JP2006181026A - Game rotary display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To optimize the rotation of a spherical rotary display body. <P>SOLUTION: A rotation motor shaft 27 is rotationally driven to rotate a rotation driving pulley 26a, a rotation belt 26c, a rotation driven pulley 26b, a sun gear 14, an intermediate gear 17, and a planetary gear 10; the rotary display structure 3 rotates on its own axis in a direction indicated by an arrow W1 in Figure 3 (not shown); a revolution motor shaft 31 is rotationally driven to rotate a revolution driving pulley 32a, a revolution belt 32c, a revolution driven pulley 32b and a support structure 11; and the rotary display structure 3 revolves in a direction indicated by an arrow W2 in Figure 3. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a game rotation display device in which rotation of a sphere-shaped rotation display body is appropriate.

A game rotation display device having the following structure is known. It transmits the power of a revolving motor consisting of a step motor and a revolving motor consisting of a step motor to a spherical rotating display structure by means of a gear train consisting of a plurality of spur gears to rotate and revolve the rotating display structure. Structure. However, since the power of the rotation motor and the power of the revolution motor are transmitted to the rotation display structure by a gear train, the rotation display structure vibrates at the time of rotation start, rotation stop, and forward / reverse switching of the rotation motor and the rotation motor. There is a drawback.
JP-A-8-191936

  The problem to be solved by the invention is that the rotation display structure is improperly rotated because the mechanism that transmits the power of the rotation drive mechanism to the rotation display structure is a gear train.

  The game rotation display device of the present invention is a game rotation display device in which a spherical rotation display structure is rotated by a rotation drive mechanism, and a mechanism for transmitting the power of the rotation drive mechanism to the rotation display structure is formed by a belt mechanism. This is the main feature.

  In the game rotation display device of the present invention, the mechanism for transmitting the power of the rotation drive mechanism to the rotation display structure is constituted by a belt mechanism. Therefore, when the rotation display structure starts rotating and when the rotation display structure stops rotating. In the forward / reverse switching of the rotation drive mechanism, there is an advantage that the rotation display structure can be appropriately rotated without vibration.

  1 to 5 show the best mode for carrying out the invention. FIG. 1 shows a cross section of a structure in which the game rotation display device 1 is attached to a game board 40 of a pachinko machine, cut in the vertical direction. FIG. 2 shows an exploded view of the device housing 2, the rotation display structure 3 and the indicator lamp structure 21 of the game rotation display device 1. FIG. 3 shows an exploded appearance of the game rotation display device 1. FIG. 4 is an exploded view of the rotation belt mechanism and the revolution belt mechanism. FIG. 5 shows the back side of the apparatus housing in which the rotation belt mechanism 26 and the revolution belt mechanism 32 are assembled.

  The structure of the game rotation display device 1 will be described with reference to FIG. In the game rotation display device 1, a spherical rotation display structure 3 is rotatably supported by the rotation drive mechanism 4 and the revolution drive mechanism 5 on the front side of the device housing 2, and is rotated by the revolution drive mechanism 5 and the rotation drive mechanism 4. The structure 3 rotates in the direction indicated by the arrow W1 and revolves in the direction indicated by the arrow W2, and variably displays a plurality of symbols on the surface of the rotating display structure 3. The rotation drive mechanism 4 and the revolution drive mechanism 5 constitute a rotation drive mechanism that rotates the rotation display structure 3.

  Referring to FIG. 2, the rotating display structure 3 has a hollow sphere shape. A display shaft 6 is fitted into the rotary display structure 3 so as to pass through the central portion of the rotary display structure 3 in a direction parallel to the bottom surface 9 of the display body storage portion 8 of the device housing 2 and to be rotatable. A central portion of the planetary gear 10 is rotatably fitted to one end portion of the display shaft 6 that protrudes outward from the rotation display structure 3. The planetary gear 10 is fixed to the outer surface around the display shaft 6 of the rotary display structure 3. One end portion of the display shaft 6 that protrudes outward from the planetary gear 10 and the other end portion of the display shaft 6 that protrudes outward from the rotation display structure 3 rotate to a pair of support portions 12 that face the support structure 11. Fits in as possible. That is, both end portions of the display shaft 6 that protrude outward from the rotary display structure 3 are supported by the pair of support portions 12 of the support structure 11. The dish part 13 that protrudes downward from the pair of support parts 12 in the support structure 11 has a hemispherical shape that is recessed downward from above.

