CN218652947U - Bidirectional tile distributing mechanism and mahjong machine - Google Patents

Abstract

The utility model discloses a bidirectional tile distributing mechanism and a mahjong machine, which are used for pushing mahjong tiles to a tile bearing track of the mahjong machine, a tile inlet is arranged between the first end and the second end of the tile bearing track, and the tile distributing mechanism comprises a tile distributing driving device, a tile distributing transmission assembly and a tile distributing plate; the mahjong tile distributing driving device is used for driving the mahjong tile distributing transmission assembly to drive the mahjong tile distributing plate to move on the mahjong tile inlet from the first side to the second side of the mahjong tile inlet or from the second side to the first side of the mahjong tile inlet, and then the mahjong tiles on the mahjong tile inlet are pushed to the mahjong tile bearing rail towards the first end of the mahjong tile bearing rail or towards the second end of the mahjong tile bearing rail. Compared with the existing arrangement mode arranged at the end part of the tile bearing track, the bidirectional tile distributing mechanism has the advantages that the tile inlet is closer to the tile shuffling plate, the stroke of conveying the mahjong tiles to the tile inlet is shortened, and the structure of an actuating mechanism in the mahjong machine can be further simplified, so that the occupied space is reduced.

Description

Bidirectional tile distributing mechanism and mahjong machine

Technical Field

The utility model relates to an amusement equipment technical field especially relates to a two-way tile distributing mechanism and mahjong machine.

Background

The mahjong, namely the four-player dominoes play with a game, has strong interest, entertainment and intelligence, thereby being popular with people, having wide popularity and great influence.

The mahjong tile inlet of the actuating mechanism of the existing mahjong machine is arranged at one end part of the mahjong tile bearing track, the mahjong tiles are grabbed and stacked by the conveying mechanism and then are lifted to the height of the mahjong tile bearing track, then the stacked mahjong tiles are pushed to the mahjong tile bearing track, and the whole mahjong tiles on the mahjong tile bearing track move to the other end of the mahjong tile bearing track when the next pile of mahjong tiles are pushed to the mahjong tile bearing track; the existing structure has high requirement on the driving force of a driving device for pushing a card head, needs to be capable of pushing a row of card walls, and has complex integral structure, poor stability and inconvenient maintenance; in addition, the existing structure can not be directly applied to the tile pushing-free mahjong machine, the tile stacking, tile pushing, conveying and other mechanisms arranged at the end part of the tile pushing-free mahjong machine lead to a large volume and a long tile bearing track, and the tile pushing-free mahjong machine manufactured based on the existing structure leads to the large overall volume of the mahjong machine, is low in space utilization rate and is easy to generate action interference.

SUMMERY OF THE UTILITY MODEL

The utility model provides a two-way mechanism and mahjong machine of dividing tablet to solve the technical problem that current mechanism structure of dividing tablet is complicated, bulky, space utilization is low.

The utility model adopts the technical scheme as follows: a bidirectional tile distributing mechanism is used for pushing mahjong tiles to a tile bearing track of a mahjong machine, a tile inlet is formed between a first end and a second end of the tile bearing track, and the tile distributing mechanism comprises a tile distributing driving device, a tile distributing transmission assembly and a tile distributing plate; the mahjong tile distributing driving device is used for driving the mahjong tile distributing transmission assembly to drive the mahjong tile distributing plate to move on the mahjong tile inlet from the first side to the second side of the mahjong tile inlet or from the second side to the first side of the mahjong tile inlet, and then mahjong tiles on the mahjong tile inlet face towards the first end or the second end of the mahjong tile bearing track to be pushed onto the mahjong tile bearing track.

Furthermore, the card distributing transmission assembly comprises a card distributing rotating part and a card distributing sliding block which slides along the length direction of the card bearing track, and the card distributing sliding block is connected with the card distributing plate; the card distributing driving device drives the card distributing rotating piece to rotate so as to drive the card distributing sliding block to slide and further drive the card distributing plate to move.

Furthermore, a card distributing sliding rod is formed on the protruding end surface of the card distributing rotating piece, which faces to one side of the sliding block; the card distributing sliding block is provided with a card distributing sliding groove matched with the card distributing sliding rod, the length direction of the card distributing sliding groove is vertical to or inclined relative to the card bearing rail, and the vertical direction interval of the two ends of the card distributing sliding groove is larger than or equal to the longitudinal stroke of the card distributing sliding rod.

Further, two-way mechanism of dividing still includes the fold tablet mechanism of an organic whole setting, fold tablet mechanism including holding the tablet seat, folding tablet drive arrangement and folding tablet transmission assembly, hold the tablet seat be used for receiving carry to fold the mahjong tiles of tablet mechanism, it is used for the drive to fold tablet transmission assembly and drive hold tablet seat lift removal, thereby hold the tablet seat be used for through the high receiving mahjong tiles many times of lift control pile up and rise to with hold the same height of tablet track.

Furthermore, the mahjong tile stacking transmission assembly comprises a mahjong tile stacking rotating part, a mahjong tile stacking rocker arm and a mahjong tile stacking sliding block connected with the mahjong tile bearing seat; the first end of the mahjong stacking rocker arm is hinged and fixed, the second end of the mahjong stacking rocker arm protrudes towards one side of the mahjong stacking sliding block to form a rocker arm sliding rod, and the mahjong stacking sliding block is provided with a mahjong stacking sliding groove matched with the rocker arm sliding rod; the end face of the mahjong folding rotating piece, facing one side of the sliding rod, protrudes to form a mahjong folding sliding rod, and the middle of the mahjong folding rocker arm is provided with a rocker arm sliding groove used for being matched with the mahjong folding sliding rod; fold tablet drive arrangement and be used for the drive it rotates to fold the tablet and rotate, fold the tablet slide bar along fold the tablet and rotate and then drive it swings to fold the tablet rocking arm, the rocking arm swing and then drive it goes up and down to move to fold the tablet slider.

Further, the card distributing transmission assembly comprises a main rotating piece; the outer wall of the stacking rotating piece is provided with teeth, and the outer wall of the distributing rotating piece is provided with teeth; the mahjong tile stacking device comprises a main rotating piece, a mahjong tile stacking tooth, a mahjong tile distributing tooth and a mahjong tile stacking tooth, wherein the mahjong tile stacking tooth is arranged on the main rotating piece in a range from a first angle to a first angle plus 180 degrees and is used for being meshed with the mahjong tile stacking rotating piece, the mahjong tile distributing tooth is arranged on the main rotating piece in a range from the first angle plus 180 degrees to the first angle plus 360 degrees and is used for being meshed with the mahjong tile distributing rotating piece, and the radial size of the mahjong tile stacking tooth, the radial size of the mahjong tile distributing tooth, the radial size of the mahjong tile stacking rotating piece tooth and the radial size of the mahjong tile distributing rotating piece tooth are the same; the main rotation piece is used for the warp divide the rotatory drive of tablet drive arrangement to drive divide the tablet to rotate just it rotates to fold the tablet and rotate and do not rotate, or warp divide the rotatory drive of tablet drive arrangement to drive it rotates just to fold the tablet branch tablet and rotate the piece and do not rotate.

Furthermore, the outer wall of the tile folding rotating piece is symmetrically provided with first bulges with inner arc depressions, and the main rotating piece is provided with first arc steps for the inner arc depressions of the first bulges within the range from the first angle +180 degrees to the first angle +360 degrees; second bulges with inner arc depressions are symmetrically formed on the outer wall of the mahjong splitting rotating piece; the main rotating piece is provided with a second arc-shaped step matched with the inner arc recess of the second protrusion within the range from the first angle to the first angle plus 180 degrees; the first arc-shaped step is used for being matched with the first bulge when the main rotating piece drives the mahjong tile distributing rotating piece to rotate, so that the outer arc surface of the first arc-shaped step slides along the inner arc of the first bulge in a concave mode, and further the rotation of the mahjong tile stacking rotating piece is limited; the second arc-shaped step is used for driving the main rotating piece to fold the mahjong tiles to rotate, and the second arc-shaped step is matched with the second protrusion to enable the outer arc surface of the second arc-shaped step to follow the concave sliding of the inner arc of the second protrusion to further limit the rotation of the mahjong tile distributing rotating piece.

Further, the card distributing driving device comprises a first driver, and the card stacking driving device comprises a second driver.

Further, two-way card distribution mechanism is located hold orbital tip, be provided with return mechanism on the two-way card distribution mechanism, return mechanism includes energy storage slider and energy storage spring, the energy storage slider set up in hold the tablet track, the energy storage slider is used for pushing to at last a set of mahjong tile hold orbital mahjong butt and removal and then the compression energy storage spring that is located the tip when holding orbital corresponding end thereby provide elasticity and make mahjong tile return.

On the other hand, the mahjong machine is also provided, and the bidirectional tile distributing mechanism is applied to the mahjong machine.

