CN210251152U - Shuffling, taking and lifting device of roller coaster type full-automatic mahjong machine - Google Patents

Abstract

The utility model discloses a full-automatic mahjong machine of roller coaster formula shuffle get the tablet and rise tablet and hold the tablet device, the device is including setting up the shuffling mechanism in the base, get the tablet and fold tablet mechanism and rise tablet and hold the tablet mechanism, shuffling mechanism is including shuffling the big dish, it folds the tablet mechanism including getting the tablet conveying unit and folding the tablet unit to get the tablet, it includes the magnetism wheel of putting the tablet to carry the unit to get the tablet, it holds the tablet mechanism including rising the tablet and holds the tablet board to rise the tablet, the bottom surface of shuffling the big dish is equipped with and is used for driving the rotatory first actuating mechanism of shuffling the big dish, be equipped with switching-over drive mechanism between the pivot of magnetism wheel of putting the tablet and the big dish of shuffling, it is equipped with the one-way drive mechanism of second that is used for driving to rise the tablet board upset to rise the tablet board below, be in shuffling the big dish in the same side the second rocking arm and the pivot. The mahjong tile shuffling mechanism, the mahjong tile taking and conveying units and the mahjong tile lifting and supporting mechanisms can be driven by one large-disk driving motor, and the manufacturing cost and the running cost of the mahjong tile machine are greatly saved.

Description

Shuffling, taking and lifting device of roller coaster type full-automatic mahjong machine

Technical Field

The utility model belongs to the technical field of full-automatic mahjong machine, concretely relates to shuffling of roller coaster formula full-automatic mahjong machine is got the tablet and is risen tablet and hold the tablet device.

Background

Mahjong is a popular entertainment tool in the world, and the full-automatic mahjong machine with the automatic shuffling and stacking functions can avoid the trouble of manual shuffling and stacking of players, so the full-automatic mahjong machine is popular. The full-automatic mahjong machine generally comprises a base provided with a shuffling barrel and a panel covered on the base, wherein the center of the panel is provided with a mahjong tile returning hole used for pushing mahjong tiles on the panel into the shuffling barrel, and the base is internally provided with a central lifting mechanism, a shuffling mechanism, a mahjong tile taking and stacking mechanism (comprising a mahjong tile taking and conveying unit and a mahjong tile stacking unit), a mahjong tile feeding mechanism and a mahjong tile lifting and holding mechanism.

Taking the chinese utility model with patent No. CN201721254591.0 as an example, the shuffling mechanism in the prior art generally comprises a shuffling large disk rotatably mounted in a shuffling barrel and a large disk driving motor for driving the shuffling large disk to rotate, teeth are arranged on the periphery of the shuffling large disk, the large disk driving motor drives the shuffling large disk to rotate through a gear engaged with the teeth, and a large disk shifting fork for shifting the magnetic mahjong tiles is arranged on the top surface of the shuffling large disk.

Taking the chinese utility model patent application with application number CN200820084488.0 as an example, the card-taking and stacking mechanism in the prior art comprises a magnetic card-feeding wheel, a conveying wheel and a driving wheel, wherein a conveying belt is sleeved among the magnetic card-feeding wheel, the conveying wheel and the driving wheel, the magnetic card-feeding wheel is positioned above a shuffling large disc, and the conveying belt is horizontally arranged between the magnetic card-feeding wheel and the conveying wheel; the rotating shaft of the driving wheel is connected with an output shaft of a large-disc driving motor in a mode that: a large umbrella wheel is fixedly installed on an output shaft of the large-disc driving motor, a small umbrella wheel is fixedly installed on a rotating shaft of the driving wheel, and the small umbrella wheel is meshed with the large umbrella wheel.

Taking the chinese utility model patent with application number CN201620757107.5 as an example, the tile lifting and holding mechanism of roller coaster type mahjong machine in the prior art includes a tile lifting and holding plate, the fixed end of the tile lifting and holding plate is connected with the side wall of the end of the rail in a rotating manner, and the tile lifting and holding plate also includes a tile lifting large disk driving motor for driving the tile lifting and holding plate to rotate.