  A sun gear 14 is disposed inside the dish portion 13 on the bottom side of the dish portion 13. The sun shaft 15 that protrudes from the center of the sun gear 14 to the back side of the sun gear 14 penetrates the support shaft 16 formed at the center of the plate portion 13 from the inside of the plate portion 13 to the back side and is rotatably fitted. . An intermediate gear 17 is disposed inside the dish portion 13, and the intermediate shaft 18 that protrudes from the center of the intermediate gear 17 to the back side of the intermediate gear 17 penetrates the peripheral wall of the dish portion 13 from the inside of the dish portion 13 to the back side. And it is rotatably fitted and attached to the mortar-shaped peripheral wall 19 of the dish part 13. The planetary gear 10, the sun gear 14, and the intermediate gear 17 are constituted by bevel gears. The tooth portion formed on the outer peripheral portion of the intermediate gear 17 of the intermediate gear 17 is meshed with the tooth portion formed on the outer peripheral portion of the sun gear 14 and the tooth portion formed on the outer peripheral portion of the planetary gear. That is, when the sun gear 14 rotates, the intermediate gear 17 and the planetary gear rotate, and the rotation display structure 3 rotates around the display shaft 6 in the circumferential direction indicated by the arrow W <b> 1 of the display shaft 6. Further, when the support shaft 16 of the support structure 11 rotates in the circumferential direction indicated by the arrow W <b> 2, the rotation display structure 3 is parallel to the bottom surface 9 of the display body housing portion 8 around the support shaft 16 of the support structure 11. Revolve in any direction. The rotation display structure 3, the planetary gear 10, the sun gear 14, the intermediate gear 17, and the support structure 11 are made of a synthetic resin having a property of transmitting light.

  The symbol display body 20 is integrally provided on the outer surface of the rotation display structure 3. The symbol display body 20 displays a milky white base layer on the surface of the display sheet and a plurality of different types of symbols on the surface of the base layer in colors other than white. The display sheet is made of a colorless synthetic resin having a property of transmitting heat and contracting light. The base layer and the design are printed on one surface of the rotary display. The plurality of symbols are, for example, “3”, “4”, “5” “6”, “7”, “8”. “3”, “5”, and “7” are red. “4”, “6”, and “8” are blue. The symbol display body 20 is formed in a cylindrical shape so that the base layer and the symbols are on the outside, and the cylindrical symbol display body 20 is formed on the outer side of the rotating display structure 3 from the direction of one end of the display shaft 6. After being covered, heat is applied to the symbol display body 20 from the outside, the symbol display body 20 is thermally contracted, and the symbol display body 20 is integrally provided on the outer surface of the rotary display structure 3. When the symbol display body 20 is integrally provided on the outer surface of the rotary display structure 3 as described above, the plurality of symbols are arranged apart from each other in the direction of rotation indicated by the arrow W <b> 1 of the rotary display structure 3.

  The indicator lamp structure 21 has a structure in which an indicator lamp 23 composed of a plurality of LEDs is mounted on the front surface of an annular circuit board 22 so as to be separated in the circumferential direction of the circuit board 22. The indicator lamp 23 is directed toward the rotary display structure 3, and the back surface of the circuit board 22 is fixedly attached to the front surface of the bottom surface 9 of the display body housing portion 8 of the device housing 2. After the indicator lamp structure 21 is attached to the display body housing portion 8, the support shaft 16 of the support structure 11 that supports the rotating display structure 3 is inserted into the bearing hole portion 24 from the front side of the device housing 2. The rotation display structure 3 is rotatably arranged on the front side of the device housing 2. The planetary gear 10, the sun gear 14, the intermediate gear 17, and the support structure 11 are formed of a synthetic resin having a property of transmitting light, and the rotation display structure 3 and the indicator lamp in the rotation driving mechanism 4 The structure arrange | positioned between 23 is comprised.

