JP5378951B2 - Movable accessory device for pachinko machines - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a movable accessory device of a Pachinko game machine, capable of electrically connecting electric devices loaded on a movable accessory and a conductive line on the drive control system side by a rotary connector, and configuring and establishing an electrical connection structure including the rotary connector so as not to obstruct the turning operation of a movable accessory by taking the structure and operation of the movable accessory into consideration. <P>SOLUTION: In the rotary connector 180, annular conductive lines 181 and 182 are provided with a rotary axis c1 as a center on the surface facing a second member 91 of a first member 90, and the second member is provided with conductive contactors 191 and 192 to be in freely slidable contact with the annular conductive lines. On the surface on the opposite side of the second member of the first member, a first connector 185 and a first connector side conductive line 186 electrically connected to the first connector are provided. A first conductive pin 188 for electrically connecting the annular conductive lines and the first connector side conductive line is provided so as to penetrate the first member. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a movable accessory device for a pachinko game machine, and more particularly, to a rotary connector that electrically connects an electrical device (LED) mounted on the movable accessory and a conductive wire on the drive control system side thereof.

  2. Description of the Related Art Conventionally, in a pachinko gaming machine, a model equipped with a movable accessory device that rotates a movable accessory with an electric motor is known (see, for example, Patent Documents 1 and 2). As in Patent Document 1, in a movable accessory device including a movable accessory that can rotate around the front and rear axes, a light transmitting portion is provided in the movable accessory, and an LED is fixed to the rear side of the movable accessory. It is known that a movable accessory (light transmitting portion) is illuminated from the rear side by this LED.

  On the other hand, in the movable accessory device disclosed in Patent Document 2, an electric device such as an LED is mounted on a movable accessory that can be rotated around an upper and lower axis. In order to electrically connect the electrical equipment to the conductive wire on the drive control system side and to enable driving, a connector is attached to each of the movable accessory and the fixed side member in the vicinity thereof, and both the connectors are flexible. It is electrically connected with a harness with

  On the other hand, it is provided over the first and second members that are relatively rotatable around a common rotation axis, and electrically connects the conductive wire on the first member side and the conductive wire on the second member side. Various rotary connectors are known (see, for example, Patent Documents 3 to 5).

  In the rotary connector of Patent Document 3, a ring-shaped inner terminal and a ring-shaped outer terminal (first and second members) are provided so as to face each other in a direction orthogonal to the rotation axis, and an annular shape between the ring-shaped terminals is provided. A plurality of shaft bearings are disposed in the gap. A ring-shaped connection terminal is rotatably mounted on each shaft bearing, and the ring-shaped connection terminal is elastically deformed in the radial direction to contact the outer peripheral surface of the ring-shaped inner terminal and the inner peripheral surface of the ring-shaped outer terminal. Yes.

  In the rotary connector of Patent Document 4, the first and second members are provided so as to face each other with the retainer plate in the direction parallel to the rotation axis, and the conductive ball is rotatably held by the retainer plate. . A pair of annular conductive wires (conduit) is formed on the opposing surfaces of the first and second members, and a conductive ball is in contact with both annular conductive wires.

  In the rotary connector of Patent Document 5, the first and second members are provided so as to face the rotation axis in the parallel direction. An annular conductive wire (conductive ring) is formed on a surface of the first member facing the second member, and a conductive contact that slidably contacts the annular conductive wire is provided on the second member. The conductive contact is formed in a corrugated section or a convex section. The distance between the first and second members can be adjusted with an adjusting screw.

JP 2008-237353 A JP 2007-275380 A JP 2007-141668 A Japanese Patent Laid-Open No. 10-321336 JP-A-8-213135

  In the movable accessory device of the pachinko gaming machine of Patent Document 1, the movable accessory is lit up by LEDs fixedly provided on the rear side of the movable accessory. Since the direction (front-rear direction) and the shape of the movable accessory (circular shape around the rotation axis) are restricted, it is not possible to realize a novel electric decoration associated with the rotation of the movable accessory.

  In the movable accessory device of the pachinko gaming machine of Patent Document 2, the movable accessory is electrically connected to the movable accessory and a connector attached to each of the fixed side members in the vicinity thereof by a flexible harness. An electric device is mounted on the device, and the electric device can be driven by being electrically connected to a conductive wire on the drive control system side. However, since both the connectors are connected by a harness, the movable accessory cannot be rotated from a fixed position to a certain direction by a set angle (for example, 360 degrees) or more, and the harness can be smoothly rotated. There is also a risk of hindering operation.

  Here, in the movable accessory device of a pachinko machine, an electric device is mounted on the movable accessory provided to be rotatable, and the electric device is electrically connected to the conductive wire on the drive control system side. It is conceivable to employ the rotary connectors disclosed in Patent Documents 3 to 5.

  When the rotary connector disclosed in Patent Documents 4 and 5 is used for the movable accessory device of the pachinko gaming machine, one of the first and second members is provided on the movable accessory and the other is provided on the base member. Since the rotary connector is provided over the first and second members facing in the direction parallel to the core, the rotary connector can be made compact. On the other hand, the electrical connection structure between the electrical device including the rotary connector and its drive control system In consideration of the structure and operation of the movable accessory, it is necessary to configure so as not to obstruct the rotation of the movable accessory.

  However, the rotary connectors disclosed in Patent Documents 4 and 5 are not based on the assumption that they are used to electrically connect an electrical device mounted on a movable accessory and a conductive wire on the drive control system side. In consideration of the structure and operation of the movable accessory in consideration of the structure and operation of the movable accessory, no consideration is given to constructing the general connection structure so as not to obstruct the rotational movement of the movable accessory. In Patent Documents 4 and 5, only a rotary connector and a conductive wire extending from the rotary connector are schematically illustrated and disclosed, which is insufficient.

  An object of the present invention is to electrically connect an electrical device mounted on a movable accessory with a rotary connector and a conductive wire on the drive control system side thereof in a movable accessory device of a pachinko gaming machine, In consideration of the structure and operation of the movable accessory, it is configured and established so as not to obstruct the rotation of the movable accessory.

The present invention relates to a movable accessory device (17) of a pachinko machine (1) provided with a movable accessory (80), and is relatively rotatable about a common rotational axis (c1) and its rotational axis. First and second members (90, 91) provided so as to face the core (c1) in a parallel direction, one is provided on the movable accessory (80) and the other is a predetermined base member (50 first provided), and the second member (90, 91), said movable combination thereof and (mounted electrical equipment 80) (153), prior electric equipment (153) and a driving control system (160 ) -Side conductive wires (176, 177) for electrical connection with the first and second members (90, 91), the rotary connector (180), and the first member (90) Origin detecting means for detecting an origin position with respect to the second member (91) , and the rotary connector (180) is arranged on the surface of the first member (90) facing the second member (91) on the rotational shaft. An annular conductive wire (181, 182) provided around the core (c1) A conductive contact (191, 192) provided on the second member (91) and slidably contacting the annular conductive wire (181, 182); and the second member (91) opposite to the second member (91) A first connector (185) provided on the surface of the first connector, a first connector-side conductive wire (186) electrically connected to the first connector (185), and the first member (90) in a penetrating manner. Provided with a first conductive pin (188) for electrically connecting the annular conductive wire (182) and the first connector side conductive wire (186, 168A), and the origin detecting means includes the annular conductive wire ( 182), and the second member electrically connected to the drive control system (160) and capable of contacting the origin detection unit (184) at the origin position. The conductive contact for origin (195) provided in (91) and the drive control system (160), the conductive contact for origin (195) contacted the origin detection unit (184) Detectable origin Characterized by comprising a knowledge control means (163).

