the fixed base 403B. 485 is provided. The screw mounting portion 485 has a light source housing portion 487 for housing the LED lamp 486 so as to surround the side surface thereof, and a position where the LED lamp 486 enters the light source housing portion 487 by being disposed on the back side of the light source housing portion 487. A wiring board 489 on which the LED lamp 486 is mounted is overlapped and is screwed with a screw 491. In this arrangement, the front end surface of the LED lamp 486 is directed to the rear end surface of the inner shaft portion 472 of the light guide shaft 471. A part of the inner shaft portion 472 is exposed to the outside, and the exposed portion enters the light source accommodating portion 487. When the light guide shaft 471 has the same configuration as that of the light guide shaft described in the second embodiment, the light source accommodating portion 487 is divided into four in the axial direction, and one light source housing portion 487 is provided for each of the divided chambers. One LED lamp will be accommodated at a time.
[0069]
On the other hand, referring back to FIG. 10, a protruding flat plate portion 495 protruding forward is provided at a position below the protruding portion 463 of the central flat plate portion 461 of the fixed base 403B. A bottom plate 445 forming a part of the apparatus is supported from the back side. A predetermined number of screw attachment portions 497 configured as columnar members having a total length larger than that of the screw attachment portion 485 are provided on the back surface side of the central flat plate portion 461 and outside the screw attachment portion 485. A movable portion mounting portion 499 configured as a flat plate member is in contact with the tip of each screw mounting portion 497 and is fixed by a screw 501. The movable part attaching part 499 is provided with fixed plates 503 on both sides, and the solenoid 507 is fixed to the fixed plate 503 by using screws 505.
[0070]
A moving body 509 is provided in the solenoid 507, and a screw 511 is screwed into the distal end side of the moving body 509, and one end of a spring 513 described later is hooked on the screw 511, and provided on the light guide shaft 471. A link 517 having a long hole 515 through which the shaft portion 481 of the rotating crank 479 is inserted in a loosely fitted state is provided. Note that a screw mounting portion 519 configured as a columnar member having a height larger than the entire length of the screw mounting portion 497 is provided at a position below the screw mounting portion 497 located on the lower side on the back surface of the central flat plate portion 461. One end of a spring 513 is hung on a screw 521 screwed into the screw 521. Therefore, the spring 513 is hung between the moving body 509 and the screw 521 screwed into the screw mounting portion 519, and gives a force for pulling back the movement of the moving body 509.
[0071]
  FIG. 12 is an explanatory diagram illustrating the configuration of the back side of the accessory applied to the present embodiment. The movable portion attaching portion 499 is screwed at three positions with screws 501, and one solenoid 507 is fixed to each of the left and right fixing plates 503 with screws 505. The link 517 integrated with the moving bodies 509 and 509 of the solenoids 507 and 507 is composed of a horizontal portion 517a and a vertical portion 517b, and a long hole 515 that is long in the lateral direction is provided at the tip of the vertical portions 517b and 517b. The rotary cranks 47 corresponding to these elongated holes 515 and 515 are positioned.9,479Shaft part 481,481 isIt is inserted in a loose fit state.
[0072]
  Next, the operation of this embodiment will be described. For example, when the LED ball 486 shown in FIGS. 10 and 11 is turned on by driving the electric unit due to a game ball entering the start winning opening 47 or the winning opening 49 shown in FIG. 5, the light of the LED lamp 486 is emitted. The light enters the light guide shaft 471 and propagates in the direction along the axial direction, and is irradiated to the hemispherical portion at the tip of the light guide shaft 471, and further diffused and emitted outward from the hemispherical portion. The tip of the light guide shaft 471HalfLight diffused and radiated from the spherical portion is applied to the light emitting portion 475 of the blade 57, whereby the light emitting portion 475 emits light brightly.
[0073]
  Further, for example, when the LED lamp 486 shown in FIGS. 10 and 11 is turned on when a game ball enters the start winning opening 47 or the winning opening 49 shown in FIG. 5, the solenoids 507, 507 is driven, and the respective moving bodies 509 and 509 move upward against the spring force of the springs 513 and 513. When the moving body 509 moves upward, the shaft portions 48 pushed by the respective vertical portions 517b and 517b.1,481Via each turning crank 479,479 isThey rotate in opposite directions. That isOne ofRotating crank 479 isThe light guide shaft 471 corresponding to itself is rotated in the counterclockwise direction as shown in the figure,The otherRotating crank 479 isThe light guide shaft 471 corresponding to itself rotates about the fulcrum in the illustrated clockwise direction.