  With reference to FIG. 1, the structure of the rotation drive mechanism 4, the structure of the revolution drive mechanism 5, and the structure in which the game rotation display device 1 is attached to the game board 40 in the pachinko machine will be described. The rotation drive mechanism 4 includes a rotation motor 25 and a rotation belt mechanism 26. The rotation motor 25 is constituted by a step motor. A rotation motor shaft 27 constituting an output shaft of the rotation motor 25 is directed from the apparatus housing 2 to the back side, and a motor case of the rotation motor 25 is rotated from the back side of the device housing 2 to the rotation motor storage chamber. 28 and is fixedly attached to the apparatus housing 2. The rotation belt mechanism 26 includes a rotation driving pulley 26a, a rotation driven pulley 26b, and a rotation belt 26c. The rotation driving pulley 26a is constituted by a toothed pulley having a tooth portion formed continuously on the outer peripheral surface of the rotation driving pulley 26a in the circumferential direction of the outer peripheral surface. The central portion of the rotation driving pulley 26a is fitted into the rotation motor shaft 27 and fixedly attached. The rotation driven pulley 26b is constituted by a toothed pulley having a tooth portion continuously formed on the outer peripheral surface of the rotation driven pulley 26b in the circumferential direction of the outer peripheral surface. The diameter of the rotation driven pulley 26b is larger than the diameter of the rotation driving pulley 26a. The center portion of the rotation driven pulley 26b is fixedly attached by being fitted to the sun shaft 15 protruding from the device housing 2 to the back side. The rotation belt 26c has a belt-like endless flexibility in which a core material such as cloth is impregnated with a synthetic resin, and a tooth portion is formed on the annular inner circumferential surface of the rotation belt 26c in the circumferential direction of the inner circumferential surface. It is constituted by a toothed belt called a timing belt formed continuously. A tooth portion formed on the inner peripheral surface of the rotation belt 26c is meshed with a tooth portion formed on the outer peripheral surface of the rotation driving pulley 26a and a tooth portion formed on the outer peripheral surface of the rotation driven pulley 26b. Then, when the rotation motor shaft 27 is driven to rotate, the rotation drive pulley 26a, the rotation belt 26c, the rotation driven pulley 26b, the sun gear 14, the intermediate gear 17, and the planetary gear 10 rotate, and the rotation display structure 3 is shown in FIG. Rotates in the direction indicated by the arrow W1. The rotation drive mechanism 4 includes a rotation motor 25, a rotation drive pulley 26a, a rotation driven pulley 26b, a rotation belt 26c, a sun gear 14, an intermediate gear 17, and a planetary gear. The center line L1 indicates the axis of the display shaft 6 and is the rotation center of rotation in the direction indicated by the arrow W1.