According to the movable won game apparatus of the pachinko game machine of the present invention, by Russia over Tari connector without rotation range is restricted movable won game, the conductive contact can be always brought into contact with the annular conductive line, i.e. The electrical equipment mounted on the movable accessory and the conductive wire on the drive control system side can be electrically connected, and the rotary connector can be connected to the movable accessory in consideration of the structure and operation of the movable accessory. It can be configured and established so as not to obstruct the movement. And the origin position of a movable accessory can be detected easily and reliably using a rotary connector, and the structure which combined the rotary connector and the origin detection means can be simplified.

1 is a front view of a pachinko gaming machine according to Embodiment 1. FIG. It is a front view of a game board. It is a block diagram of a control system. It is a front view of a movable accessory apparatus (The 1st-3rd movable accessory is a standby state). It is a front view of a movable accessory apparatus (the 1st, 2nd movable accessory is an operation state). It is a front view of a movable accessory apparatus (The 1st-3rd movable accessory is an operation state). It is a rear view of the state of FIG. 4 of a movable accessory apparatus. It is a rear view of the state of FIG. 5 of a movable accessory apparatus. It is a front view of a 1st, 2nd movable accessory and a accessory attachment base. It is a rear view of a 1st, 2nd movable accessory, and an accessory mounting base. It is a front view of a fixed case, a movable case, and a 3rd movable accessory. It is a front view of a 3rd movable accessory. It is a rear view of a 3rd movable accessory. It is a front view of a fixed case and a movable case. It is an exploded front view of a fixed case and a movable case. It is a bottom view of a fixed case. It is a bottom view of a movable case. It is a disassembled perspective view from the front side, such as a 3rd movable accessory and a rotary connector. It is a disassembled perspective view from the back side of a 3rd movable accessory and a rotary connector. It is a disassembled perspective view from the front side of a rotary connector. It is a disassembled perspective view from the back side of a rotary connector. It is a front view of the 1st member. It is a rear view of the 1st member. It is a front view of the 2nd member. It is a rear view of the 2nd member. It is an enlarged front view of the 1st member. It is an enlarged bottom view of the 1st member. It is an enlarged bottom view of the first and second members. It is a block diagram of the electric equipment of a movable accessory apparatus, and its drive control system. 6 is a rear view of a first member of Example 2. FIG. 6 is an enlarged front view of a first member of Example 2. FIG. 6 is a front view of a first member of Example 3. FIG. It is a top view of the plate-shaped material (a plurality of 2nd members) of Example 3. FIG. 6 is an enlarged front view of a first member of Example 4. It is an enlarged bottom view of the principal parts, such as the 1st, 2nd member of Example 4.

  The present invention is applied to a movable accessory device installed in a game board of a pachinko gaming machine. Hereinafter, modes for carrying out the invention will be described based on examples.

  As shown in FIGS. 1 and 2, in the pachinko gaming machine 1, an open / close frame 2 is attached to an outer frame attached to an island structure of a game hall so that the open / close door 3 can be opened and closed. It is attached to. A game board 4 is mounted on the opening / closing frame 2, and a game area 5 is formed on the front side of the game board 4. A window 3a is formed in the opening / closing door 3, and a transparent plate 3b is attached to the window 3a, and the front side of the game area 5 is covered by the transparent plate 3b.

  The open / close door 3 is provided with a storage tray 6 for storing game balls below the window 3 a, and a launching handle 7 is mounted on the lower right side of the storage tray 6. When the launching handle 7 is turned, the game balls introduced from the storage tray 6 to the launch position are launched, and when there are a plurality of game balls in the storage tray 6, the plurality of game balls are about 0. 0. Fired continuously at intervals of 6 seconds. The launched game ball is guided by the guide rail 8 and thrown into the upper part of the game area 5.

  The game board 4 includes a number of obstacle nails 10, a starting prize opening device 11, a gate 12, a grand prize opening device 13, a plurality of general winning openings 14, a center accessory 15, an image display 16, a movable accessory device 17, A game display board 18 is installed in the arrangement shown in FIG. 2, and a control device 20 (see FIG. 3) is mounted on the back side of the game board 4.

  The start winning opening device 11 includes first and second start winning openings 11a and 11b, an opening / closing member 11c for opening and closing the second start winning opening 11b, and game balls won in the first and second start winning openings 11a and 11b, respectively. First and second start ports SW11d and 11e to be detected, and an electric chew SOL11f for opening and closing the opening and closing member 11c. The opening / closing member 11c makes it possible to win a game ball to the second start winning opening 11b in the open position, impossible in the closed position. The gate 12 is provided with a gate SW12a for detecting a passed game ball. “SW” means a switch, and “SOL” means a solenoid actuator.

  The big prize opening device 13 includes a big prize opening 13a, an opening / closing member 13b for opening / closing the big prize opening 13a, a big winning opening SW13c for detecting a game ball won in the big prize opening 13a, and a big winning opening for opening / closing the opening / closing member 13b. It has SOL13d. The opening / closing member 13b makes it possible to win a game ball to the big winning opening 13a in the open position, which is impossible in the closed position. Each general winning opening 14 is provided with a general winning opening SW 14a for detecting a winning game ball.

  The center accessory 15 has a center frame member 15a that protrudes forward from the board surface (front surface) of the game board 4 and has a size that occupies about half of the game area 5, and extends from the upper part of the game board 4 to the center part. Is provided. An image display 16 is provided on the center accessory 15 so that the screen faces forward from the inside of the center frame member 15 a, and a movable accessory device 17 is provided on the upper end side of the image display 16. The movable accessory device 17 will be described in detail later.

  The game display board 18 includes a first special symbol indicator 18a, a second special symbol indicator 18b, a normal symbol indicator 18c, a first special symbol hold lamp 18d, a second special symbol hold lamp 18e, and a normal symbol hold lamp 18f. I have.

  On the first special symbol display 18a, the first special symbol is stopped and displayed after the symbol changes based on the winning of the game ball to the first start winning opening 11a, and the second special symbol display 18b is displayed on the second start. The second special symbol is stopped and displayed after the symbol changes based on the winning of the game ball in the winning opening 11b. When a big hit symbol is stopped and displayed on the first or second special symbol indicator 18a or 18b, a big hit gaming state occurs, and the big prize opening device 13 opens / closes the opening / closing member 13b, which is normally large in blocking. The winning opening 13a is opened and closed over a plurality of rounds.

  On the normal symbol display 18c, the normal symbol is stopped and displayed after the symbol changes based on the winning of the game ball to the gate 12. When the symbol is stopped and displayed on the normal symbol display 18c, an auxiliary game is generated, and the start winning port device 11 opens and closes the opening / closing member 11c, and the normally closed second start winning port 11b is set to 1 or Open and close multiple times.

  The first special symbol hold lamp 18d displays up to four so-called first special figure hold numbers of game balls won in the first start winning opening 11a, and the second special symbol hold lamp 18e displays the second start winning prize. Up to four so-called second special figure hold numbers of game balls won in the mouth 11b are displayed, and up to four so-called general figure hold numbers of game balls won in the gate 12 are displayed on the normal symbol hold lamp 18f. .

  By turning the launch handle 7, the game ball launched into the upper portion of the game area 5 falls on the obstacle nails 10 while changing its direction, and any of the winning holes 11a, 11b, 13a, 14 When the crab is won, it is discharged from the gaming area 5 and when it does not win any of the winning openings 11a, 11b, 13a, 14, it is finally formed at the lower end of the gaming area 5. It is discharged out of the gaming area 5 from the out-out port 9.

A control system of the pachinko gaming machine 1 will be described.
As shown in FIG. 3, the control device 20 includes a main control device 21 and a sub control device 25. The main control device 21 is configured by providing a game control board 22 with a CPU, a ROM, and a RAM. The game control board 22 is connected to the board external information terminal board 23.