The utility model discloses following beneficial effect has: the bidirectional tile distributing mechanism is applied to a tile bearing track of a mahjong machine, and a tile inlet is arranged between the first end and the second end of the tile bearing track, so that compared with the existing arrangement mode arranged at the end part of the tile bearing track, the tile inlet is closer to a tile shuffling disc, the stroke of conveying mahjong tiles to the tile inlet is shortened, and the structure of an executing mechanism in the mahjong machine can be further simplified, so that the space occupation is reduced; the mahjong tile distributing driving device drives the mahjong tile distributing transmission assembly to drive the mahjong tile distributing plate to move, so that stacked mahjong tiles at the tile inlet can be pushed to the first end or the second end of the tile bearing rail, and the mahjong tile inlet and the mahjong tile distributing are repeated until the required number of piles is reached, and the mahjong tiles are distributed to the two ends of the tile bearing rail at the tile inlet respectively.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural diagram of a second embodiment of the present invention, in which an integrated module is mounted on a bottom plate of a table body of a card-pushing-free mahjong machine; FIG. 2 is a second schematic view of the structure of the integrated module of the second embodiment of the present invention installed on the bottom plate of the table body of the mahjong machine; FIG. 3 is a first exploded view of the structure of FIG. 2; fig. 4 is a schematic view of an assembly structure of an integrated module according to a second embodiment of the present invention; FIG. 5 is a second exploded view of the structure of FIG. 2; fig. 6 is a schematic structural diagram of an integrated module according to a second embodiment of the present invention; fig. 7 is a first diagram of a connection structure of a square integrated module according to a second embodiment of the present invention; fig. 8 is a second diagram of the connection structure of the square integrated module according to the second embodiment of the present invention; fig. 9 is a first assembly view of the integrated module and the shuffling tray according to the second embodiment of the present invention; figure 10 is a second assembly view of the integrated module and shuffling tray of the second embodiment of the present invention; FIG. 11 is a schematic view of the forward structure of the playing card separating mechanism and the playing card stacking mechanism according to the preferred embodiment of the present invention; FIG. 12 is a schematic view of the back structure of the playing card separating mechanism and the playing card stacking mechanism according to the preferred embodiment of the present invention; FIG. 13 is an exploded view of the card dealing and stacking mechanisms of the preferred embodiment of the present invention; fig. 14 is a schematic back structure view of the card distributing mechanism and the card stacking mechanism according to the preferred embodiment of the present invention; FIG. 15 is a first schematic diagram illustrating a front view of a part of the structure of the card distributing mechanism and the card stacking mechanism according to the preferred embodiment of the present invention; FIG. 16 is a schematic diagram of a second partial structure of the card distributing mechanism and the card stacking mechanism according to the preferred embodiment of the present invention; FIG. 17 is a first schematic view of a portion of the card-separating mechanism and the card-stacking mechanism according to the preferred embodiment of the present invention; FIG. 18 is a second schematic view of the back side of the partial structure of the card distributing mechanism and the card stacking mechanism according to the preferred embodiment of the present invention; fig. 19 is a back structural diagram of a playing card pushing mechanism and a playing card raising mechanism according to a second embodiment of the present invention in a use state; FIG. 20 is a first exploded view of the structure of FIG. 19; FIG. 21 is a first exploded view of the structure of FIG. 19; fig. 22 is a partial side view of a second embodiment of the present invention; fig. 23 is a schematic partial structural view of a card pushing mechanism and a card lifting mechanism according to a second embodiment of the present invention; fig. 24 is a second partial schematic structural view of the card pushing mechanism and the card lifting mechanism according to the second embodiment of the present invention; fig. 25 is a schematic structural view of a limit section of a tile lifting gear according to a second embodiment of the present invention; fig. 26 is a schematic structural view of a card-pushing rotating member according to a second embodiment of the present invention; fig. 27 is a schematic view of a bracket structure according to a second embodiment of the present invention; fig. 28 is a reference view of a second embodiment of the present invention showing a use state of the stand; FIG. 29 is an exploded view of the structure of FIG. 28;

1. a card distributing mechanism; 11. a card distributing and rotating member; 111. a card-distributing sliding rod; 112. a second protrusion; 12. a board distributing plate; 13. a card distributing sliding block; 131. a card distributing chute; 14. a main rotating member; 141. stacking the cards; 142. card distributing teeth; 143. a first arcuate step; 144. a second arcuate step; 2. a card stacking mechanism; 21. a card support seat; 22. a card inlet; 23. a stacking rotating member; 231. a stacking sliding rod; 232. a first protrusion; 24. a stacking rocker arm; 241. a rocker arm chute; 242. a rocker arm slide bar; 25. a mahjong stacking sliding block; 251. a card stacking chute; 3. a conveying mechanism; 31. a tile sucking wheel; 32. a card outlet; 33. a conveyor belt; 34. a turnover wheel; 35. an arc guide configuration; 4. a card lifting mechanism; 41. a card lifting plate; 411. a card lifting chute; 42. a card lifting and rotating member; 421. a drive gear segment; 422. a tile lifting tooth section; 43. a card lifting gear; 431. a limiting section; 44. a mahjong lifting rocker arm; 45. a card raising driving device; 5. a card pushing mechanism; 51. a card pushing plate; 52. a card-pushing rotating member; 521. a planar section; 522. a slope section; 53. a card pushing rocker arm; 531. a main rocker arm; 532. a secondary rocker arm; 54. a card pushing sliding block; 541. a card pushing chute; 542. a card pushing tension spring; 6. a shuffling mechanism; 61. a card shuffling tray; 7. a card bearing rail; 8. a support; 81. a support edge; 811. positioning blocks; 8111. a first guide hole; 8112. a second guide hole; 812. aligning the groove; 813. a threaded hole; 82. a slope configuration; 9. a return mechanism; 91. an energy storage spring; 92. an energy storage slider; 93. a baffle plate; 10. mah-jong pieces.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1 and 11 to 18, a preferred embodiment of the present invention provides a bidirectional tile distributing mechanism for pushing mahjong tiles 10 onto a tile bearing rail 7 of a mahjong machine, a tile inlet 22 is provided between a first end and a second end of the tile bearing rail 7, the tile distributing mechanism 1 includes a tile distributing driving device, a tile distributing transmission assembly and a tile distributing plate 12; the card distributing driving device is used for driving the card distributing transmission component to drive the card distributing plate 12 to move from the first side to the second side of the card inlet 22 or from the second side to the first side of the card inlet 22 on the card inlet 22, and further push the mahjong cards 10 on the card inlet 22 to the card holding track 7 towards the first end of the card holding track 7 or towards the second end of the card holding track 7.

The bidirectional tile distributing mechanism is applied to the tile bearing track 7 of the mahjong machine, the tile inlet 22 is arranged between the first end and the second end of the tile bearing track 7, compared with the existing arrangement mode arranged at the end part of the tile bearing track 7, the tile inlet 22 is closer to the tile shuffling disc 61, the stroke of conveying mahjong tiles 10 to the tile inlet 22 is shortened, and the structure of an executing mechanism in the mahjong machine can be further simplified, so that the space occupation is reduced; the mahjong tile distributing driving device drives the mahjong tile distributing transmission assembly to drive the mahjong tile distributing plate 12 to move, so that the stacked mahjong tiles 10 in the tile inlet 22 can be pushed to the first end or the second end of the tile bearing rail 7, and the tile inlet and the tile distributing are repeated until the required number of piers is reached, and the purpose that the mahjong tiles are distributed to the two ends of the tile bearing rail 7 through the tile inlet 22 is achieved.

It can be understood that when pushing a stack of tiles 10 into the first end of the tile bearing rail 7 and then pushing another stack of tiles 10, the current tile 10 enters the tile bearing rail 7 and pushes the tile 10 on the same side to move towards the first end of the tile bearing rail 7, and the second end is the same. Furthermore, the card distributing transmission assembly comprises a card distributing rotating part 11 and a card distributing sliding block 13 which slides along the length direction of the card bearing track 7, and the card distributing sliding block 13 is connected with the card distributing plate 12; the card distribution driving device drives the card distribution rotating piece 11 to rotate so as to drive the card distribution sliding block 13 to slide and further drive the card distribution plate 12 to move, and it can be understood that a sliding hole is formed in the card distribution sliding block 13 in a direction parallel to the card bearing track 7, and a sliding shaft is arranged in the sliding hole in a penetrating manner and is fixedly arranged, so that the card distribution sliding block 13 can be limited to slide along the sliding shaft; it can be understood that the dealing driving device is a motor;