The full-automatic mahjong machine has the following disadvantages: (1) because the big disk drive motor is positioned at the edge of the shuffling big disk, in order to realize that the big disk drive motor can drive the driving wheel to rotate while driving the shuffling big disk to rotate, the big disk drive motor is required to be respectively arranged at four directions of the shuffling big disk, the arrangement mode not only causes the occupied area of the mahjong machine to be overlarge, but also greatly increases the power cost for the operation of the mahjong machine; (2) the magnetic card feeding wheel and the driving wheel in the card taking and stacking mechanism are arranged in a split manner, so that the structure is not compact enough; (3) the mahjong tile lifting and holding mechanisms in the four directions of the mahjong tile shuffling large disk are respectively provided with an independent mahjong tile lifting large disk driving motor, so that the power cost of the operation of the mahjong machine is further increased.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide a shuffling, card taking, card lifting and card bearing device of a roller coaster type full-automatic mahjong machine, which adopts one driving motor to realize the operations of shuffling, card taking, card lifting and card bearing.

In order to achieve the above purpose, the technical solution of the present application is as follows:

the shuffling, card taking and card lifting and card bearing device of the roller coaster type full-automatic mahjong machine comprises a base, wherein a shuffling mechanism, at least three card taking and stacking mechanisms and at least three card lifting and card bearing mechanisms are arranged in the base, the shuffling mechanism comprises a shuffling large disc, each card taking and stacking mechanism comprises a card taking and conveying unit and a card stacking unit, each card taking and conveying unit comprises a magnetic card feeding wheel positioned above the shuffling large disc, each card lifting and card bearing mechanism comprises a card lifting and card bearing plate positioned above the front of the magnetic card feeding wheel, and the fixed end of each card lifting and card bearing plate is hinged with the base;

the bottom surface or the peripheral edge of the shuffling large disk is provided with a first driving mechanism for driving the shuffling large disk to rotate, a reversing transmission mechanism is arranged between the rotating shaft of each magnetic card feeding wheel and the peripheral edge of the shuffling large disk, a second rocker arm for driving the card lifting and bearing plate to turn is arranged below each card lifting and bearing plate, and a second one-way transmission mechanism is arranged between the second rocker arm on the same side of the shuffling large disk and the rotating shaft of the magnetic card feeding wheel.

The card-taking and conveying device has the advantages that the natural advantages of the large shuffling disc are used, the first driving mechanism is adopted to drive the large shuffling disc to rotate, the reversing transmission mechanism is used for driving the card-taking and conveying units in all directions of the large shuffling disc simultaneously by utilizing the rotating large shuffling disc, and meanwhile, the magnetic card-taking wheel in the card-taking and conveying units is directly used as a driving wheel, so that the structure of the whole machine is more compact; the rotation of the shuffling large disc is further transmitted to the second rocker arm by the magnetic card feeding wheel to realize the turnover of the card lifting and bearing plate, and the card taking operation of the magnetic card feeding wheel and the card lifting operation of the card lifting and bearing plate are not synchronous, so the transmission between the magnetic card feeding wheel and the second rocker arm is realized by adopting a second one-way transmission mechanism. The mahjong tile shuffling mechanism, the mahjong tile taking and conveying units and the mahjong tile lifting and supporting mechanisms can be driven by one large-disk driving motor, and the manufacturing cost and the running cost of the mahjong tile machine are greatly saved.

In the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the first driving mechanism comprises a large-disc driving motor, an internal gear which is coaxially arranged with the large shuffling disc is arranged on the bottom surface of the large shuffling disc, and a first driving gear which is meshed with the internal gear is arranged on an output shaft of the large-disc driving motor.