  The revolution drive mechanism 5 includes a revolution motor 31 and a revolution belt mechanism 32. The revolution motor 31 is constituted by a step motor, the revolution motor shaft 31 constituting the output shaft of the revolution motor 31 is directed from the apparatus housing 2 to the back side, and the motor case of the revolution motor 31 is arranged from the device housing 2 to the revolution motor storage chamber from the back side. 34 is fixedly attached to the apparatus housing 2. The revolution drive mechanism 5 includes a revolution drive pulley 32a, a revolution driven pulley 32b, and a revolution belt 32c. The revolution driving pulley 32a is constituted by a toothed pulley having a tooth portion formed continuously on the outer circumferential surface of the revolution driving pulley 32a in the circumferential direction of the outer circumferential surface. The center part of the revolution drive pulley 32a is fitted into the revolution motor shaft 33 and fixedly attached. The revolution driven pulley 32b is constituted by a toothed pulley having a tooth portion formed continuously on the outer circumferential surface of the revolution driven pulley 32b in the circumferential direction of the outer circumferential surface. The diameter of the revolution driven pulley 32b is larger than the diameter of the revolution driving pulley 32a. The center portion of the revolution driven pulley 32b is fixedly attached by being fitted to the support shaft 16 protruding from the device housing 2 to the back side. The revolution belt 32c has a belt-like endless flexibility in which a core material such as cloth is impregnated with a synthetic resin, and the tooth portion is formed on the annular inner circumferential surface of the revolution belt 32c in the circumferential direction of the inner circumferential surface. It is constituted by a toothed belt called a timing belt formed continuously. A tooth portion formed on the inner peripheral surface of the revolution belt 32c is meshed with a tooth portion formed on the outer peripheral surface of the revolution driving pulley 32a and a tooth portion formed on the outer peripheral surface of the revolution driven pulley 32b. Then, when the revolution motor shaft 33 is driven to rotate, the revolution driving pulley 32a, the revolution belt 32c, the revolution driven pulley 32b, and the support structure 11 rotate, and the rotation display structure 3 moves in the direction indicated by the arrow W2 in FIG. Revolve. The revolution drive mechanism 4 includes a revolution motor 31, a revolution drive pulley 32 a, a revolution driven pulley 32 b, a revolution belt 32 c, and the support structure 11. The rotation belt mechanism 26 and the revolution belt mechanism 32 constitute a belt mechanism as a mechanism for transmitting the power of the rotation drive mechanism to the rotation display structure 3. The center line L2 indicates the axis of the support shaft 16, and is the rotation center of revolution in the direction indicated by the arrow W2.

  The structure in which the game rotation display device 1 is attached to the game board 40 will be described. An attachment housing 37 is coupled to the front side of the device housing 2. The attachment housing 37 is a cylindrical shape made of a synthetic resin having a property of blocking light having a size capable of being stored so that the rotation display structure 3 and the support structure 11 do not contact the inside. The mounting housing 37 is placed on the device housing 2 from the front side of the rotating display structure 3 so that the rotating display structure 3 and the support structure 11 are housed inside the mounting housing 37, and the mounting housing 37 is mounted on the device housing 2. It is fixedly attached to. A mounting foot 38 projects from the mounting housing 37 outward in the radial direction at the front portion of the mounting housing 37. A rotation display escape hole 41 is formed in the game board 40 as a through hole in the front-rear direction. Then, the rotation display structure 3 is inserted from the back side of the game board 40 so as not to contact the rotation display escape hole 41, and the attachment foot 38 is contacted with the back surface 40 b of the game board 40 around the rotation display escape hole 41. The mounting screw 37 is attached to the back surface 40b of the game board 40 by the fastening screws 42 as described above passing through the attachment legs 38 from the back side of the attachment legs 38 and being fastened to the game board 40.

  A protective structure 44 is provided on the front surface 40 a of the game board 40. The protective structure 44 is formed in a size that covers the rotation display escape hole 41 with a synthetic resin. The protective structure 44 is provided with a lens part 45, a parting part 46, a flange part 47, and a matching part 48. When the protective structure 44 is attached to the game board 40, the lens unit 45 is a hemispherical shape that covers the front side of the rotating display structure 3 so as not to contact and is recessed from the back side to the front side, and transmits light. Colorless. The parting part 46 is a cylindrical shape protruding in a mountain shape that surrounds the lens part 45 and bends rearward after protruding from the lens part 45 to the front side. The flange portion 47 protrudes outward from the outer peripheral portion of the parting part 46 so as to surround the parting part 46. The mating portion 48 has a cylindrical shape protruding from the back surface of the flange portion 47 to the back side.