furthermore, a card distributing slide rod 111 is formed on the end surface of the card distributing rotating piece 11 facing to one side of the card distributing slide block 13 in a protruding manner; the card distributing sliding block 13 is provided with a card distributing sliding groove 131 which is used for being matched with the card distributing sliding rod 111, the length direction of the card distributing sliding groove 131 is vertical or inclined relative to the card bearing track 7, the vertical direction distance between the two ends of the card distributing sliding groove 131 is larger than or equal to the moving stroke length of the card distributing sliding rod 111 in the card distributing sliding groove 131, and interference cannot be generated; in this embodiment, the card-distributing chute 131 is arranged in a direction perpendicular to the card-bearing track 7, and when the card-distributing rotating member 11 rotates, the horizontal relative distance and the vertical relative distance between the card-distributing sliding rod 111 and the axis of the card-distributing rotating member 11 are changed; at this time, the card distributing slide bar 111 moves in the card distributing chute 131 in the vertical direction to drive the card distributing slide block 13 to move horizontally along the slide hole direction, so as to control the movement of the card distributing plate 12; referring to the drawings, when the tile distributing slide bar 111 is located at the farthest end in the horizontal direction towards the first end of the tile bearing track 7, the tile distributing plate 12 is located at the first side of the tile inlet 22, and after the tile distributing rotary member 11 is driven to rotate forward or backward by 180 degrees, the tile distributing slide bar 111 is located at the farthest end in the horizontal direction towards the second end of the tile bearing track 7, at this time, the tile distributing plate 12 moves to the second side of the tile inlet 22, and in the action process, the tile distributing plate 12 pushes mahjong tiles 10 stacked in the tile inlet 22 towards the second end of the tile bearing track 7 to the tile bearing track 7; it should be noted that, because the vertical distance between the two ends of the card-distributing chute 131 is greater than or equal to the longitudinal stroke of the card-distributing sliding rod 111, when the card-distributing plate 12 is located at any side, the card-distributing rotating member 11 is controlled to rotate by 180 ° in forward rotation or 180 ° in reverse rotation for half a revolution to drive the card-distributing plate 12 to move to the other side.

Furthermore, the bidirectional tile distributing mechanism further comprises a tile stacking mechanism 2 which is integrally arranged, the tile stacking mechanism 2 comprises a tile bearing seat 21, a tile stacking driving device and a tile stacking transmission assembly, the tile bearing seat 21 is used for receiving the mahjong tiles 10 which are conveyed to the tile stacking mechanism 2, the tile stacking driving device is used for driving the tile stacking transmission assembly to drive the tile bearing seat 21 to move up and down, the tile bearing seat 21 is used for controlling the height through lifting so as to receive the mahjong tiles 10 for multiple times and stack the mahjong tiles and ascend to the same height as the tile bearing rail 7, it is required to be noted that the height of the conveying device of the mahjong tiles 10 is fixed, after one mahjong tile 10 is received by reducing the height of the tile bearing seat 21, the height is reduced again to receive the other mahjong tile 10 to realize the stacking and the stacking of the two mahjong tiles 10, then the tile bearing seat 21 is controlled to ascend to the same height as the tile bearing rail 7, and then the tile distributing mechanism 1 distributes the tiles; further, the mahjong tile stacking transmission assembly comprises a mahjong tile stacking rotating part 23, a mahjong tile stacking rocker arm 24 and a mahjong tile stacking sliding block 25 connected with the mahjong tile bearing seat 21; the first end of the mahjong folding rocker arm 24 is hinged and fixed, the second end of the mahjong folding rocker arm 24 protrudes towards one side of the mahjong folding slider 25 to form a rocker arm sliding rod 242, and the mahjong folding slider 25 is provided with a mahjong folding sliding groove 251 used for being matched with the rocker arm sliding rod 242; the end face of the mahjong folding rotating piece 23 facing one side of the sliding rod is protruded to form a mahjong folding sliding rod 231, and the middle part of the mahjong folding rocker arm 24 is provided with a rocker sliding groove 241 matched with the mahjong folding sliding rod 231; the mahjong tile stacking driving device is used for driving the mahjong tile stacking rotating piece 23 to rotate, the mahjong tile stacking sliding rod 231 rotates along with the mahjong tile stacking rotating piece 23 to drive the mahjong tile stacking rocker arm 24 to swing, and the rocker arm swings to drive the mahjong tile stacking sliding block 25 to move up and down;

the specific working principle is as follows: when the mahjong folding rotating piece 23 rotates to the position that the mahjong folding sliding rod 231 is located at the top end of the mahjong folding rotating piece, the length direction of the mahjong folding rocker arm 24 tends to be horizontal, the mahjong tile bearing seat 21 is located at the highest position (namely, the position is parallel to the mahjong tile bearing track 7), and the mahjong folding sliding rod 231 is located at the middle position of the rocker arm sliding groove 241; at the moment, the mahjong folding rotating piece 23 is driven to rotate forwards by 90 degrees or reversely by 90 degrees, so that the vertical relative position of the mahjong folding sliding rod 231 is reduced, the mahjong folding rocker arm 24 is driven to swing downwards, the vertical position and the horizontal position of the rocker arm sliding rod 242 are reduced and changed, at the moment, the rocker arm sliding rod 242 horizontally moves in the mahjong folding sliding groove 251 and drives the mahjong folding sliding block 25 to descend, and the mahjong holding seat 21 descends by about the thickness of one mahjong tile 10; the mahjong machine conveys a mahjong tile 10 to the tile bearing seat 21, then drives the tile stacking rotating piece 23 to continue to rotate 90 degrees along the previous rotating direction, the tile stacking sliding rod 231 moves to the lowest end position, namely the lowest vertical position, drives the tile stacking rocker arm 24 to swing downwards so as to drive the tile bearing seat 21 to descend again by about the thickness of the mahjong tile 10, then the mahjong machine can convey a mahjong tile 10 to the tile bearing seat 21 again to be stacked on the previous mahjong tile 10 to realize the tile stacking, then drives the tile stacking rotating piece 23 to rotate forwards by 180 degrees or reversely by 180 degrees at the current lowest end position so that the tile stacking sliding rod 231 rotates to the highest end position, and raises the tile bearing seat 21 to be parallel to the tile bearing rail 7 based on the transmission principle.

The swing arm sliding groove 241 is formed along the length extending direction of the mahjong folding swing arm 24, and the width dimension of the swing arm sliding groove 241 has radian change, so that when the mahjong folding sliding rod 231 is located in the middle of the swing arm sliding groove 241, the swing arm sliding rod 242 is located at the highest position, when the mahjong folding sliding rod 231 is located at two ends of the swing arm sliding groove 241, the swing arm sliding rod 242 is located at the lowest position, and meanwhile, the actions of the rising and falling processes of the mahjong folding sliding rod tend to be stable; in some embodiments, the card-distributing driving device includes a first driver, and the card-stacking driving device includes another driver, one driver drives the card-distributing transmission assembly to drive the card-distributing plate 12 to move, and the other driver drives the card-stacking transmission assembly to drive the card-receiving base 21 to move.

In this embodiment, the dealing drive assembly includes a main rotating member 14; the outer wall of the mahjong folding rotating piece 23 is provided with teeth, and the outer wall of the mahjong distributing rotating piece 11 is provided with teeth; the main rotating part 14 is provided with a mahjong folding tooth 141 engaged with the teeth of the mahjong folding rotating part 23 in the range from the first angle to the first angle +180 degrees, the main rotating part 14 is provided with a mahjong distributing tooth 142 engaged with the teeth of the mahjong distributing rotating part 11 in the range from the first angle +180 degrees to the first angle +360 degrees, and the mahjong folding tooth 141 and the mahjong distributing tooth 142 are respectively positioned in the circumferential direction of different layers of the main rotating part 14 and are respectively engaged with each other; the radial dimension of the mahjong folding teeth 141, the radial dimension of the mahjong distributing teeth 142, the radial dimension of the teeth of the mahjong folding rotating piece 23 and the radial dimension of the teeth of the mahjong distributing rotating piece 11 are the same; the main rotation piece 14 is used for driving the branch tablet to rotate the piece rotation piece 11 and rotate and fold the tablet rotation piece 23 and do not rotate through dividing the drive of tablet drive arrangement, or drive the rotation of fold tablet rotation piece 23 and rotate and divide the tablet rotation piece 11 and do not rotate through dividing the drive of tablet drive arrangement, it can be understood that, only need set up a driver in this embodiment, can drive the main rotation piece 14 by a control module control driver and carry out positive and negative rotation and then realize controlling respectively and hold tablet seat 21 and branch tablet board 12's removal and the two different actions, avoid interfering, realize complicated action through low-cost mechanical transmission structure, compare and use two motor drive and can reduce cost by a wide margin, and the reduction space of very big degree occupies, compact structure.