Or the first driving mechanism comprises a big disc driving motor, the outer periphery of the big shuffling disc is provided with a fluted disc, and an output shaft of the big disc driving motor is provided with a first driving gear meshed with the fluted disc; the reversing transmission mechanism is arranged between the fluted disc and the magnetic mahjong tile feeding wheel.

The transmission effect of the two transmission modes is the same, but the first mode transfers the drive motor of the large shuffling disk to the bottom surface of the base from the peripheral edge of the large shuffling disk, can reduce the occupied area of the whole machine, and is more preferable. The present application therefore focuses on the first transmission mode.

In the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the reversing transmission mechanism comprises a fluted disc arranged on the peripheral edge of the shuffling big disc and a first driven gear arranged on the rotating shaft of the magnetic card feeding wheel, and a reversing transmission gear set is arranged between the fluted disc and the first driven gear.

The second reversing transmission gear set comprises a first reversing transmission gear and a second reversing transmission gear, the first reversing transmission gear is provided with a first linear gear part and a first bevel gear part, the second reversing transmission gear is provided with a second linear gear part and a second bevel gear part, the first linear gear part is meshed with the fluted disc, the first bevel gear part is meshed with the second bevel gear part, and the second linear gear part is meshed with the first driven gear.

In the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the card taking and conveying unit comprises a card taking and conveying box, a supporting platform is arranged in the card taking and conveying box, and the supporting platform divides the space in the box into a conveying channel and a lower chamber below the conveying channel; the magnetic mahjong tile loading wheel is positioned at a mahjong tile taking port of the conveying channel, a first conveying wheel is arranged at a mahjong tile outlet of the conveying channel, at least one tension wheel is arranged in the lower chamber, and a conveying belt is sleeved among the magnetic mahjong tile loading wheel, the first conveying wheel and the tension wheel; on the surface of the saddle, the conveyer belt is horizontally arranged.

A first cover plate in a shape like a Chinese character 'ji' is installed on the outer side of the mahjong tile taking and conveying box, a first horizontal shaft is fixedly installed between the first cover plate and the mahjong tile taking and conveying box, and a second reversing transmission gear is rotatably installed on the first horizontal shaft.

The outer side of the card taking and conveying box is provided with a supporting plate below a first horizontal shaft, a vertical shaft is fixedly mounted between the first horizontal shaft and the supporting plate, the vertical shaft and the first horizontal shaft are integrally arranged, and the first reversing transmission gear is rotatably mounted on the vertical shaft.

In the shuffling, card taking and card lifting and holding device of the roller coaster type full-automatic mahjong machine, the card stacking unit comprises a card holding platform at a card outlet of a conveying channel, the height of the card holding platform is lower than that of the conveying channel, and the lower cavity chamber extends to the lower part of the card holding platform; the conveyer belt returns to the lower chamber after running to the surface of the mahjong tile bearing platform from the conveying channel.

The mahjong stacking space enclosed by the conveying channel and the first mahjong blocking plate is narrow, and the mahjong bearing platform is arranged at the lower part of the mahjong outlet of the conveying channel so as to be convenient for receiving mahjong falling from the conveying channel and stacking the mahjong. Obviously, the difference in height between the deck and the delivery path should be comparable to the thickness of one tile (for stacking two tiles) or two tiles (for stacking three tiles). Moreover, the conveying belt runs in the conveying channel and runs on the surface of the mahjong tile bearing table, the conveying belt extends to the surface of the mahjong tile bearing table, so that the inertia impact between mahjong tiles falling from the conveying channel and the surface of the mahjong tile bearing table can be relieved, and the tiles can be prevented from being planted.

This application utilizes the conveyer belt will get the tablet conveying unit and fold the tablet unit and combine organically, realizes that big dish driving motor still drives when driving the action of shuffling and getting the tablet action and fold the tablet action, has avoided setting up extra actuating mechanism in order to drive and fold the tablet unit.