  The sub-control device 25 includes a payout control board 26, an effect control board 27, an image control board 28, and a lamp control board 29. Each of the plurality of control boards 26 to 29 includes a CPU, a ROM, and a RAM. The production control board 27 includes an RTC. The payout control board 26 is connected to the frame external information terminal board 24. “RTC” means a real-time clock.

  The game control board 22 receives the ball detection signal from the first and second start openings SW11d, 11e, the gate SW12a, the big prize opening SW13c, the general prize opening SW14a and the control information from the payout control board 26, and The SOL 11f, the special winning opening SOL 13d, the symbol displays 18a, 18b, 18c and the symbol holding lamps 18d, 18e, 18f are controlled, and control information (game) is given to the payout control board 26, the effect control board 27, and the board external information terminal board 23. Information).

  The payout control board 26 receives the control information from the game control board 22 and the ball detection signals from the payout ball detection SW31, the ball presence detection SW32, and the full tank detection SW33, and controls the payout drive motor 30 to receive the prize opening 11a. , 11b, 13a, 14 for one winning game ball, the number of game balls set for each of the winning openings 11a, 11b, 13a, 14 is paid out to the storage tray 6a, and the game control board 22 and the frame external information Control information (payout information) is output to the terminal board 24.

  The effect control board 27 receives the control information from the game control board 22 and the operation signal from the effect button 35, outputs the control information to the image control board 28, and further receives the control information from the image control board 28. Then, the control information is output to the lamp control board 29. The image control board 28 receives control information from the effect control board 27, controls the image display 16 and the speaker 34, and outputs control information to the effect control board 27. The lamp control board 29 receives control information from the effect control board 27, controls the frame lamp 35 and the panel lamp 36 mainly in synchronization with the control by the image control board 28, and further, the movable accessory device 17. To control.

The movable accessory device 17 will be described in detail.
As shown in FIGS. 4 to 29, the movable accessory device 17 is supported by a fixed case 40 (predetermined fixed-side member) fixed to the upper portion of the center accessory 15 and reciprocally movable up and down on the fixed case 40. The movable case 50 (predetermined base member) and the first movable combination 60 fixed to the movable case 50, and the left and right mounted on the first movable combination 60 and supported so as to be rotatable about the front and rear axes. A pair of second movable combination 70 and a third movable combination 80 mounted on the first movable combination 60 and supported rotatably around the front and rear axes (rotation axis c1) are provided.

  In addition, the movable accessory device 17 includes a first reciprocating drive mechanism 100 having a first electric motor 101 that reciprocates the first movable accessory 60 (movable case 50) up and down, and a reciprocating operation of the first movable accessory 60. In combination with the second movable accessory 70, the accessory interlocking mechanism 110 that reciprocally rotates the second movable accessory 70, and the third electrical motor 121 that rotationally drives the third movable accessory 80. And a plurality of first and second elements that are mounted on the first, second and third movable accessories 60, 70 and 80, respectively, and illuminate the first, second and third movable combinations 60, 70 and 80, respectively. , Third LED 133, 143 a, 143 b, 153, first, second and third electric appliances 130, 140, 150, electric motor 101, 121 and LED 133, 143 a, 143 b, 153 drive control system 160. And electric motors 101, 121 and LED133,143a, and an electrical connection 170 that electrically connects 143b, 153 and the drive control system 160. Hereinafter, “connection” means electrical connection.

  As shown in FIGS. 4 to 6, FIGS. 8 to 13, 18, and 19, the first, second, and third movable accessories 60, 70, and 80 are formed to imitate a bird (cage), The first movable accessory 60 constitutes a bird's body, the pair of second movable actors 70 constitutes bird feathers, and the third movable accessory 80 constitutes a bird's tail. The first, second, and third movable accessories 60, 70, and 80 are operated by the accessory reciprocating drive mechanism 100, the accessory interlocking mechanism 110, and the accessory rotation driving mechanism 120. It is lit up by 3 lighting devices 130, 140, 150, and a unique game effect is realized.

As shown in FIGS. 4 to 8, 11, and 14 to 18, the fixed case 40 and the movable case 50 have a vertical length that is greater than or equal to the lifting stroke of the movable case 50. have a greater lateral width than the lateral width, the movable case 50 are formed in the vertical length rectangular case. Recess 41 of the vertical length of opening to the front side is formed in the fixed casing 40, the convex portion 51 of the longitudinal length protruding rearward on the movable case 50 are formed. In a state where the convex portion 51 of the movable case 50 is fitted in the concave portion 41 of the fixed case 40, the movable case 50 is guided to the fixed case 40 so as to be movable up and down and supported through the accessory reciprocating drive mechanism 100. ing.

  As shown in FIG. 4 to FIG. 6 and FIG. 9, the first movable accessory 60 (bird trunk) includes a first accessory body 61 and an accessory attachment in which the first accessory body 61 is fixed to the front surface portion. And the upper part of the accessory mounting base 62 is attached to the front surface of the movable case 50. The first movable accessory 60 is exposed from the upper standby position (see FIG. 4) where most of the first movable accessory is concealed by the upper decorative portion 15b of the center accessory 15, and exposed from the decorative portion 15b. It moves up and down over the downward projecting position (see FIGS. 5 and 6).

  As shown in FIG. 4 to FIG. 6 and FIG. 8 to FIG. 10, the pair of second movable accessories 70 (bird wings) have a bilaterally symmetric structure. An accessory tip member 72. The second accessory base member 71 is positioned in front of the accessory attachment base 62 and rearward of the first accessory body 61, and the base end portion of the second accessory base member 71 is the accessory attachment base 62. It is connected to and supported by the lower end of the shaft. The second accessory tip member 72 is positioned in front of the second accessory base member 71 so that the base end portion of the second accessory tip member 72 is rotatable to the tip end portion of the second accessory base member 71. Connected and supported.

  The pair of second movable accessories 70 is in a closed position where the pair of second accessory base member 71 and the second accessory tip member 72 approach the first movable accessory 60 and overlap each other (see FIG. 4). Then, an opening / closing operation is performed over an open position (see FIGS. 5 and 6) extending from the first movable accessory 60 to the left and right. The pair of second movable accessories 70 is in the closed position when the first movable accessory 60 is in the upper standby position, and is in the open position when the first movable accessory 60 is in the downward projecting position.

  As shown in FIGS. 4 to 6, FIGS. 11 to 13, 18, and 19, the third movable accessory 80 (bird tail) is located behind the first and second movable accessories 60 and 70. The base end portion thereof is rotatably connected to and supported by the front surface portion of the movable case 50 on the lower rear side of the accessory mounting base 62 and extends radially outward from the rotation axis c thereof. The third movable accessory 80 is basically in one direction (clockwise indicated by an arrow in FIG. 6) with the position where most of the third movable accessory 80 is hidden behind the first movable accessory 60 as the origin position (see FIGS. 4 and 5). It rotates only in the direction s1). The third movable accessory 80 corresponds to the movable accessory described in the claims.

  As shown in FIGS. 4 to 8, 11, and 14 to 17, the accessory reciprocating drive mechanism 100 includes a first electric motor 101, a first gear mechanism 102, a rack member 103, and a fixed case 40. A pair of left and right second gear mechanisms 104 and a pair of left and right racks 105 provided on the movable case 50 are provided. The first electric motor 101 is mounted forward on the rear surface portion of the fixed case 40, and the first gear mechanism 102, the rack member 103, and the pair of second gear mechanisms 104 are mounted inside the fixed case 40.

  When the first electric motor 101 is driven, the driving force is input to the first gear mechanism 102 and transmitted from the first gear mechanism 102 in the order of the rack member 103 → the pair of second gear mechanisms 104. Here, the upper end of the rack member 103 is pivotally coupled to the large gear 102a at the end of the first gear mechanism 102, and when the large gear 102a rotates, the rack member 103 moves up and down. The pair of left and right pinions 104a at the start of the pair of second gear mechanisms 104 mesh with the pair of left and right racks 103a of the rack member 103, and when the rack member 103 moves up and down, the pinion at the end of the pair of second gear mechanisms 104 104b rotates.