It can be understood that the aforementioned driver is controlled by the control module, and controls the positive and negative rotation of the main rotating member 14 by controlling the positive and negative rotation of the motor, and when the device is specifically installed, the angle of the tile folding rotating member 23 and the angle of the tile distributing rotating member 11 are set such that the tile receiving seat 21 is located at the highest position or the lowest position, the tile distributing plate 12 is located at the first side or the second side, the first angle position of the main rotating member 14 is at the critical position where the tile folding teeth 141 are engaged with the tile folding rotating member 23, and the tile distributing teeth 142 are at the critical position where they are engaged with the tile distributing rotating member 11; as shown in the figure, taking the mahjong tile bearing seat 21 located at the highest position and bearing the mahjong tiles 10 and the tile distributing plate 12 located at the second side of the tile inlet 22 as an example, at this time, the main rotating member 14 rotates forward 180 degrees (the forward direction is only the assumed relative direction for distinguishing), the tile distributing plate 12 moves from the second side to the first side to push the mahjong tiles 10 to the first end of the tile bearing track 7, the main rotating member 14 stops stopping after rotating forward 90 degrees, the tile bearing seat 21 descends a distance of the thickness of the mahjong tiles 10, the mahjong machine conveys a mahjong tile 10 to the tile bearing seat 21, the main rotating member 14 continues rotating forward 90 degrees and stops, the tile bearing seat 21 descends a distance of the thickness of the mahjong tile 10 to the lowest position again, the mahjong machine conveys a mahjong tile 10 to the upper mahjong tile 10 again, at this time, the main rotating member 14 can be controlled to rotate in reverse 180 degrees, the tile bearing seat 21 ascends to the highest position, the main rotating member 14 continues rotating in reverse 180 degrees, the tile distributing plate 12 moves from the first side of the tile inlet 22 to the second side to push the second end of the tile bearing track 7; it should be noted that, the lengths of the tile bearing tracks 7 on both sides of the tile inlet 22 are different, the number of the piers of the mahjong tiles 10 which can be borne is different, in the action process, after the tile distributing plate 12 pushes the tiles towards the first side of the tile inlet 22, the main rotating member 14 rotates reversely by 180 degrees, so that the tile distributing plate 12 returns to the second side of the tile inlet 22, the tile bearing seat 21 is lowered to the lowest position after two 90-degree reverse rotations, and the steps can be repeated reversely to continue to stack and distribute the tiles; similarly, when the mahjong bearing seat 21 rises to the highest position and does not bear the mahjong tiles 10 or the middle height and does not bear the mahjong tiles 10 or the lowest position, the position of the mahjong splitting plate 12 before splitting is selected based on the positive and negative rotation mode, the number of the piles of the mahjong tiles 10 on the two sides of the mahjong inlet 22 is further controlled, bidirectional splitting can be achieved based on positive and negative rotation of the motor through the motor and the transmission structure, the structure is compact, and the space occupation is low.

In this embodiment, the outer wall of the rotation member 23 is symmetrically provided with first protrusions 232 having inner arc depressions, and the main rotation member 14 is provided with first arc steps 143 for forming inner arc depressions with the first protrusions 232 in a range from a first angle +180 ° to a first angle +360 °; the outer wall of the card-distributing rotating member 11 is symmetrically formed with second protrusions 112 with inner arc depressions; the main rotation member 14 is provided with a second arc step 144 for matching with the inner arc recess of the second protrusion 112 in the range of the first angle to the first angle +180 °; the first arc-shaped step 143 is used for matching with the first protrusion 232 when the main rotating member 14 drives the tile distributing rotating member 11 to rotate, so that the outer arc surface of the first arc-shaped step 143 slides along the inner arc recess of the first protrusion 232 to limit the rotation of the tile stacking rotating member 23; the second arc-shaped step 144 is used for matching with the second protrusion 112 when the main rotating member 14 drives the mahjong folding rotating member 23 to rotate, so that the outer arc surface of the second arc-shaped step 144 slides along the inner arc recess of the second protrusion 112 to limit the rotation of the mahjong splitting rotating member 11; when the main rotating member 14 is at the first angle and the first angle +180 degrees, the main rotating member is located at the critical position where the mahjong tile stacking teeth 141 are meshed with the mahjong tile stacking rotating member 23, and the mahjong tile distributing teeth 142 are located at the critical position where the mahjong tile distributing rotating member 11 is meshed, at this time, one end point of the arc-shaped end surface of the first arc-shaped step 143 is located at the middle position where the inner arc of the first protrusion 232 is depressed, one end point of the arc-shaped end surface of the second arc-shaped step 144 is located at the middle position where the inner arc of the second protrusion 112 is depressed, when the main rotating member 14 drives the mahjong tile stacking rotating member 23 to rotate, along with the rotation, the arc-shaped surface of the first arc-shaped step 143 is separated from the inner arc of the first protrusion 232, the arc-shaped surface of the second arc-shaped step 144 moves along the arc-shaped depressed by the inner arc of the second protrusion 112, and the two are concentric, so that the rotation of the mahjong tile distributing rotating member 11 is limited, and the interference caused by the influence of friction, gravity and the like is avoided; the same principle is adopted for the rotation limiting mode of the mahjong folding rotating piece 23 when the main rotating piece 14 drives the mahjong distributing rotating piece 11 to rotate; through setting up foretell limit structure, with its and action part structure an organic whole setting, compact structure and part quantity retrench simultaneously, the space occupies for a short time, is difficult for receiving factors such as deformation to influence, and only needs a drive arrangement drive can realize the cooperative motion of high accuracy.

Further, the bidirectional tile distributing mechanism is located at the end portion of the tile bearing rail 7, the bidirectional tile distributing mechanism is provided with a return mechanism 9, the return mechanism 9 comprises an energy storage sliding block 92 and an energy storage spring 91, the energy storage sliding block 92 is arranged on the tile bearing rail 7, the energy storage sliding block 92 is used for being abutted to the tiles 10 located at the end portion and moving when the last group of tiles 10 are pushed to the corresponding end of the tile bearing rail 7, so that the energy storage spring 91 is compressed to provide elastic force to enable the tiles 10 to return to be abutted to the tile distributing plate 12, it can be understood that the head portion of the energy storage spring 91 is in contact with the tiles 10 and compressed to store energy when the last group of tiles 10 are pushed to the second end of the tile bearing rail 7, the last group of tiles 10 are not distributed on the tile bearing seat, and the compressed energy storage spring 91 provides elastic force to enable the tiles 10 located on the second side of the tile inlet 22 to integrally move to be abutted to the tile distributing plate 12 towards the first end of the tile bearing rail 7, so that the gap between the whole row of tiles 10 is smaller, and the tiles 10 are more attractive.

Furthermore, the tail end of the energy storage spring 91 is provided with a baffle, the return mechanism 9 is provided with a plurality of installation positions of the baffle, so that the installation positions of the baffle can be changed according to the number of the blocks of the mahjong tiles 10 with different rules in different regions, the mahjong tiles are only contacted with the mahjong tiles 10 when the mahjong tiles 10 are pushed into the second end of the tile distribution track for the last time, and the phenomenon that the mahjong tiles are interfered or cannot be contacted for energy storage return due to premature contact is avoided.

Example one

The embodiment provides a mahjong machine, which is applied with a bidirectional tile distributing mechanism.

Example two

Referring to fig. 1 to 29, a mahjong machine, this mahjong machine is for exempting from to push away tablet mahjong machine, has applied the utility model discloses preferred embodiment's two-way mechanism of dealing with tiles, this mahjong machine still includes:

the automatic mahjong tile shuffling device comprises a table body, a shuffling mechanism 6 arranged in the table body, a conveying mechanism 3, a tile bearing track 7, a tile pushing mechanism 5, a tile lifting mechanism 4 and a control module, wherein the conveying mechanism 3, the tile bearing track 7, the tile pushing mechanism 5, the tile lifting mechanism 4 and the control module are arranged in the table body; the mahjong machine comprises four integrated modules, the integrated modules are obliquely arranged relative to the edge of the table body, every two adjacent integrated modules are vertical, the first end of one integrated module is vertical to the position between the first end and the second end of the adjacent integrated module, and a tile bearing track 7 is formed on the integrated modules; the conveying mechanism 3 is arranged at the first end of the integrated module and is used for conveying the mahjong tiles 10 of the shuffling mechanism 6 to the tile stacking mechanism 2 of one integrated module adjacent to the first end of the integrated module; the mahjong tile bearing seat 21 is used for stacking the mahjong tiles 10 conveyed to the tile stacking mechanism 2 and then conveying the stacked mahjong tiles to the tile distributing mechanism 1; the tile pushing mechanism 5 is used for pushing the mahjong tiles 10 in rows on the tile bearing track 7 to the tile lifting mechanism 4; the mahjong lifting mechanism 4 comprises a mahjong lifting plate 41 which is parallel to the mahjong bearing track 7, the mahjong lifting plate 41 is used for receiving the row of mahjong tiles 10 which are pushed to the mahjong lifting mechanism 4 by the mahjong pushing mechanism 5, and the mahjong lifting mechanism 4 is used for controlling the mahjong lifting plate 41 to lift so as to lift the mahjong tiles 10 on the mahjong lifting plate 41 to the surface of the table body; the control module is used for respectively controlling the actions of the shuffling mechanism 6, the conveying mechanism 3, the card stacking mechanism 2, the card distributing mechanism 1, the card pushing mechanism 5 and the card lifting mechanism 4.