[0074]
FIG. 13 is an explanatory view illustrating the front configuration of the accessory applied to the present embodiment. From FIG. 13, it can be seen that the light emitting portions 475 and 475 are provided at the portions serving as fulcrums for the rotation of the blades 57 and 57. For example, when the blades 57 and 57 are rotated from the vertical state to the horizontal state by the above-described operation, the game ball can easily enter the winning room 441, and the LED lamp 486 is turned on via the driving of the electric unit to emit light. The parts 475 and 475 emit light. For example, when the light emitting part 475 is colored with translucency (semi-transparent color), the color emits a bright color, and when the light emitting part 475 is transparent, the light emission color of the LED lamp 486 is brighter. To emit. Therefore, it is possible to improve the gameability by blinking in association with the game control of the pachinko machine. B and C are decorative boards.
[0075]
Further, when the blades 57 and 57 are rotated, the small lens included in the light emitting unit 475 is also rotated, so that the divergent direction of the light is sequentially changed by this small lens, and a variety of light can be provided to the player. it can.
[0076]
In this embodiment, a rotation crank 479 is provided for the light guide shaft 471 that can rotate integrally with the blades 57, and the shaft portion 481 is loosely fitted to the shaft portion 481 of the rotation crank 479. The movable body 509 of the solenoid 507 that can be moved up and down is connected, the rotating cranks 479 are rotated by the movement of the solenoid 507, and the light guide shafts 471 and 471 are rotated in opposite directions to each other. , 57 are configured to rotate in opposite directions to each other, so that depending on the game situation, the blades 57, 57 are forced to alternately turn in opposite directions while causing the light emitting portion 475 to emit light by the LED lamp 486. Can be rotated. Further, when the light emitting unit 475 is forcibly rotated, the small lens of the light emitting unit 475 is also rotated, so that it is possible to change to light emission rich in change according to the rotation of the small lens.
[0077]
In this embodiment, since the two solenoids 507 and 507 are used, the moving force of the link 517 is strong, the blades 57 and 57 can be quickly rotated, and the blades 57 and 57 are in a vertical state. When returning, even if a game ball collides, it can overcome the game ball collision and rotate quickly.
[0078]
Furthermore, in this embodiment, for example, when replacing the LED lamp 486 due to a failure, the central plate of the fixed base 403B is fixed together with the wiring board 489 by loosening the screw 419 (see FIG. 12) exposed on the back side of the game board 7. Since it can be easily pulled away from the portion 461, the operator's hand is easy to reach and can be easily removed.
[0079]
【The invention's effect】
  BookinventionPertaining toAccording to the movable electric decoration device of the gaming machine, since the light guide shaft having translucency is arranged between the light source and the light emitting portion of the movable ornament, the light emission of the light source is transmitted through the inner shaft portion of the light guide shaft. Since the light emitting part of the movable ornament can be irradiated, the distance between the light emitting part of the movable ornament and the light source can be increased, and the light source can be arranged on the back side of the game board.MushroomCan make the replacement work easier,An LED can be used as the light source, and power consumption can be reduced.A hemisphere of the inner shaft portion is formed by dividing the diffusion space portion with a reflecting surface whose diameter gradually increases toward the light emitting portion of the movable ornament, and forming the tip of the inner shaft portion protruding into the diffusion space portion into a hemispherical shape. Light emitted from the shape portion can be diffused and irradiated to the light emitting portion, the area of the light emitting portion can be increased, and the brightness of the light emitting portion can be increased. If a partition wall is arranged in the outer shaft portion of the light guide shaft, the inner shaft portion is divided into a plurality of circumferential directions in this partition wall, and the number of light sources is set to be equal to the number of sections of the inner shaft portion, the movable ornament It is possible to provide more varied light emission such as changing the emission color according to the viewing angle in the light emitting unit. If a movable part is provided on the back of the light source side of the fixed base to move the movable ornaments in opposite directions, the movable ornament can be forcibly set by driving the movable part while freely setting the installation space for the movable ornaments. It is possible to turn the movable ornaments in opposite directions according to the game situation while causing the light emitting part of the movable ornaments to emit light by light emission of the light source. If a movable part that rotates the movable ornament in one direction is provided on the back side of the light source side of the fixed base, the movable ornament can be forced in one direction by driving the movable part while freely setting the installation space for the movable ornament. It is possible to rotate the movable ornament, and it is possible to rotate the movable ornament in one direction in accordance with the game situation while emitting light from the light source of the movable ornament. If a plurality of small lenses that refract light are formed in the light emitting portion, the small lenses can also rotate together with the movable ornament to provide illumination rich in changes in the light divergence direction.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a configuration of a movable electric decoration device for a gaming machine according to a first embodiment of the present invention.