  The pinion 104b at the end of the pair of second gear mechanisms 104 is disposed below the fixed case 40. The pair of racks 105 are integrally formed on the left and right side walls of the convex portion 51 of the movable case 50, and the pair of pinions 104 b mesh with the pair of racks 105. Thus, when the pair of pinions 104b rotate in the direction of the arrow s2 shown in FIG. 15, the first, second, and third movable accessories 60, 70, and 80 are lowered together with the movable case 50, and the pair of pinions 104b is moved. When rotating in the direction of the arrow s3 shown in FIG. 15, the first, second and third movable members 60, 70 and 80 rise together with the movable case 50.

  In addition, in order to perform the raising / lowering position control of the 1st movable accessory 60 (movable case 50), the position detection switch (not shown) which can detect the upper stand-by position and the downward protrusion position of the 1st movable accessory 60, respectively (for example, , Optical sensors and proximity switches).

  As shown in FIGS. 4 to 11 and FIGS. 14 to 16, the accessory interlocking mechanism 110 is connected to a first movable accessory 60 and a pair of second movable accessory 70 so that both ends thereof are rotatable. The pair of left and right arm members 111 and the fixed case 40 are provided, and the reciprocating motion of the first movable member 60 is converted into the rotational motion of the pair of arm members 111 to form a pair of second movable members. An arm guide mechanism 112 that guides the pair of arm members 111 so as to realize the reciprocating rotation of the object 70 is provided.

  The arm member 111 is positioned in front of the accessory mounting base 62 and in the rear of the second accessory tip member 72 so that the base end portion of the arm member 111 can freely rotate to the upper portion of the accessory mounting base 62. The distal end portion of the arm member 111 is coupled to the distal end portion of the second accessory tip member 72 so as to be rotatable and slightly movable in the length direction of the second accessory tip member 72. The arm member 111 is formed in an L shape having a short arm portion 111a on the proximal end side and a long arm portion 111b on the distal end side. When the second movable accessory 70 is in the closed position, the short arm portion 111a is horizontal. The posture is such that the long arm portion 111b is in a vertical posture (see FIG. 4), and the short arm portion 111a and the long arm portion 111b are mountain-shaped when the second movable accessory 70 is in the open position. Formed and arranged.

  The arm guide mechanism 112 includes a pair of left and right guide rollers 113 (guide protrusions) for guiding the short arm portions 111a (first guided portions in the middle in the length direction) of the pair of arm members 111, and 1 It has a pair of left and right guide holes 114 that respectively guide the long arm portions 111b of the pair of arm members 111 (second guided portions on the tip side of the first guided portions). The pair of guide rollers 113 is provided on the lower side of the pair of short arm portions 111a so as to protrude forward from the front plate 40a of the fixed case 40, and the pair of guide holes 114 is formed on the pair of long arm portions 111b. The front plate 40a of the fixed case 40 is formed in the vicinity.

  The guide hole 114 includes a straight hole 114a that is elongated in the vertical direction, and a curved hole 114b that protrudes in a curved shape toward the opposite side of the other guide hole 114 on the lower end side of the straight hole 114a. Guided pins 115 projecting rearward are provided on the long arm portions 111 b of the pair of arm members 111, and guided plates 116 are provided on the rear end portions of the guided pins 115. The guided pin 115 is engaged with the guide hole 114, and the guided plate 116 is engaged with the rear surface of the front plate 40 a of the fixed case 40 (around the guide hole 114).

  When the first movable accessory 60 moves up and down outside the vicinity of the downward projecting position, the pair of guided pins 115 are guided by the pair of straight holes 114a, and the pair of second movable accessories 70 is maintained in the closed position. Is done. When the first movable accessory 60 is lowered to the downward projecting position, the pair of arm members 111 hits the pair of guide rollers 113 from the upper side and is pushed up by the pair of guide rollers 113 so that the pair of first members 2 The movable accessory 70 rotates from the closed position to the open position. When the first movable accessory 60 rises from the downward projecting position, the pair of guided pins 115 are guided by the pair of curved hole portions 114b, and the pair of second movable accessory 70 changes from the open position to the closed position. Rotate.

Here, the third movable accessory 80 and the surrounding structure will be described in detail.
As shown in FIGS. 13 and 18 to 25, the movable accessory device 17 is relatively rotatable around a common front and rear rotational axis c1 and parallel to the rotational axis c1 (front and rear). The first and second members 90 and 91 are provided so as to face each other, and one (first member 90) is provided on the third movable accessory 80 and the other (second member 91) is provided on the movable case 50. The first and second members 90 and 91 and the first and second members 90 and 91 are relatively rotatable (the first member 90 with respect to the second member 91) and parallel to the rotation axis c1. A plurality of third LEDs 153 that are electric devices, and conductive cords 176 and 177 (on the drive control system 160 side), which are provided over a connecting mechanism 95 that connects the first member 90 and the second member 90 and 91 so that they cannot move in the direction. (See FIG. 29) and a rotor constituting a part of the electrical connection structure 170 And a connector 180.

  The first and second members 90 and 91 are respectively made of annular (disc-shaped) first and second printed boards 90 and 91, and the first member 90 is formed with a larger diameter than the second member 91 ( For example, it has a diameter about twice the diameter of the second member 91) and is disposed on the front side of the second member 91. Here, the rear surface of the first member 90 is a surface facing the second member 91, and the front surface of the first member 90 is a surface opposite to the second member 91. Further, the front surface of the second member 91 is a surface facing the first member 90, and the rear surface of the second member 91 is a surface opposite to the first member 90.

  The second member 91 is attached to the case member 92 and is fixed to the movable case 50 via the case member 92. The case member 92 has an annular housing recess 92 a that opens forward, and the distal end portion of the outer peripheral wall of the housing recess 92 a is in slidable contact (adjacent) with the rear surface that is the smooth surface of the first member 90. . The second member 91 is fitted in the housing recess 92 a and fixed with screws, and is housed in a space surrounded by the case member 92 and the first member 90. Further, the case member 92 has a pair of leg portions 92 b projecting outward in the radial direction, and the pair of leg portions 92 b are fixed to the front surface portion of the movable case 50 with screws.

  As shown in FIGS. 13 and 18 to 21, the coupling mechanism 95 is provided so as to penetrate the first and second members 90 and 91 and the case member 92 with the rotation axis c1 as an axis, and the second member. A cylindrical shaft member 96 fixed to 91 (case member 92), protruding forward from the second member 91 and rotatably supporting the first member 90, and integrally formed at the front end of the cylindrical shaft member 96; A first retaining collar portion 96 a that locks the one member 90 and prevents it from coming off from the cylindrical shaft member 96, and a rear end portion of the cylindrical shaft member 96, and the second member 91 is interposed via the case member 91. And a second retaining collar portion 96 b that is locked and prevented from coming off from the cylindrical shaft member 96.

  At least the first and second members 90 and 91, the case member 92, and the cylindrical shaft member 96 are attached to the movable case 50 in a state in which they are assembled in advance and unitized. In the assembly, the cylindrical shaft member 96 is penetrated by the first member 90 in a state where only the first retaining collar portion 96a is formed on the cylindrical shaft member 96, and the second member 91 and the case member 92 are provided. In this state, the rear end portion of the cylindrical shaft member 96 is caulked to the enlarged diameter side, and the second retaining rod portion 96b is formed by the caulking. At that time, the first member 90 is assembled so as not to be strongly held between the outer peripheral wall of the case member 92 and the first retaining collar portion 96a of the cylindrical shaft member 96, that is, to be able to rotate smoothly.