The integrated module of the mahjong machine is an integrated structure, compared with the existing split structure, the integrated design is realized by fully utilizing the cooperative fit relation among the integrated modules, so that various actions are realized, and a large number of redundant structures are reduced;

the conveying mechanism 3 of the mahjong tile pushing-free mahjong machine is arranged at the first end of an integrated module and is positioned below a tile bearing track 7, the conveying mechanism 3 is arranged in a layered mode and can further shorten the arrangement length of the integrated module, received mahjong tiles 10 are conveyed to a tile stacking mechanism 2 of another integrated module connected with the first end of the integrated module, it can be understood that the integrated module is respectively provided with four sides and sequentially perpendicular to each other in a mahjong machine, the first end of the integrated module is connected with an adjacent integrated module, the connecting position is located at a tile bearing seat 21 of the tile stacking mechanism 2 of the adjacent integrated module, tiles are taken by the conveying module and then conveyed to the tile stacking mechanism 2 of the adjacent integrated module, the four sides of the integrated module are combined to form an approximate windmill structure, the finally lifted square of the mahjong tile wall is also an approximate windmill structure, meanwhile, the integrated module is obliquely arranged relative to the edge of a table body, and each square of the mahjong tile wall is inclined angle relative to the edge of the table body, and the mahjong tile pushing-free mahjong tile pushing effect can be realized based on the structure; the inclined design mode fully utilizes the internal space of the table body, so that the whole integrated module and the card wall output to the surface of the table body are arranged forwards towards the center of the table body, and meanwhile, the integrated module is ensured to have enough structural length and enough structural arrangement space based on the inclined design, and further, the functions of conveying, stacking, distributing, pushing and lifting cards can be harmoniously integrated into each integrated module;

the conveying mechanism 3 and the tile stacking mechanism 2 of the existing mahjong machine are arranged in a side shell and integrally arranged, and mahjong tiles 10 need to be conveyed to the tile stacking mechanism 2 at the end part through the conveying mechanism 3, so that the integral length of the mahjong tiles is inevitably larger than the length of a row of mahjong tiles 10, the structure is complex, the mahjong tiles 10 grabbed by the conveying mechanism 3 are conveyed to the tile stacking mechanism 2 of an adjacent integrated module through the integrated module, and the problem that two side shells in the mahjong machine are easy to interfere is solved; moreover, the connecting structure does not need to arrange complex action mechanisms at two ends of the tile bearing rail 7, the whole length of the integrated module can be close to the tile bearing rail 7, and further the length of the shell of the connecting structure is obviously shortened compared with that of the existing mahjong machine action mechanism, so that the structure is simplified, the space utilization is high, and the structure is compact; the tile distributing mechanism 1 of the integrated module can perform bidirectional tile distributing, and further can selectively push mahjong tiles 10 stacked on the tile bearing seat 21 to the tile bearing rails 7 on any side of the tile inlet 22 based on the connecting structure, the total length of the tile bearing rails 7 combined with the tile inlet 22 can be matched with the length of a tile wall, and the length of the integrated module can be reduced based on the structure of the conveying mechanism 3 and the bidirectional tile distributing structure; after the tiles are distributed to the mahjong tiles 10 with enough piers on the tile bearing rail 7, the tile pushing mechanism 5 pushes the tile walls stacked in rows to the tile lifting plate 41, and the tile lifting plate 41 is controlled to lift to be transported to the desktop of the mahjong machine.

It can be understood that, the control module controls each mechanism to work respectively to complete the above actions, and the control module may be a main control board in the prior art, and the implementation manner thereof is the prior art, and this embodiment is not described in detail.

In this embodiment, the conveying mechanism 3 includes a tile sucking wheel 31 located above the tile shuffling tray 61 of the mahjong machine and a tile outlet 32 located at the first end of the integrated module, the tile sucking wheel 31 is used for sucking the mahjong tiles 10 on the tile shuffling tray 61, which are located below the tile sucking wheel 31 and have the back faces upward, and the mahjong tiles are turned over to the upper side of the tile sucking wheel 31 and conveyed to the tile outlet 32 through the conveying belt 33; when the mahjong tiles 10 are disordered and arranged on the shuffling tray 61, the mahjong tiles 10 are adjusted to be upward in back and can pass below the tile sucking wheel 31 along with the movement of the shuffling tray 61, the back of the mahjong tiles 10 used by the mahjong machine is provided with magnetic materials, on the basis of the magnetic materials, the tile sucking wheel 31 can suck the mahjong tiles 10, the mahjong tiles are sucked by the tile sucking wheel 31 and turned over to the conveying belt 33, the tile sucking wheel 31 is also used for driving the conveying belt 33 to act at the same time, and then the mahjong tiles 10 on the conveying belt 33 are conveyed to the tile outlet 32 at the first end of the integrated module, so that the mahjong tiles 10 are conveyed to another integrated module adjacent to the first end of the current integrated module; because the tile sucking wheel 31 must be positioned above the tile shuffling disk 61, the structure of the conventional mahjong machine cannot be directly applied to the tile pushing-free mahjong machine, and the problems of structural interference and high space occupancy rate of the existing conveying mechanism 3 applied to the tile pushing-free mahjong machine are solved based on the arrangement mode of the conveying mechanism 3 and the connection structure among all the integrated modules.

It should be noted that the conveyer belt 33 is located below the card bearing rail 7, and the conveying mechanism 3, the card bearing rail 7 and the card shuffling tray 61 are distributed up and down in sequence, so that the structure is simple and compact, and the space utilization rate is high.

Further, the stacking mechanism 2 comprises a card inlet 22 connected with the card outlet 32 of the adjacent integrated module, and the card holder 21 is used for moving up and down in the card inlet 22 and receiving the mahjong tiles 10 output from the card outlet 32 to the card inlet 22.

The first end of the integrated module is used for being vertically connected with another integrated module so that the card outlet 32 of the integrated module is connected with the card inlet 22 of the adjacent integrated module, namely the mahjong tiles 10 on the conveyor belt 33 are conveyed to the card outlet 32 and then output to the card inlet 22 of the adjacent integrated module;

specifically, the mahjong stacking mechanism 2 comprises a mahjong support seat 21, wherein the mahjong support seat 21 is used for moving in the mahjong inlet 22 in a lifting way and receiving the mahjong tiles 10 output to the mahjong inlet 22 from the mahjong outlet 32; the integrated module is provided with a turning wheel 34 positioned at the card inlet 22 or the card outlet 32, and the turning wheel 34 is used for enabling the mahjong cards 10 which are output to the card inlet 22 from the card outlet 32 and face upwards to turn over to face upwards when passing through the turning wheel 34; when the mahjong tiles 10 with the back faces are adsorbed by the tile adsorbing wheel 31 and turned over to the conveyer belt 33 for conveying, the mahjong tiles 10 are changed to face the front faces, and the mahjong tiles 10 are pushed by the conveyer belt 33 to turn over again when the tile outlet 32 passes through the turning wheel 34 so as to change the mahjong tiles 10 to face the back faces upwards;

it can be understood that the integrated module is provided with the arc-shaped guide structure 35 for guiding the mahjong tiles 10 on the tile shuffling mechanism 6 of the mahjong machine to the lower part of the tile sucking wheel 31 and guiding the mahjong tiles 10 with unmatched postures out of the conveying mechanism 3, in practical application, after the four-direction integrated module is installed and fixed, the arc-shaped guide structures 35 of the integrated modules are sequentially connected and are in a circular shape matched with the size of the tile shuffling disk 61, so that the mahjong tiles 10 on the tile shuffling disk 61 can be grabbed and conveyed by the conveying mechanism 3, and when the tile shuffling disk 61 rotates for shuffling, the mahjong tiles 10 are thrown to the periphery under the centrifugal action and rotate along with the tile shuffling disk due to the height of the middle part of the tile shuffling disk 61, namely can move along the arc-shaped guide structure and pass through the lower part of the tile sucking wheel 31.

In the embodiment, the transmission part of the tile lifting mechanism 4 and the transmission part of the tile pushing mechanism 5 are integrally arranged in the middle of one side of the integrated module close to the edge of the mahjong machine, and the space between the obliquely arranged integrated module and the edge of the table body is fully utilized;

in this embodiment, the transmission part of the stacking mechanism 2 and the transmission part of the dealing mechanism 1 are integrally arranged at the second end of the integrated module, the tile inlet 22 is arranged at one side of the transmission part of the stacking mechanism and is positioned between the first end and the second end of the integrated module, that is, the tile bearing seat 21 arranged in the tile inlet 22 is connected with the transmission part of the stacking mechanism 2, when the tile stacking mechanism is applied to a mahjong machine, the first end of the integrated module is connected between the first end and the second end of the adjacent integrated module, the four-side integrated module forms a structure similar to a windmill, the integrated module is arranged in the mahjong machine at a certain angle, and finally four tile walls rising to the desktop are similar to the windmill structure, the space between the four tile walls is small, the tiles do not need to be pushed again, and the use is more convenient.