FIG. 2 is an explanatory view for explaining a part of a method for manufacturing a light guide shaft of a movable electric decoration device for a gaming machine according to a first embodiment of the present invention.
FIG. 3 is a cross-sectional view showing a modification of the light guide shaft of the movable electric decoration device for the gaming machine according to the first embodiment of the present invention.
FIG. 4 is a front view showing a front structure of the movable electric decoration device for the gaming machine according to the first embodiment of the present invention.
FIG. 5 is a front view showing a configuration of a pachinko machine using the movable electric decoration device of the gaming machine according to the present invention.
FIG. 6 is a perspective view showing a configuration of a movable electric decoration device for a gaming machine according to a second embodiment of the present invention.
7 is an explanatory diagram for explaining a previous step among the respective steps in the method of manufacturing the light guide shaft shown in FIG. 6;
FIG. 8 is a cross-sectional view showing a configuration of a movable electric decoration device for a gaming machine according to a third embodiment of the present invention.
FIG. 9 is a front view showing a front configuration of a movable electric decoration device for a gaming machine according to a third embodiment of the present invention.
FIG. 10 is a cross-sectional view showing a configuration of a movable electric decoration device for a gaming machine according to a fourth embodiment of the present invention.
FIG. 11 is an enlarged view showing an enlarged configuration of a light guide shaft and its peripheral members in a movable electrical decoration device for a gaming machine according to a fourth embodiment of the present invention.
FIG. 12 is an explanatory view illustrating the configuration of the back surface of the movable electric decoration device for the gaming machine according to the fourth embodiment of the present invention.
FIG. 13 is a front view showing a front structure of a movable electric decoration device for a gaming machine according to a fourth embodiment of the present invention.
FIG. 14 is a cross-sectional view showing a configuration of a movable electric decoration device of a conventional gaming machine.
FIG. 15 is a front view showing the front of a movable electric decoration device of a conventional gaming machine.
[Explanation of symbols]
7 Game board
41 cell plate
55 Ramp windmill
57 feathers
59 Rotating rotor
71 Movable illumination device
73 Fixed base
79 Fixed plate
81 Protrusion
83 Bearing hole
85 steps
87 Light source chamber
89 Light source accommodation hole
91 Screw hole
93, 93A, light guide shaft
94 ring
95, 95a, outer shaft
95b small hole
97, 97a Inner shaft part
99 Reflective surface
101 Diffusion space
105 flange
107 Wind Body
109 screw
111 steps
113 Light emitting part
114 small lens
115 Protrusion
121 protruding wall
123 Light source housing
125 LED lamp
127 Wiring board

Claims (6)

  A bearing hole portion is formed in a fixed base for mounting on a game board, and a pipe-shaped light-shielding outer shaft portion is formed in the bearing hole portion, and a rod-shaped light-transmitting inner shaft integrally assembled therein. A light guide shaft composed of a rotating part is rotatably mounted, a movable ornament is fixed to the tip protruding from the fixed base of the light guide shaft, and a light emitting part is formed at a portion corresponding to the inner shaft portion of the movable ornament And a light source for emitting irradiation light passing through the inner shaft portion to the light emitting portion is separated from the light guide shaft and attached to the fixed base.   A diffusion space portion whose diameter gradually increases from the inner shaft portion toward the light emitting portion is defined between the inner shaft portion and the light emitting portion of the light guide shaft, and the inclined surface that forms this diffusion space portion is a reflecting surface. The movable electric decoration device for a gaming machine according to claim 1, wherein the tip end portion of the inner shaft portion protruding into the diffusion space portion is formed in a hemispherical shape. A partition wall is arranged in the outer shaft portion of the light guide shaft, the inner shaft portion is divided into a plurality of circumferential directions in the partition wall, and the number of light sources is set to be equal to the number of the inner shaft portions. A movable electric decoration device for a gaming machine according to claim 1. Solid on the back surface of the fixed base of the light source side, a movable illumination device of claim 1 Symbol placement game machine characterized by comprising a movable portion for rotating in opposite directions alternately variable dynamic ornaments. Solid on the back surface of the fixed base of the light source side, a movable illumination device of claim 1 Symbol placement game machine characterized by comprising a movable portion for rotating motion variable dynamic ornaments. The movable illumination device for a gaming machine according to claim 1, wherein a plurality of small lenses that refract light are formed in the light emitting portion .

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