  Then, the mating portion 48 passes from the front side of the game board 40 through the rotation display escape hole 41 to the back side, and is fitted in contact with the cylindrical inner surface of the mounting housing 37, and the lens portion 45 is located on the front side of the rotation display structure 3. The back surface of the flange portion 47 is brought into contact with the front surface 40a of the game board 40, and a set screw 49 such as a wood screw penetrates the flange portion 47 from the front side of the flange portion 47 and is fastened to the game board 40. The protective structure 44 is attached to the front surface 40 a of the game board 40. Although not shown, game parts such as winning parts, a large number of game nails, and decorative parts are attached to the front surface 40a of the game board 40. Then, the gaming board 40 is attached to a gaming machine frame (not shown) attached to a gaming machine installation structure called an island of a pachinko store, and the front door called a panel frame in the gaming machine frame is closed, so that A colorless front panel 50 having a property of transmitting light such as glass covering a window as a through hole in the front-rear direction is disposed on the front side of the front surface 40a of the game board 40. The front panel 50 is separated from the front surface 40 a of the game board 40 and the protective structure 44. A space 51 formed between the front panel 50 and the front surface 40a of the game board 40 is located along the front surface 40a of the game board 40 in which a ball 52 called a pachinko ball launched by the player to win a winning component. A region that flows downward from above is formed. A gap 54 between the front panel 50 and the parting portion 46 has a dimension that the sphere 52 cannot pass through. Therefore, the sphere 52 flowing down the space 51 is blocked by the parting part 46 and does not reach the front surface of the lens part 45.

  On the inner surface of the display housing portion 8 of the device housing 2, the cylindrical inner surface of the mounting housing 37, the inner surface of the parting portion 46 and the mating portion 48 of the protective structure 44, and the front surface of the circuit board 22 in the indicator lamp structure 21. The light reflecting layer 55 is provided by white paint or metal plating. Further, the indicator lamp 23 in the indicator lamp structure 21 is disposed directly below or inside the diameter of the rotary display structure 3. The planetary gear 10, the sun gear 14, the intermediate gear 17, and the support structure 11 are made of a synthetic resin having a property of transmitting light. For this reason, the light irradiated to the front side from the indicator lamp 23 and the reflected light reflected by the light reflection layer 55 pass through the planetary gear 10, the sun gear 14, the intermediate gear 17, and the support structure 11. Thus, the symbol display body 20 provided on the outer peripheral surface of the rotary display structure 3 is indirectly illuminated. Further, the light irradiated to the front side from the indicator lamp 23 and the reflected light reflected by the light reflection layer 55 pass through the planetary gear 10, the sun gear 14, the intermediate gear 17, and the support structure 11. Instead, the symbol display body 20 is directly illuminated. Furthermore, since the symbol display body 20 and the display sheet of the symbol display body 20 are made of a synthetic resin having a property of transmitting light, the light illuminating the symbol display body 20 is rotated from the symbol display body 20 to the rotating display structure. 3, the symbol display body 20 is illuminated from the inside of the rotary display structure 3. Therefore, there is an advantage that the light irradiated on the front side from the indicator lamp 23, the reflected light, and the internal light of the rotary display structure 3 can illuminate the symbol display body 20 from the outside and the inside as a whole bright and clear. .

  The detailed structures of the rotation belt mechanism 26 and the revolution belt mechanism 32 will be described with reference to FIGS. In FIG. 4, the rotation belt mechanism 26 includes a rotation tension mechanism 29. The rotation tension mechanism 29 includes a rotation tension spring 29a, a rotation tension plate 29b, a rotation tension roller 29c, and a rotation tension set screw 29d. The rotation tension spring 29a is constituted by a coil spring. In the rotation tension plate 29b, a rotation tension roller shaft 29e protrudes and is fixedly provided at the center, and long holes 29f and 29g are formed at both ends. The rotation tension roller 29c is rotatably fitted to the rotation tension roller shaft 29e. By attaching a retaining ring 29h to the tip of the rotation tension roller shaft 29e that protrudes from the rotation tension roller 29c, the rotation tension roller 29c is attached to the rotation tension roller shaft 29e so as not to drop off.