In this embodiment, the card pushing mechanism 5 includes a card pushing driving device, a card pushing transmission assembly and a card pushing plate 51; the pushing driving device is used for driving the pushing transmission assembly to drive the pushing plate 51 to move so as to push the mahjong tiles 10 stacked in rows on the tile bearing rail 7 to the tile lifting plate 41.

In this embodiment, the tile lifting mechanism 4 further includes a tile lifting driving device 45 and a tile lifting transmission assembly, and the control module is configured to control the tile lifting driving device 45 on the square integration module to synchronously drive the corresponding tile lifting transmission assembly, so as to drive the tile lifting plate 41 to move up and down, and further lift the mahjong tiles 10 on the tile lifting plate 41 to the surface of the table body.

The tile lifting transmission assembly and the tile pushing transmission assembly are integrally arranged in the same integrated module, the driving device drives the tile lifting plate 41 and the tile pushing plate 51 to stagger and act cooperatively through the transmission assembly, the tile pushing plate 51 is controlled to push the tile wall on the tile bearing rail 7 to the tile lifting plate 41, and then the tile lifting plate 41 is controlled to ascend to enable the tile wall to ascend to the desktop; the mahjong tile lifting transmission assembly and the mahjong tile pushing transmission assembly are integrally arranged in the same integrated module, so that the occupied space is reduced, the volume of a mahjong tile feeding mechanism is reduced, the assembly steps are simplified, and the cost is reduced;

furthermore, the tile lifting driving device 45 comprises a driver which can be a motor specifically, the tile lifting transmission assembly comprises a tile lifting rotating member 42, a tile lifting gear 43 engaged with the tile lifting rotating member 42 and a tile lifting rocker arm 44, the fixed end of the tile lifting rocker arm 44 is connected with the tile lifting gear 43, and the tile lifting rotating member 42 is used for being driven by the tile lifting driving device 45 to rotate so as to drive the tile lifting gear 43 to rotate so as to drive the tile lifting rocker arm 44 to swing; the movable end of the tile lifting rocker arm 44 is connected with the tile lifting plate 41, the tile lifting rocker arm 44 is used for swinging along with the rotation of the tile lifting gear 43 so as to drive the tile lifting plate 41 to lift or lower, wherein the tile lifting rocker arm 44 is positioned on one side of the tile lifting mechanism facing the tile shuffling tray 61, the tile lifting rotating piece 42 and the tile lifting gear 43 are positioned on the other side of the tile lifting mechanism, and the rotating shaft of the tile lifting gear 43 penetrates through the tile lifting mechanism to be connected with the tile lifting rocker arm 44, so that even though the transmission part of the tile lifting mechanism 4 and the tile lifting driving device 45 can be arranged on the outer side of the tile lifting mechanism, the interference is avoided;

it should be noted that the card lifting mechanism 4 of the present embodiment includes two sets of symmetrically disposed card lifting transmission assemblies, that is, two sets of symmetrically disposed card lifting swing arms 44 may be provided to support the card lifting plate 41 firmly; the card lifting rotating member 42 is provided with a transmission tooth section 421 and a card lifting tooth section 422 which are distributed along the axial direction, the card lifting tooth section 422 is used for being meshed with the card lifting gear 43, and the transmission tooth section 421 is used for being meshed with the card lifting rotating member 42 of the adjacent card lifting transmission component; the radial dimension of the transmission tooth section 421 is larger than that of the mahjong lifting tooth section 422, so that interference is avoided, and the cooperation of the two rocker arms can be realized by the driving of one mahjong lifting driving device 45 through the structure.

The card pushing transmission assembly comprises a card pushing rotating piece 52, a card pushing rocker arm 53 and a card pushing sliding block 54, wherein the card pushing rotating piece 52 is driven by the card pushing driving device to rotate so as to drive the card pushing rocker arm 53 to swing; the movable end of the tile pushing rocker arm 53 is connected with a tile pushing sliding block 54, and the tile pushing plate 51 is connected with the tile pushing sliding block 54; the card pushing rocker arm 53 is used for swinging along with the rotation of the card pushing rotating piece 52 so as to drive the card pushing sliding block 54 to move and further drive the card pushing plate 51 to move; it can be understood that the moving direction of the card pushing sliding block 54 is fixed, and is adapted to the moving track of the end of the card pushing rocker arm 53, a card pushing chute 541 for matching with the card pushing rocker arm 53 is formed in the card pushing sliding block 54 in a direction perpendicular to the moving direction, and when the card pushing rocker arm 53 drives the card pushing sliding block 54 to move horizontally, the moving end of the card pushing rocker arm 53 slides in the card pushing chute 541;

specifically, a plane section 521 and an inclined plane section 522 are circumferentially distributed on the first end surface of the card pushing rotating member 52; the card pushing rocker arm 53 comprises a main rocker arm 531 and a secondary rocker arm 532 which are coaxially arranged, the movable end of the secondary rocker arm 532 abuts against the first end face of the card pushing rotating piece 52, and then the movable end of the secondary rocker arm 532 abuts against the plane section 521 to keep static or abuts against the inclined plane section 522 along with the rotation of the card pushing rotating piece 52 and moves along the inclined plane section 522 to drive the main rocker arm 531 to swing; the movable end of the main rocker 531 is connected with the tile pushing sliding block 54; it can be understood that, at an initial position (the initial position is a temporary relative position, which is convenient for distinguishing subsequent actions), the movable end of the secondary rocker arm 532 abuts against the plane section 521 of the first end surface of the tile pushing rotating member 52, and along with the rotation of the tile pushing rotating member 52, the movable end of the secondary rocker arm 532 abuts against the inclined surface section 522 thereof, and moves along the inclined surface section 522 along with the rotation of the tile pushing rotating member 52, so as to change the angle of the secondary rocker arm 532, thereby changing the angle of the primary rocker arm 531 coaxially connected with the secondary rocker arm 532, so that the primary rocker arm 531 swings to drive the tile pushing slider 54 to move horizontally, thereby realizing the tile pushing of the tile pushing plate 51;

further, the card pushing mechanism 5 includes a card pushing tension spring 542 for providing an elastic force to reset the moved card pushing slider 54, that is, when the card pushing rotating member 52 rotates until the secondary rocker arm 532 disengages from the inclined section 522, the card pushing slider 54 is reset by the elastic force to drive the card pushing rocker arm 53 to reset so that the secondary rocker arm 532 abuts against the plane section 521;

furthermore, the card pushing plate 51 is provided with a yielding groove corresponding to the card distributing plate 12, and when the card is pushed, the card distributing plate 12 is positioned in the yielding groove to avoid interference;

in some embodiments, the card-lifting driving device 45 may be a driver, and the card-pushing driving device may be a driver; in the embodiment, the card lifting driving device 45 and the card pushing driving device are set as the same driver, and the card lifting driving device 45 is used for being in driving connection with the card lifting rotating piece 42 of any one group of card lifting transmission components; the tile pushing rotating piece 52 is coaxially arranged with a group of tile lifting rotating pieces 42 of the adjacent tile lifting driving device 45 and further synchronously rotates along with the tile lifting rotating pieces 42; specifically, the tile lifting tooth section 422 is an arc-shaped tooth arranged in a range from a first angle to a second angle of the tile lifting rotating member 42, and the part of the tile lifting tooth section 422, which is located outside the arc-shaped tooth, is used for not driving the tile lifting rocker arm 44 to swing when the tile pushing rotating member 52 rotates to the inclined plane section 522 and is abutted against the secondary rocker arm 532, so that the tile lifting plate 41 is kept static when the tile pushing plate 51 pushes the tile, that is, the inclined plane section 522 of the tile pushing rotating member 52 is arranged in a range from the second angle to the first angle of the tile pushing rotating member 52 and is arranged in a staggered manner with the tile lifting tooth section 422; based on the above, the actions of the card pushing plate 51 and the card lifting plate 41 can be respectively controlled by controlling the forward and reverse rotation of a driver;