As shown in FIGS. 13 and 18 to 28, the rotary connector 180 is provided on the rear surface of the first member 90 in addition to the first and second members 90 and 91, the case member 92, and the cylindrical shaft member 96. Two large and small annular conductive wires 181 and 182 provided around the rotation axis c1 and two conductive materials provided on the second member 91 and slidably in contact with the two annular conductive wires 181 and 182, respectively. sexual contacts 191, 192 and, second two conductive contact 191 provided in the member 91, 192 and annular conductive lines 181, 182 respectively elastically biased to the two contact child biasing mechanism 193, 194, one origin conductive contact 195 slidably contacting the portion between the two annular conductive wires 181 and 182 of the rear surface of the first member 90 provided on the second member 91; The conductive contact 195 for origin provided on the two members 91 is And an elastically origin for contacting the child biasing mechanism 196 for biasing the member 90.

  The rotary connector 180 includes a conductive wire extension 183 and a conductive wire protrusion 184 provided on the rear surface of the first member 90, and a first connector 185 and a first connector side conductive provided on the front surface of the first member 90. A wire 186 and two first conductive pins 187 and 188 provided in a penetrating manner in the first member 90 are provided.

  The two annular conductive wires 181 and 182 are arranged at an appropriate interval so that the origin conductive contact 195 is not in contact with the annular conductive wires 181 and 182, and the conductive wire extension 183 is formed on the outer annular conductive wire 181. The conductive line protrusion 184 protrudes from a part of the inner annular conductive line 182 so as not to contact the outer annular conductive line 181 radially outward from a part thereof. The first connector 185 is mounted in the vicinity of the outer periphery of the first member 90 and is connected to the first connector-side conductive wire 186.

  The two first conductive pins 187 and 188 are press-fitted and fixed to the first member 90 in a press-fit manner, the conductive wire extension 183 and the first connector 185 are connected by the first conductive pin 187, and the second The conductive wire protrusion 184 and the first connector side conductive wire 186 are connected by the conductive pin 188. The two annular conductive wires 181 and 182, the conductive wire extension 183, the conductive wire protrusion 184, and the first connector side conductive wire 186 are printed on the first member 90 that is the first printed circuit board.

  The rotary connector 180 includes a conductive wire extension 197 provided on the front surface of the second member 91, a second connector 198 provided on the rear surface of the second member 91, and three second connector side conductive wires 199, 200, 201 and three second conductive pins 202, 203, 204 provided in a penetrating manner in the second member 91.

  The conductive wire extension 197 is connected to the conductive contact 191. The second connector 198 is mounted in the vicinity of the outer periphery of the second member 91, and the three second connector-side conductive wires 199, 200, 201 are connected to the second connector 198. The three second conductive pins 202, 203, and 204 are press-fitted and fixed to the second member 91 in a press-fit manner, and the conductive wire extension portion 197 and the second connector side conductive wire 199 are connected by the second conductive pin 202. The conductive contact 192 and the second connector side conductive wire 200 are connected by the second conductive pin 203, and the origin conductive contact 195 and the second connector side conductive are connected by the second conductive pin 204. The line 201 is connected. The conductive wire extension portion 197 and the three second connector side conductive wires 199, 200, and 201 are printed on a second member 91 that is a second printed circuit board.

The two conductive contacts 191 and 192 and the origin conductive contact 195 are arranged at approximately three equal positions in the circumferential direction, and the conductive contact 191 → the origin conductive contact from the rotation axis c1. It arrange | positions so that it may become far in order of 195-> conductive contactor 192. Conductive contact 191 and 192 attached to the front surface of the second member 91 through a bias mechanism 193 and 194 with contact child origin conductive contact 195 is first through the origin for contacting the child biasing mechanism 196 It is attached to the front surface of the second member 91.

  The contact urging mechanisms 193 and 194 are made of conductive elastic pieces 193a and 194a, and mounting plate portions 193b and 194b integrally provided at the base end portions thereof are soldered to the rear surface of the second member 91. And the conductive contacts 191 and 192 are provided at the front ends of the elastic pieces 193a and 194a (integrally formed). The elastic pieces 193a and 194a extend in an inclined manner so as to approach the first member 90 from the base end portion thereof toward the leading direction of the first member 90 relative to the second member 91 (that is, in the clockwise direction). . The conductive contacts 191 and 192 are pressed against the annular conductive wires 181 and 182 in a state where the elastic pieces 193a and 194a are elastically deformed (that is, the elastic force is stored). The conductive wire extension 197 is connected to the mounting plate 193b of the elastic piece 193a, and the second conductive pin 203 is connected to the elastic piece 194a.

  Similarly, the origin contactor urging mechanism 196 includes a conductive elastic piece 196a, and a mounting plate 196b integrally provided at the base end thereof is soldered to the rear surface of the second member 91 or the like. An origin conductive contact 195 is provided at the tip of the elastic piece 196a (is integrally formed). The elastic piece 196a extends in an inclined shape so as to approach the first member 90 from the base end portion thereof toward the leading side in the rotational direction of the first member 90 relative to the second member 91 (that is, in the clockwise direction). The origin conductive contact 195 is pressed against the first member 90 in a state where the elastic piece 196a is elastically deformed (that is, stores an elastic force). The second conductive pin 204 is connected to the mounting plate portion 196b of the elastic piece 196a.

  Inside the housing recess 92a of the case member 92 (the space surrounded by the case member 92 and the first member 90), together with the second member 91, the annular conductive wires 181 and 182 of the rotary connector 180, the conductive contacts 191, Main parts such as 192 and 195 and a contact urging mechanism 193, 194 and 196 are arranged. Further, the case member 92 is formed with a connector attachment port 92c through which the second connector 198 is exposed from the housing recess 92 to the outside of the case member 92.

Regarding the conductive contacts 191, 192, the thickness of the conductive contacts 191, 192 in the direction parallel to the rotational axis c1 is configured to be greater than the thickness of the tip of the elastic pieces 193a, 194a. The widths of the conductive contacts 191 and 192 and the widths of the annular conductive wires 181 and 182 in the radial direction are substantially the same. Further, regarding the origin conductive contact 195, the thickness of the origin conductive contact 195 in the direction parallel to the rotation axis c1 is configured to be greater than the thickness of the tip of the elastic piece 196a. Conductive contact 191,912 and the elastic piece 193a, 194a, the origin conductive contact 195 and the elastic piece 196a, respectively, are made of phosphor bronze, and that ensures the desired conductivity and durability.

  As shown in FIGS. 8, 11, 14, 15, 17, and 18, the accessory rotation drive mechanism 120 includes a third electric motor 121, a gear mechanism 122, and a gear mechanism 122. A drive shaft 123 is provided. The third electric motor 121 is mounted forward on the rear surface portion of the movable case 50, the gear mechanism 122 is mounted inside the movable case 50, and the drive shaft 123 projects forward from the lower portion of the movable case 50. When the third electric motor 121 is driven, the driving force is input to the gear mechanism 122 and the drive shaft 123 rotates. The drive shaft 123 is inserted through the inside of the cylindrical shaft member 96, and its front end is connected to the third movable accessory 80.

  As shown in FIGS. 4 to 6, 9, 10, and 29, the first electrical decoration device 130 is a first provided on the front surface portion of the first movable accessory 60 (first accessory body 61). The illumination lens 131, the first LED substrate 132 attached to the rear portion of the first illumination lens 131 of the first movable accessory 60, and a plurality of second LEDs mounted in an appropriate arrangement on the front surface of the first LED substrate 132. 1 LED 133. In addition, the 1st electrical decoration lens 131 is comprised by the light-diffusion transmission plate which formed many unevenness | corrugations.