  The revolution belt mechanism 32 includes a revolution tension mechanism 35. The revolution tension mechanism 35 includes a revolution tension spring 35a, a revolution tension plate 35b, a revolution tension roller 35c, and a revolution tension set screw 35d. The revolution tension spring 35a is constituted by a coil spring. In the revolving tension plate 35b, a revolving tension roller shaft 35e protrudes and is fixedly provided at the center, and long holes 35f and 35g are formed at both ends. The revolution tension roller 35c is rotatably fitted to the revolution tension roller shaft 35e. A revolving tension roller 35c is attached to the revolution tension roller shaft 35e so that it does not fall off by attaching a retaining ring 35h to the tip of the revolution tension roller shaft 35e protruding from the revolution tension roller 35c.

  A rotation position specimen 30 is provided integrally with the rotation driven pulley 26b. The rotation position specimen 30 has a disk shape projecting radially outward from a peripheral edge section defining a portion where the rotation belt 26c is hung on the rotation driven pulley 26b, and has one slit 30a for a rotation position detector (not shown). And a plurality of slits 30b for the rotation origin position detector (not shown) are equally arranged in the circumferential direction. A revolution position specimen 36 is provided integrally with the revolution driven pulley 32b. The revolution position specimen 36 has a disk shape projecting radially outward from a peripheral edge section defining a part where the revolution belt 32c of the revolution driven pulley 32b is hooked, and one slit 36a for a revolution position detector (not shown). And a plurality of slits 36b for the revolution origin position detector (not shown) are equally arranged in the circumferential direction. A rotation position detector, a rotation origin position detector, a revolution position detector, and a revolution origin position detector are attached to the back surface of the apparatus housing. The rotation position detector, the rotation origin position detector, the revolution position detector, and the revolution origin position detector are configured by a light transmission non-contact type detector that receives the detection light from the light emitting element by the light receiving element.

  In FIG. 5, the rotation belt 26 c is wound around a rotation driving pulley 26 a provided on the rotation motor shaft 27 and a rotation driven pulley 26 c provided on the sun shaft 15. Further, the rotation tension roller 29c is rotatably attached to the rotation tension roller shaft 29e, and both ends of the rotation tension spring 29a are anchored to the long hole 29f and the spring stopper 29i provided in the apparatus housing 2, and the rotation tension spring 29a is The rotation tension plate 29b is pulled in the direction of the spring stop 29i. As a result, the rotation tension roller 29c comes into contact with the outer surface of a part of the rotation belt 26c from the outside by the spring force of the rotation tension spring 29a to push a part of the rotation belt 26c from the outer side to the rotation belt 26c. Under the tension (tension) due to the spring force of the tension spring 29a, the rotation driving pulley 26a, the rotation driven pulley 26, and the rotation tension roller 29c come into contact. Thereafter, when a person fastens the rotation tension set screw 29d to the device housing 2, the rotation tension plate 29b is fixed to the device housing 2 by the rotation tension set screw 29d. Thus, after the rotation tension plate 29b is fixed to the apparatus housing 2 with the rotation tension set screw 29d, the rotation tension spring 29a does not have to be removed from the rotation tension plate 29b and the spring stop 29i. The tension spring 29a is eliminated from the game rotation display device 1, and the structure of the game rotation display device 1 is simplified.

  A revolution belt 32 c is wound around a revolution driving pulley 32 a provided on the revolution motor shaft 33 and a revolution driven pulley 32 c provided on the support shaft 16. A revolving tension roller 35c is rotatably attached to the revolving tension roller shaft 35e, and both ends of the revolving tension spring 35a are anchored to the long holes 35f and spring stops 35i provided in the apparatus housing 2, so that the revolving tension spring 35a is The revolving tension plate 35b is pulled in the direction of the spring stop 35i. As a result, the revolution tension roller 35c comes into contact with the outer surface of a part of the revolution belt 32c from the outside by the spring force of the revolution tension spring 35a and pushes a part of the revolution belt 32c from the outside to the revolution belt 32c. Under the tension (tension) due to the spring force of the tension spring 35a, the revolution driving pulley 32a, the revolution driven pulley 32c and the revolution tension roller 35c come into contact. Thereafter, when a person fastens the revolution tension set screw 35d to the device housing 2, the revolution tension plate 35b is fixed to the device housing 2 by the revolution tension set screw 35d. Thus, after the revolution tension plate 35b is fixed to the device housing 2 by the revolution tension set screw 35d, the revolution tension spring 35a may not be removed from the revolution tension plate 35b and the spring stop 35i. The tension spring 35a is removed from the game rotation display device 1, and the structure of the game rotation display device 1 is simplified.