for example, a card-lifting rotating member 42 is engaged with the starting end of the card-lifting gear 43 at a first angle, the movable end of the card-lifting rocker arm 44 is at the highest position, and the card-lifting plate 41 is located at the height of the table top of the mahjong machine; the driving device drives the tile lifting rotating piece 42 connected with the driving device to rotate from a first angle to a second angle (defined as positive rotation), drives the other tile lifting rotating piece 42 to synchronously rotate (reverse rotation), so as to drive the two tile lifting gears 43 to rotate, so that the two tile lifting rocker arms 44 swing, the movable end of the tile lifting rocker arm 44 moves to the lowest limit position along with the swing from the highest limit position, the other tile lifting rotating piece 42 drives the coaxially arranged tile pushing rotating piece 52 to synchronously rotate when rotating, and the secondary rocker arm 532 abuts against the plane section 521; when the tile lifting rotating member 42 rotates to a second angle, the tile lifting tooth section 422 is disengaged from the tile lifting gear 43, the secondary rocker arm 532 abuts against the plane section 521, and at the moment, other actuating mechanisms of the mahjong machine can act on the tile bearing track 7 to distribute tiles; subsequently, the tile lifting driving device 45 is continuously controlled to drive the tile lifting rotating member 42 to rotate forwards so as to drive the other tile lifting rotating member 42 to rotate forwards so as to drive the tile pushing rotating member 52 to rotate, the secondary rocker arm 532 and the inclined plane section 522 generate relative movement, and the tile lifting gear 43, the tile lifting rocker arm 44 and the tile lifting plate 41 keep still; swinging along with the gradient change of the contact position of the movable end of the secondary rocker arm 532 and the inclined plane section 522, so that the tile pushing plate 51 acts to push the tile wall on the tile bearing track 7 to the tile lifting plate 41, and the movable end of the secondary rocker arm 532 is positioned at the top point of the inclined plane section 522; then the driving device is controlled to rotate reversely, so that the secondary rocker arm 532 swings back and returns along the inclined plane section 522 under the action of the tile pushing spring, the tile pushing plate 51 resets, the secondary rocker arm 532 swings to be matched with the plane section 521, the arc-shaped step of the tile lifting rotating piece 42 slides out of the inner arc groove of the limiting section 431 of the tile lifting gear 43, the motor continues to rotate reversely, the secondary rocker arm 532 is matched with the plane section 521, the tile pushing plate 51 does not move, meanwhile, the tile pushing spring keeps the tile pushing plate 51 static and is not driven, the tile lifting rocker arm 44 swings, the movable end of the tile lifting rocker arm rises and slides in the tile lifting chute 411 of the tile lifting plate 41, and the tile lifting plate 41 is driven to rise to realize tile lifting;

based on above-mentioned structure, this mechanism of registering license rises tablet drive assembly and pushes away tablet drive assembly and realize integrative setting, spare part is few to only need set up a drive arrangement and through controlling its positive and negative rotation can realize pushing away the tablet action and rise the crisscross, the cooperation of tablet action, the structure is retrencied, space utilization is high, and reduce spare part cost and driver use cost by a wide margin, simultaneously, realize each mechanism in an integrated module's integrated setting based on above-mentioned structure, retrench the structure.

In some embodiments, the card-lifting gear 43 may be a circular gear or a sector gear, and may be engaged with the card-lifting toothed segment 422; in this embodiment, the tile lifting gear 43 is a sector gear, and one side of the outer annular surface of the tile lifting gear 43, which is formed with a sector-shaped limiting section 431 matched with the sector gear in an axially protruding manner, of the limiting section 431 is provided with an inner arc recess; the tile lifting rotating member 42 is further provided with arc-shaped steps which are matched with the inner arc depressions of the limiting sections 431, the arc-shaped steps are arranged in a range from a third angle to a fourth angle of the tile lifting rotating member 42 (in a range from a second angle to a first angle of the tile lifting rotating member 42), and the arc-shaped steps are used for turning into the inner arc depressions of the limiting sections 431 and further limiting the rotation of the tile lifting gear 43 when the tile lifting gear 43 rotates to a position which is separated from the tile lifting tooth sections 422 and drives the movable end of the tile lifting rocker arm 44 to be located at a height lower limit position, so that the tile lifting plate 41 is kept static when the tile pushing plate 51 pushes tiles, for example, when the tile lifting tooth sections 422 are disengaged from the tile lifting gear 43 and the movable end of the secondary rocker arm 532 is matched with the inclined plane section 522, the arc-shaped steps of the tile lifting rotating member 42 are turned into the inner arc depressions of the limiting sections 431 of the tile lifting gear 43, the arc depressions and the arc depressions are concentric, so that the rotation of the tile lifting gear 43 is limited, so that the angle of the tile lifting rocker arm 44 is kept unchanged, and the tile lifting plate 41 is prevented from moving when the end point of the tile pushing plate 51 moves to a static position, and the tile lifting plate is required to be supported.

In some embodiments, the swing arms of the two sets of card lifting mechanisms 4 are arranged in a crossed manner and hinged at the crossed position to form a scissor structure, and because the card lifting plate 41 needs to lift a card bearing wall, the supporting structure of the two sets of swing arms is more stable based on the above structure, and deformation caused by long-time use is prevented.

Based on the above, the control module of the present embodiment is used to control the actions of the shuffling mechanism 6, the conveying mechanism 3, the stacking mechanism 2, the dealing mechanism 1, the pushing mechanism 5 and the raising mechanism 4, and is provided with sensors such as sensors and counters at partial positions; for example, the control module controls the tile distributing driving device to drive the tile bearing seat 21 to be located at the middle position, controls the conveying mechanism 3 to work to convey one mahjong tile 10 to the tile bearing seat 21, controls the tile lifting driving device 45 to drive the tile bearing seat 21 to be lowered to the lowest position, controls the conveying mechanism 3 to work to convey one mahjong tile 10 to the tile bearing seat 21 again for stacking, controls the tile lifting driving device 45 to drive the tile bearing seat 21 to be raised to the highest position, controls the tile distributing driving device to drive the tile distributing plate 12 to act for distributing the tiles through the control module, further controls the tile distributing plate 12 to reset or keep the original position, repeats the steps through the counter until the tile bearing rail 7 reaches the preset number of the tiles, and controls the tile bearing seat 21 to bear the last tile 10 without conducting the tile distributing action; the control module controls the card lifting driving device 45 to drive the card pushing plate 51 to move so as to push the card wall on the card bearing rail 7 and the card bearing seat 21 to the card lifting plate 41, and the card lifting driving device 45 is continuously controlled to drive the card lifting plate 41 to move so as to lift the card wall to the surface of the table body.

In this embodiment, the bottom surface of the tile lifting plate 41 is provided with a guide rod, the mahjong machine comprises an integrated support 8 arranged in the table body, and the support 8 is provided with a guide structure matched with the guide rod. The support 8 of the lifting support structure is of an integrally formed structure, and is arranged in a mahjong machine to position each tile lifting plate 41 in the mahjong machine, each tile lifting plate 41 is driven by a corresponding driving device to lift, and the lifting support structure can position and guide each tile lifting plate 41, keep the relative position of each tile lifting plate 41 and the corresponding position of a tile outlet groove on the table top of the mahjong machine, does not need to be repeatedly adjusted, can realize alignment after the support 8 is installed in alignment, and can avoid the structural deformation influence caused by long-term use; and, compare and use integral type to rise tablet board 41, lead to everywhere elevating speed different under the different circumstances of each drive arrangement synchronous work but operating mode, this lift bearing structure can avoid the dead phenomenon of mechanism card because of the elevating speed difference leads to, and the action is stable, smooth and easy, and the structure is firm.

Specifically, the support 8 has four pairwise perpendicular supporting edges 81, and each of the mahjong lifting plates 41 is correspondingly arranged in parallel by abutting against one of the supporting edges 81, so that the positioning and righting effects are provided for the mahjong lifting plates 41 under the long-term surface stress condition, and the influence of stress deformation in long-term use is reduced.

Furthermore, the first end of each supporting edge 81 is vertically connected between the first end and the second end of the first side of the adjacent supporting edge 81, each tile lifting plate 41 is correspondingly arranged on the second side of one supporting edge 81, the support 8 can be particularly applied to a tile pushing-free mahjong machine, every two of the four tile lifting plates 41 are vertical to each other and are of an approximate windmill structure, and tiles can be lifted to a tile wall behind a table top without being pushed again by a player.

In this embodiment, the positioning structure includes positioning blocks 811 respectively formed on the bottom surfaces of the supporting sides 81, the positioning blocks 811 are disposed near the second sides of the adjacent supporting sides 81, and the distance between the positioning blocks 811 and the adjacent supporting sides 81 is smaller than the width of the card lifting plate 41; the positioning block 811 is provided with a first guide hole 8111 and a second guide hole 8112, the first guide hole 8111 is located on the first side of the supporting edge 81, the second guide hole 8112 is located on the second side of the supporting edge 81, the card lifting plate 41 is provided with at least two positioning rods, one positioning rod of the card lifting plate 41 is matched with the corresponding second guide hole 8112 of the supporting edge 81, and the first guide hole 8111 of the supporting edge 81 adjacent to the other positioning rod of the card lifting plate 41 is matched, so that the structure can guide the lifting action of the card lifting plate 41 and position the card lifting plate 41, the two positioning rods of each card lifting plate 41 are respectively located on the positioning blocks 811 of the two adjacent supporting edges 81, the support is stable, and the structure is compact; the two positioning rods are distributed diagonally on the card lifting plate 41, so that the bottom support is more stable, and deformation caused by no support due to stress on one side is avoided.