  As shown in FIG. 4 to FIG. 6, FIG. 8 to FIG. 10, FIG. 29, and FIG. 29, the second electrical decoration device 140 includes the second combination base member 71 and the second combination of the second movable combination 70. Second LED lenses 142a and 141b provided on the front surface of the accessory tip member 72, respectively, and a second LED board 142a attached to the rear portion of the second electrode lenses 141a and 141b of the second movable accessory 70. , 142b and a plurality of second LEDs 143a, 143b mounted in an appropriate arrangement on the front surfaces of the second LED substrates 142a, 142b. In addition, the 2nd electrical decoration lens 141a, 141b is comprised with the light-diffusion transmission plate which formed many unevenness | corrugations.

  As shown in FIGS. 4 to 6, FIGS. 11 to 13, and 18, the third electrical decoration device 150 includes a plurality of third electrical decoration lenses 151 provided on the front surface of the third movable accessory 80, The third LED board 152 attached to the rear part of the plurality of third illumination lenses 151 of the third movable accessory 80 and the third LED board 152 so as to be positioned on the rear side of the plurality of third illumination lenses 151, respectively. And a plurality of third LEDs 153 mounted on the front surface of the LED. In addition, each 3rd electrical decoration lens 151 is comprised by the comparatively small circular light-diffusion transmission part by front view.

  As shown in FIG. 29, the drive control system 160 includes motor control means 161, LED control means 162, origin detection control means 163, motor drive circuit 165, LED drive circuit 166, and origin detection circuit 167. The motor control means 161, the LED control means 162, and the origin detection control means 163 are provided on the lamp control board 29, and the motor drive circuit 165, the LED drive circuit 166, and the origin detection circuit 167 are provided in the fixed case 40, for example. It is provided on the fixed case side substrate 171 (see FIG. 15).

  The motor control means 161 controls the first and third electric motors 101 and 121 via the motor drive circuit 165, respectively. When the first and second motor drive signals are output from the motor control means 161 to the motor drive circuit 165, motor drive power is supplied from the motor drive circuit 165 to the first and third electric motors 101 and 121, and The third electric motors 101 and 121 are driven.

  The LED control unit 162 controls the plurality of first, second, and third LEDs 133, 143a, 143b, and 153 via the LED driving circuit 166, respectively. When the first, second, and third LED drive signals are output from the LED control unit 162 to the LED drive circuit 166, the LED drive circuit 166 drives the LEDs to the first, second, and third LEDs 133, 143a, 143b, and 153. Power is supplied, and the plurality of first, second, and third LEDs 133, 143a, 143b, and 153 are driven and lit.

  Here, the origin detection control means 163, the origin detection circuit 167, the conductive wire protrusion 184, the origin conductive contact 195, the origin contact urging mechanism 196 (elastic piece 196 a), and the like are included in the first member 90. An origin detection means for detecting the origin position with respect to the two members 91, that is, the origin position of the third movable accessory 80 (see FIGS. 4, 5, and 11) is configured.

  The conductive wire projecting portion 184 corresponds to an origin detection portion formed on a part of the annular conductive wire 182 and projects outward from a part of the annular conductive wire 182 in the radial direction as described above. The origin conductive contact 195 is connected to the drive control system 160 (origin detection circuit 167) and can contact the conductive wire protrusion 184 at the origin position (only when the third movable accessory 80 is at the origin position). The second member 91 is provided.

  The origin detection control means 163 can detect that the origin conductive contact 195 is in contact with the conductive wire protrusion 184. Here, for example, when the origin conductive contact 195 contacts the conductive wire protrusion 184, the LED drive voltage is supplied to the origin detection circuit 167, whereby the origin detection circuit 167 sends the origin detection control means 163 to the origin detection control means 163. The origin detection control means 163 detects the origin position by receiving this origin signal.

  As shown in FIGS. 10, 15, and 29, in the electrical connection structure 170, a plurality (two) of conductive cords 173 are connected to the lower end portion (the plurality of first LEDs 133) of the first LED board 132 via a connector. Further, a plurality of (two) conductive cords 174a each in a pair are connected to the base end side portions (a plurality of second LEDs 143a) of the pair of second LED boards 142a through connectors, respectively. The cords 173 and 174a are wired on the back surface of the accessory mounting base 62 so as to extend from the lower part to the upper end side along the accessory mounting base 62.

  In addition, each pair of a plurality (two) of conductive cords 174b is connected to a tip side portion (a plurality of second LEDs 143b) of the pair of second LED boards 142b via a connector, and a pair of arm members The wires are wired inside the pair of arm members 111 so as to extend from the distal end side to the proximal end side along the line 111. The plurality of conductive cords 173, 174 a, 174 b are bundled and held by a cord holding portion 62 a provided at the upper end portion of the accessory mounting base 62, and connected to the movable case side substrate 172 equipped on the upper portion of the movable case 50. The fixed case side substrate 171 (LED drive circuit 166) is connected via the movable case side substrate 172.

  In addition, a plurality (two) of conductive cords 175 connected to the third LED substrate 152 (a plurality of third LEDs 153) are connected to the first connector 185 of the rotary connector 180 and connected to the second connector 198 (2 The conductive cord 176 and the conductive cord 177 are connected to the movable case side substrate 172, and are connected to the fixed case side substrate 171 (the LED drive circuit 166 and the origin detection circuit 167) via the movable case side substrate 172. Yes. The conductive cords 173, 174a, 174b, 176, and 177 correspond to the conductive lines on the drive control system 160 side. Note that the first electric motor 101 is directly connected to the third electric motor 121 via the movable case side substrate 172 and the fixed case side substrate 171 (motor drive circuit 165).

According to the movable accessory apparatus 17 demonstrated above, there exist the following effects.
In the rotary connector 180, annular conductive wires 181 and 182 are provided on the surface of the first member 90 facing the second member 91 around the rotation axis c 1, and the second member 91 slides on the annular conductive wires 181 and 182. Conductive contacts 191 and 192 that freely contact each other and contact urging mechanisms 193 and 194 that elastically urge the conductive contacts 191 and 192 to the annular conductive wires 181 and 182 are provided. Therefore, the rotary connector 180 is made small, thin, and has a simple configuration, and the rotary connector 180 does not limit the rotation range of the third movable accessory 80, and the conductive contacts 191 and 192 are connected to the annular conductive wire. 181 and 182 can be stably and always contacted, that is, the plurality of third LEDs 153 mounted on the third movable accessory 80 and the conductive cords 176 and 177 on the drive control system 160 side are reliably connected. be able to.

  Various shapes (in this embodiment, a shape imitating a bird's tail) can be adopted as the third movable accessory 80, and the direction of the rotation axis c1 of the third movable accessory 80 (this book) In the embodiment, the front / rear direction) can also be set freely, and a plurality of third LEDs 153 mounted on the third movable accessory 80 provides a novel electrical decoration accompanying the rotational movement of the third movable accessory 80. Can improve the production effect.

  Since the conductive contacts 191 and 192 can be stably and reliably brought into contact with the annular conductive wires 181 and 182 at all times, only one of the conductive contacts 191 and 192 is provided without providing a plurality of rotary contacts 180. Therefore, it is possible to further simplify the structure of the rotary connector 180 and reduce the manufacturing cost.

  The contact urging mechanisms 193 and 194 include conductive elastic pieces 193a and 194a whose base ends are fixed to the second member 91, and the conductive contacts 191 and 194a are disposed at the distal ends of the elastic pieces 193a and 194a. Since 192 is provided, the conductive contacts 191 and 192 are reliably brought into contact with the annular conductive wires 181 and 182 and easily connected to the conductive cord 176 on the drive control system 160 side through the elastic pieces 193a and 194a. Can do.