  According to the best mode, the mechanism for transmitting the power of the rotation motor 25 in the rotation drive mechanism 4 to the rotation display structure 3 is constituted by the rotation belt mechanism 26. When the rotation of the display structure 3 is stopped and when the rotation motor 25 is switched between forward and reverse rotation, there is an advantage that the rotation display structure 3 can be appropriately rotated without vibration. Since the mechanism for transmitting the power of the revolution motor 31 in the revolution drive mechanism 5 to the rotation display structure 3 is constituted by the revolution belt mechanism 32, when the rotation display structure 3 starts to rotate, the rotation display structure 3 stops rotating. At the time of forward / reverse switching of the revolution motor 31, there is an advantage that the rotation display structure 3 can be appropriately rotated without vibration. Since the rotation belt 26c has a belt-like endless flexible structure in which a synthetic resin is impregnated into a core material such as cloth, there is an advantage that the durability of the rotation belt 26c is high. Since the revolution belt 32c has a belt-like endless flexible structure in which a core material such as cloth is impregnated with a synthetic resin, there is an advantage that the durability of the revolution belt 32c is high. Since the rotation belt 26c is constituted by a toothed belt and the rotation driving pulley 26a and the rotation driven pulley 26b are constituted by toothed pulleys, there is an advantage that power transmission in the rotation belt mechanism 26 is appropriately performed. Since the revolution belt 32c is constituted by a toothed belt and the revolution drive pulley 32a and the revolution driven pulley 32b are constituted by toothed pulleys, there is an advantage that power transmission in the revolution belt mechanism 32 is appropriately performed. Since the diameter of the rotation driven pulley 26b is smaller than the diameter of the rotation driving pulley 26a, there is an advantage that the rotation display structure 3 rotates at a higher speed than the rotation speed of the rotation motor shaft 27. Since the diameter of the revolution driven pulley 32b is smaller than the diameter of the revolution drive pulley 32a, there is an advantage that the rotation display structure 3 rotates at a higher speed than the rotation speed of the revolution motor shaft 33.

  The indicator lamp structure 21 may be attached to the inner surface of the parting part 46 in the protective structure 44 so that the indicator lamp 23 illuminates the rotary display structure 3 from the front side. The indicator lamp 23 may be arranged outside the diameter of the rotary display structure 3, but when the indicator lamp 23 is arranged outside the diameter of the rotary display structure 3, a person can play the game rotary display device 1. Can be seen from the front side. On the other hand, when the indicator lamp 23 is disposed directly below or inside the diameter of the rotation display structure 3 as in the best mode, when the person views the game rotation display device 1 from the front side, There is an advantage that the lamp 23 is hidden behind the rotating display structure 3 and cannot be seen.

The longitudinal cross-sectional view which shows the attachment structure to the game board of a game rotation display apparatus (best form). The disassembled perspective view which shows a game rotation display apparatus (best form). 1 is an external perspective view showing a game rotation display device (best mode). The disassembled perspective view which shows a rotation belt mechanism and a revolution belt mechanism (best form). The back view (best form) of an apparatus housing.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Game rotation display apparatus 3 Rotation display structure 4 Rotation drive mechanism 5 Revolution drive mechanism 26 Rotation belt mechanism 32 Revolution belt mechanism

Claims (1)

  A game rotation display device for rotating a spherical rotation display structure by a rotation drive mechanism, wherein the mechanism for transmitting the power of the rotation drive mechanism to the rotation display structure is formed by a belt mechanism. .

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