In this embodiment, the first side of each supporting edge 81 is surrounded to form a circular cavity, the inner circular surface of the circular cavity is triangular or circular, which has a certain supporting effect on the support 8 to prevent deformation, and the circular shape is preferably selected to avoid interference with the mahjong tiles 10 pushed into the mahjong machine from the tabletop of the mahjong machine;

furthermore, the ring cavity is provided with a slope structure, the slope of the slope structure gradually descends from the first side of the supporting edge 81 to the center of the ring cavity, and then part of the mahjong tiles 10 pushed into the mahjong machine by the player can slide to the shuffling tray 61 along the slope structure;

during specific application, the tile lifting plate 41 is connected with an executing mechanism of the mahjong machine, the executing mechanism is located on the second side of the corresponding supporting edge 81 and is abutted to the first side of the adjacent supporting edge 81, and therefore mutual positioning is achieved, assembly accuracy is improved, and deformation caused by long-term stress of the mechanism is avoided.

Further, a second end of the supporting edge 81 is provided with an alignment groove 812; the table body of the mahjong machine is internally provided with an alignment bulge matched with the alignment groove 812, so that the mounting position of the bracket 8 is positioned, and the assembly precision is ensured; the second end of the supporting edge 81 is provided with a threaded hole 813 at the position of the alignment groove 812, the alignment protrusion is formed on the mounting plate, the mounting plate is fixedly arranged in the table body and is provided with a mounting hole for penetrating a screw, and the mounting plate is connected with the inner wall of the table body after the supporting edge 81 is mounted on the mounting plate, so that the mounting operation is more convenient, and the fixing is stable;

in this embodiment, the first end of the supporting edge 81 is vertically connected to the second end of the adjacent supporting edge 81, the vertical position is located between the first end and the second end of the supporting edge 81, and each of the card-lifting plates 41 is correspondingly disposed on the second side of one supporting edge 81 and correspondingly connected to the actuator mounted on the second side of the supporting edge 81.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A bidirectional tile distributing mechanism is used for pushing mahjong tiles (10) to a tile bearing track (7) of a mahjong machine, and is characterized in that a tile inlet (22) is formed between a first end and a second end of the tile bearing track (7), and the bidirectional tile distributing mechanism comprises a tile distributing driving device, a tile distributing transmission assembly and a tile distributing plate (12); the mahjong splitting driving device is used for driving the mahjong splitting transmission assembly to drive the mahjong splitting plate (12) to move on the mahjong inlet (22) from the first side to the second side of the mahjong inlet (22) or from the second side to the first side of the mahjong inlet (22), and further enables mahjong (10) on the mahjong inlet (22) to face towards the first end of the mahjong holding track (7) or towards the second end of the mahjong holding track (7) to be pushed onto the mahjong holding track (7).

2. The bidirectional card-distributing mechanism of claim 1, wherein the card-distributing transmission assembly comprises a card-distributing rotating member (11) and a card-distributing sliding block (13) sliding along the length direction of the card-bearing track (7), and the card-distributing sliding block (13) is connected with the card-distributing plate (12); the card distributing driving device drives the card distributing rotating piece (11) to rotate so as to drive the card distributing sliding block (13) to slide and further drive the card distributing plate (12) to move.

3. The bidirectional card-distributing mechanism according to claim 2, wherein the card-distributing rotating member (11) is formed with a card-distributing sliding rod (111) protruding from an end surface of a side facing the card-distributing slider (13); the card distributing sliding block (13) is provided with a card distributing sliding groove (131) matched with the card distributing sliding rod (111), the length direction of the card distributing sliding groove (131) is opposite to the vertical direction or the inclination of the card bearing track (7), and the vertical direction interval at two ends of the card distributing sliding groove (131) is larger than or equal to the moving stroke length of the card distributing sliding rod (111) in the card distributing sliding groove (131).

4. The bidirectional card distributing mechanism according to claim 2, further comprising an integrated card stacking mechanism (2), wherein the card stacking mechanism (2) comprises a card bearing seat (21), a card stacking driving device and a card stacking transmission component, the card bearing seat (21) is used for receiving mahjong (10) conveyed to the card stacking mechanism (2), the card stacking driving device is used for driving the card stacking transmission component to drive the card bearing seat (21) to move up and down, and the card bearing seat (21) is used for receiving mahjong (10) for multiple times through lifting control height, stacking and lifting to the same height as the card bearing rail (7).

5. The bidirectional card-distributing mechanism of claim 4, wherein the card-stacking transmission assembly comprises a card-stacking rotating member (23), a card-stacking swing arm (24) and a card-stacking sliding block (25) connected with the card-holding seat (21); the first end of the mahjong stacking rocker arm (24) is hinged and fixed, the second end of the mahjong stacking rocker arm (24) protrudes towards one side of the mahjong stacking sliding block (25) to form a rocker sliding rod (242), and the mahjong stacking sliding block (25) is provided with a mahjong stacking sliding groove (251) matched with the rocker sliding rod (242); the end face of the mahjong folding rotating piece (23) facing one side of the sliding rod is protruded to form a mahjong folding sliding rod (231), and the middle part of the mahjong folding rocker arm (24) is provided with a rocker sliding groove (241) matched with the mahjong folding sliding rod (231); fold tablet drive arrangement and be used for the drive fold tablet and rotate piece (23) and rotate, fold tablet slide bar (231) and follow it rotates piece (23) and rotates and then drive to fold tablet rocking arm (24) swing, the rocking arm swing and then drive fold tablet slider (25) elevating movement.

6. The bidirectional card dealing mechanism of claim 5, wherein the card dealing drive assembly includes a main rotating member (14); the outer wall of the mahjong folding rotating piece (23) is provided with teeth, and the outer wall of the mahjong distributing rotating piece (11) is provided with teeth; the mahjong tile folding mechanism is characterized in that mahjong tile folding teeth (141) used for being meshed with the teeth of the mahjong tile folding rotating piece (23) are arranged in the range from a first angle to a first angle plus 180 degrees on the main rotating piece (14), mahjong tile distributing teeth (142) used for being meshed with the teeth of the mahjong tile distributing rotating piece (11) are arranged in the range from the first angle plus 180 degrees to the first angle plus 360 degrees on the main rotating piece (14), and the mahjong tile folding teeth (141) and the mahjong tile distributing teeth (142) are respectively located in the circumferential direction of different layers of the main rotating piece (14) and are respectively meshed with each other; the radial dimension of the mahjong folding teeth (141), the radial dimension of the mahjong distributing teeth (142), the radial dimension of the mahjong folding rotating piece (23) and the radial dimension of the mahjong distributing rotating piece (11) are the same; the main rotation piece (14) is used for the warp divide the rotatory drive of tablet drive arrangement to drive divide tablet to rotate piece (11) and rotate just it does not rotate to fold tablet rotation piece (23), or warp divide the rotatory drive of tablet drive arrangement to drive it rotates just to fold tablet rotation piece (23) it does not rotate to divide tablet rotation piece (11).

7. The bidirectional card-distributing mechanism according to claim 6, wherein the outer wall of the rotation piece (23) is symmetrically provided with a first protrusion (232) having an inner arc depression, and the main rotation piece (14) is provided with a first arc step (143) for depression with the inner arc of the first protrusion (232) in a range of a first angle +180 ° to a first angle +360 °; the outer wall of the card distributing rotating piece (11) is symmetrically provided with second bulges (112) with inner arc depressions; the main rotating piece (14) is provided with a second arc-shaped step (144) matched with the inner arc recess of the second protrusion (112) within the range from the first angle to the first angle plus 180 degrees; the first arc-shaped step (143) is used for being matched with the first protrusion (232) when the main rotating piece (14) drives the mahjong splitting rotating piece (11) to rotate, so that the outer arc surface of the first arc-shaped step (143) slides along the inner arc of the first protrusion (232) in a concave mode, and rotation of the mahjong stacking rotating piece (23) is limited; the second arc-shaped step (144) is used for rotating the piece (14) and driving when folding the tablet and rotating piece (23) and rotate, with the protruding (112) cooperation of second makes the extrados of second arc-shaped step (144) follow the sunken slip of the inner arc of the protruding (112) of second and then restrict the rotation that divides tablet rotation piece (11).

8. A bidirectional card-dealing mechanism as recited in claim 4 or 5, characterized in that the card-dealing driving device includes a first driver and the deck-driving device includes a second driver.

9. The bidirectional card distribution mechanism according to any one of claims 1 to 5, wherein the bidirectional card distribution mechanism is located at an end of the card bearing rail (7), a return mechanism (9) is provided on the bidirectional card distribution mechanism, the return mechanism (9) comprises an energy storage slider (92) and an energy storage spring (91), the energy storage slider (92) is provided on the card bearing rail (7), and the energy storage slider (92) is used for abutting against the mahjong (10) located at the end and moving to compress the energy storage spring (91) when the last group of mahjong (10) pushes to the corresponding end of the card bearing rail (7), so as to provide elastic force to return the mahjong (10) to abut against the card distribution plate (12).

10. A mahjong machine, characterized in that it comprises a bidirectional card-distributing mechanism according to any one of claims 1 to 9.

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