  Since the elastic pieces 193a, 194a extend in an inclined manner so as to approach the first member 90 from the base end portion toward the leading side in the rotation direction of the first member 90 relative to the second member 91, the first and second When the members 90 and 91 rotate relatively, the frictional force caused by the contact between the conductive contacts 191 and 192 and the annular conductive wires 181 and 182 acts in the direction of pulling the elastic pieces 193a and 194a. 191 and 192 can be brought into more stable contact with the ring-shaped conductive wires 181 and 182 and the durability of the elastic pieces 193a and 194a can be increased. As a result, the conductive contacts 191 and 192 and the ring-shaped conductive wires 181 and 182 Durability can also be increased.

  The first member 90 includes the first printed circuit board 90, and the annular conductive wires 181 and 182 are printed on the surface of the first printed circuit board 90 on the second member 91 side. 90, and the second member 91 comprises a second printed circuit board 91. Conductive contacts 191 and 192 are attached to the surface of the second printed circuit board 91 on the first member 90 side. Since they are attached via the biasing mechanisms 193, 194, the conductive contacts 191, 192 and the contact biasing mechanisms 193, 194 can be easily provided on the second member 91.

  Since the accessory rotation drive mechanism 120 that rotationally drives the third movable accessory 80 is provided in the movable case 50, the third movable accessory 80 can be reduced in weight and driven to rotate. 80 smooth rotation operations can be realized.

  In the origin detection means for detecting the origin position of the third movable accessory 80, an origin detection unit 184 is formed on a part of the annular conductive wire 182, and is connected to the drive control system 160 on the second member 91 and at the origin position, the origin is detected. An origin conductive contact 195 is provided so as to be in contact with the detection unit 184, and an origin detection control means 163 capable of detecting that the origin conductive contact 195 has contacted the origin detection unit 184 is provided in the drive control system 160. . Therefore, the origin position of the third movable accessory 80 can be easily and reliably detected using the rotary connector 180, and the configuration combining the rotary connector 180 and the origin detection means can be simplified.

  Since the origin detection unit 184 includes a conductive wire protrusion 184 that protrudes in a radial direction from a part of the annular conductive line 182, the origin conductive contact 195 is connected to the annular conductive line 182 only at the origin position. The origin position of the three movable objects 80 can be detected reliably.

  Since the origin contact urging mechanism 196 that elastically energizes the origin conductive contact 195 to the first member 90 is provided on the second member 91, the origin contact 195 is added to the origin detection unit 184. It can be reliably contacted. The origin contact urging mechanism 196 includes a conductive elastic piece 196a whose base end is fixed to the second member 91. The origin contact 195 is provided at the distal end of the elastic piece 196a. Therefore, the origin conductive contact 195 can be reliably brought into contact with the origin detection unit 184 and can be easily connected to the conductive cord 177 on the drive control system 160 side via the elastic piece 196a.

  Since the elastic piece 196a extends in an inclined shape so as to approach the first member 90 from the proximal end portion thereof toward the leading side of the first member 90 in the rotation direction with respect to the second member 91, the first and second members 90 , 91 rotate relatively, the frictional force caused by the contact between the origin conductive contact 195 and the first member 90 acts in the direction of pulling the elastic piece 196a, so that the origin conductive contact 195 is detected as the origin. The durability of the elastic piece 196a can be increased by contacting the portion 184 more stably, whereby the durability of the conductive contact 195 for the origin can also be increased.

  In the coupling mechanism 95, the cylindrical shaft member 96 that rotatably supports the first member 90 with respect to the second member 91 is passed through the first and second members 90 and 91 with the rotation axis c1 as an axis. A first retaining hook portion 96a that locks the first member 90 and prevents the first shaft 90 from coming off from the cylindrical shaft member 96 is formed integrally with one end of the cylindrical shaft member 96, and the second member 91 is locked. Since the second retaining collar portion 96b that prevents the cylindrical shaft member 96 from being detached is formed integrally with the other end portion of the cylindrical shaft member 96, the first and second members 90 and 91 are relatively rotatable and It is possible to securely connect the rotation axis c1 in a direction parallel to the rotation axis c1, thereby simplifying the structure of the connection mechanism 95 and reducing the manufacturing cost.

  The first member 90 is formed to have a larger diameter than the second member 91, and has an accommodation recess 92 a that accommodates and fixes the second member 91, and the distal end portion of the outer peripheral wall of the accommodation recess 92 a is a smooth surface of the first member 90. Since the case member 92 that is slidably contacted is provided, the rotary connector 180 is provided compactly together with the first and second members 90 and 91, and the main part of the rotary connector 180 is accommodated in the accommodation recess 92a to be protected. Can do.

  An accessory rotation drive mechanism 120 for rotating the third movable accessory 80 is provided in the movable case 50 so that the drive shaft 123 of the accessory rotation drive mechanism 120 passes through the inside of the cylindrical shaft member 96. Since the drive shaft 123 is disposed, the inside of the cylindrical shaft member 96 can be used for disposing the drive shaft 123, so that the compactness can be achieved.

  In the rotary connector 180, a first connector 185 and a first connector-side conductive wire 186 connected to the first connector 185 are provided on the surface of the first member 90 opposite to the second member 91. Since the first conductive pin 188 connecting the annular conductive wire 182 and the first connector side conductive wire 186 is provided in a penetrating manner, the conductive cord 175 on the third LED 153 side is connected to the first connector 185 to connect the annular conductive wire. 181 and 182 can be connected.

  In the rotary connector 180, a second connector 198 and second connector-side conductive wires 199, 200, 201 connected to the second connector 198 are provided on the surface of the second member 91 opposite to the first member 90, Since the second conductive pins 202 and 203 that connect the conductive contacts 191 and 192 and the second connector-side conductive wires 199 and 200 are provided in the second member 90 in a penetrating manner, the conductive wires on the drive control system 160 side are provided. 176 and 177 can be connected to the second connector 198 to be connected to the conductive contacts 191 and 192.

  The rotary connector 180 is constructed by other conductive wires, conductive pins, etc., taking into consideration the structure and operation of the third movable accessory 80, and is configured so as not to obstruct the rotation of the third movable accessory 80. can do.

In the rotary connector 180, since the thickness of the conductive contacts 191 and 192 is greater than the thickness of the tip of the elastic pieces 193a and 194a, the conductive contacts 191 in the radial direction of the annular conductive wires 181 and 182 are also included. , 192 and the annular conductive wires 181, 182 are configured to have substantially the same width, so that the conductive contacts 191, 192 can be reliably and stably always in contact with the annular conductive wires 181, 182 over a long period of time. The reliability and durability of the rotary connector 180 can be improved. Conductive contact 191 and the elastic piece 193a, since 194a is made of phosphor bronze, can be made which ensures the desired conductivity and durability.

  In the rotary connector 180, the first member 90 is formed to have a larger diameter than the second member 91, and has an accommodation recess 91a for accommodating and fixing the second member 91, and the distal end portion of the outer peripheral wall of the accommodation recess 91a is the first member. A case member 92 close to the smooth surface 91 is provided, and the annular conductive wires 181 and 182 of the rotary connector 180, the conductive contacts 191 and 192, and the contact urging mechanism 193 are provided inside the housing recess 92 a of the case member 92. Accordingly, the rotary connector 180 can be provided in a compact manner, and the main part of the rotary connector 180 can be reliably protected.

  The accessory interlocking mechanism 110 causes the second movable accessory 70 to reciprocately rotate in conjunction with the reciprocating motion of the first movable accessory 60, and the accessory interlocking mechanism 110 includes the first and second movable accessories 60, The arm member 111 whose both ends are rotatably connected to 70 and the fixed case 40 are provided in the fixed case 40. The reciprocating motion of the first movable accessory 60 is converted into the pivoting motion of the arm member 111, and the second movable Since the arm guide mechanism 112 that guides the arm member 111 so that the reciprocating motion of the accessory 70 can be realized, the accessory drive system of the first and second movable accessories 60 and 70 is reduced in size. , The load on the accessory control system can be reduced.

  The first movable accessory 60, the accessory reciprocating drive mechanism 100 that reciprocates the first movable accessory 60, the second movable accessory 70 mounted on the first movable accessory 60, and the first movable Since the second interlocking mechanism 110 for reciprocatingly rotating the second movable accessory 70 in conjunction with the reciprocating motion of the accessory 60 is provided, and the third movable accessory 80 is mounted on the first movable accessory 60, Since the first, second, and third electric decoration devices 130, 140, and 150 are provided, the movable accessory device 17 can execute a novel game effect and enhance the effect.

  Next, another embodiment in which the first embodiment is partially changed will be described. In addition, the same code | symbol is attached | subjected to the same thing fundamentally as Example 1, and description is abbreviate | omitted.

  As shown in FIGS. 30 and 31, in the rotary connector 180, the origin contact contact 195 and the origin contact urging mechanism 196 (elastic piece 196a) of the first embodiment are omitted, and the origin detection unit is implemented as the origin detection unit. Instead of forming the conductive wire protrusion 184 on a part of the annular conductive line 182 as in Example 1, a broken part 184A is formed by disconnecting a part of the annular conductive line 182A. The circumferential length of the disconnection portion 184A is longer than that of the conductive contact 192.

  The conductive contact 192 is connected to the LED drive circuit 166 and the origin detection circuit 167 of the drive control system 160, and contacts the disconnection portion 184A at the origin position (only when the third movable accessory 80 is at the origin position). Here, the origin detection control means 163, the origin detection circuit 167, the disconnection part 184A, the conductive contact 192, the contact urging mechanism 194 (elastic piece 194a), and the like are the origin positions of the first member 90 relative to the second member 91. That is, the origin detecting means for detecting the origin position of the third movable accessory 80 is configured.

  For example, in the state where the LED driving circuit 166 outputs driving power to drive the third LED 153, the LED driving voltage is supplied to the origin detection circuit 167 when the conductive contact 192 completely contacts the disconnected portion 184 </ b> A. Accordingly, the origin detection circuit 167 outputs an origin signal to the origin detection control means 163, and the origin detection control means 163 receives the origin signal to detect the origin position.

  That is, the origin position of the third movable accessory 80 can be reliably detected by preventing the conductive contact 192 from being connected to the annular conductive wire 182 only at the origin position. There is no need to provide a separate conductive contact, and the conductive contact 192 can be shared, so that the configuration combining the rotary connector 180 and the origin detection means can be further simplified.

  As shown in FIG. 32, the first connector-side conductive wire 186 </ b> A extends linearly on the front surface of the first member 90, and both end portions thereof reach the peripheral end of the first member 90. As shown in FIG. 33, the conductive wire 211 is previously formed in a straight line on the plate-like material 210 for forming the plurality of first members 90, and a plurality of the plate-like materials 210 are punched. The first member 90 is manufactured, and the first connector side conductive wire 186A of each first member 90 is formed. The first connector side conductive wires 186A of the plurality of first members 90 can be continuously formed by print molding, and the manufacturing load of the first member 90 can be reduced. That is, it contributes to a reduction in manufacturing cost of the rotary connector 180.

  As shown in FIGS. 34 and 35, the rotary connector 180 has the conductive contacts 191 and 912 so that the conductive contacts 191 and 912 do not move and move in the radial direction with respect to the annular conductive wires 181 and 182. Contact guide mechanisms 221 and 222 for guiding the respective parts are provided. Further, an origin contactor guide mechanism 225 is provided for guiding the origin conductive contact 195 so that the origin conductive contact 195 does not move in the radial direction.

  Each of the contact guide mechanisms 221, 222, and 225 includes a pair of guide pieces protruding forward from the second member 91, and the guide pieces are mainly formed at the distal ends of the elastic pieces 193 a, 194 a, and 196 a. The elastic pieces 193a, 194a, 196a are guided so as to be slidably in contact with both ends in the radial direction. In other words, the contact stability of the conductive contacts 191 and 192 to the annular conductive wires 181 and 182 and the contact stability of the origin conductive contact 195 to the origin detection unit 184 can be reliably increased.

  As another modification, the second movable accessory 70 of the first embodiment may be omitted. That is, you may mount the 3rd movable combination 80 of Example 1 in the 1st movable combination 60 as a 2nd movable combination. Further, the first and second movable accessories 60 and 70 of the first embodiment may be omitted, and only the third movable accessory 80 may be provided and directly attached to the center accessory 15 or the like.

  In addition, the present invention can be implemented with various modifications other than the disclosed items. For example, the number, shape, size, and the like of the first, second, and third movable accessories can be changed as appropriate. Moreover, as an electric device mounted on the third movable accessory, an electric motor may be provided in addition to the LED, and the electric motor may be connected to a conductive wire of its drive control system. It is also possible to drive a different movable accessory by the electric motor. Also, the direction of the rotation axis of the third movable accessory can be set in various ways (for example, in the vertical direction).

DESCRIPTION OF SYMBOLS 1 Pachinko machine 17 Movable accessory apparatus 40 Fixed case 50 Movable case 60,70,80 1st, 2nd, 3rd movable accessory 90,91 1st, 2nd member 92 Case member 92a Accommodation recessed part 92c Connector attachment port 95 Linking mechanism 96 Cylindrical shaft members 96a, 96b First and second retaining rod portions 100 Reciprocating drive mechanism 110 Rework mechanism 111 Arm member 111a Short arm portion 111b Long arm portion 112 Arm guide mechanism 113 Guide roller 114 Guide hole 120 accessory rotation drive mechanism 123 drive shaft 133, 143a, 143b, 153 1st, 2nd, 3rd LED
160 Drive control system 163 Origin detection control means 170 Electrical connection structure 180 Rotary connectors 181, 182 and 182A Annular conductive wire 184 Conductive wire protrusion 184A Disconnected portion 185 First connector 186, 186A First connector side conductive wires 187, 188 First Conductive pins 191, 192 Conductive contacts 193, 194 Contact urging mechanism 193a, 194a Elastic piece 195 Origin conductive contact 196 Origin contact urging mechanism 196a Elastic piece 198 Second connector 199, 200, 201 Second connector side conductive wire 210 Plate material 211 Conductive wires 221, 222 Contact guide mechanism

Claims (1)

In a movable accessory device of a pachinko machine equipped with a movable accessory,
A first member and a second member provided so as to be relatively rotatable around a common rotation axis and to face the rotation axis in parallel, wherein one is provided on the movable accessory A first and second member provided on a predetermined base member;
An electrical device mounted on the movable accessory;
A rotary connector provided over the the previous SL electrical device and the conductive lines of the drive control system side to the first, second member for electrically connecting,
Origin detecting means for detecting an origin position of the first member relative to the second member ,
The rotary connector is
An annular conductive wire provided on the surface of the first member facing the second member with the rotational axis as a center;
A conductive contact provided on the second member and slidably contacting the annular conductive wire;
A first connector provided on a surface opposite to the second member of the first member, and a first connector-side conductive wire electrically connected to the first connector;
Provided in the through-shaped in the first member, and a first conductive pin electrically connecting the annular conductive line and the first connector side conductive lines,
The origin detecting means is
An origin detector formed on a part of the annular conductive wire;
A conductive contact for origin that is electrically connected to the drive control system and provided on the second member so as to be able to contact the origin detection unit at the origin position;
A movable accessory device for a pachinko gaming machine, comprising: an origin detection control means provided in the drive control system and capable of detecting that the origin conductive contact is in contact with the origin detection unit.

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