In the shuffling, card taking and card lifting and holding device of the roller coaster type full-automatic mahjong machine, the two opposite sides of the card holding platform are respectively provided with the reversing wheel and the second conveying wheel, the reversing wheel is positioned under the first conveying wheel, and the conveying belt sequentially winds around the reversing wheel and the second conveying wheel. The reversing wheel and the second conveying wheel are matched to lower the conveying belt running on the surface of the pallet to the surface of the bearing platform.

However, when the conveying speed is too fast, the continuously conveyed mahjong pieces may be crowded and abut against the first card blocking plate, and the card stacking error is caused. Therefore, in the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the card taking and conveying box is provided with the first card blocking plate above the second conveying wheel, the first card blocking plate is rotatably provided with the guide and drop roller opposite to the conveying channel, and the height of the guide and drop roller is higher than the height of the surface of the conveying belt in the conveying channel and lower than the height of the top surface of the mahjong on the conveying belt in the conveying channel. After the drop guide roller is arranged, when the mahjong tiles on the conveying channel fall, the head end of the mahjong tiles firstly contacts with the drop guide roller, the drop guide roller rotates under the pressure of the mahjong tiles to drive the head end of the mahjong tiles to upwarp, and the mahjong tiles are prevented from diving and simultaneously driven to fall onto the conveying belt on the surface of the tile bearing table.

In the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the length of the conveying channel is less than or equal to one fourth of the total length of the mahjong tiles, a card taking port of the conveying channel is provided with a second magnetic control sensor, and the second magnetic control sensor is used for detecting whether the magnetic mahjong tiles are stopped at the card taking port of the conveying channel or not;

a second card baffle adjacent to the first card baffle and a card pushing opening opposite to the second card baffle are also arranged at the side of the card bearing platform; the second mahjong tile retaining plate is provided with a third magnetic control sensor which is used for detecting whether the mahjong tiles on the tile bearing platform are completely overlapped;

the second magnetic control sensors and the third magnetic control sensors are connected with the main control board, the main control board is used for receiving output signals of the second magnetic control sensors and controlling the large disk drive motor to start and stop according to the output signals, and the main control board is also used for receiving output signals of the third magnetic control sensors and controlling the large disk drive motor to start and stop according to the output signals.

In order to ensure that the mahjong tiles with the same quantity are conveyed by each mahjong tile taking and conveying mechanism and avoid the complicated mahjong tile returning operation of the mahjong tile taking and conveying mechanism caused by the overlong conveying channel, the length of the conveying channel is set to be less than or equal to one fourth of the total length of the mahjong tiles, and the maximum capacity of the conveying channel is ensured not to exceed the quantity of the mahjong tiles of each side of the mahjong machine.

The mahjong tile feeding action in the conveying channel is divided into two stages to be carried out, mahjong tiles exceeding the length of the conveying channel are firstly conveyed into the tile stacking and pushing mechanism to be stacked in the first stage, and the action of the tile stacking and pushing mechanism is suspended after the first stage is finished (when the length of the conveying channel is equal to one fourth of the total length of the mahjong tiles, the stage is not needed); in the second stage, all mahjong tiles with the length equivalent to that of the conveying channel are sucked into the conveying channel, and the second magnetic control sensor is arranged at the tile taking port of the conveying channel, so that when the second magnetic control sensor detects that mahjong tiles stop at the tile taking port of the conveying channel, the mahjong tiles are full in the conveying channel, and only after all the conveying channels are full of the mahjong tiles, the stacking and pushing mechanism is restarted. Because the conveying channel filled with mahjong can not receive the surplus mahjong, the mahjong tile returning operation is not needed.

Meanwhile, the stacking and pushing action of mahjong tiles is divided into two stages (corresponding to the two stages of the tile sending action respectively), a third magnetic control sensor is arranged to monitor whether the tile piers are stacked, in the first stage, as long as the stacking of one tile pier is completed, the main control board suspends the large-disc driving motor, after the tile pushing head completes the tile pushing action and returns to the tile pushing starting point, the large-disc driving motor is restarted until the first tile pier is stacked, and at the moment, the last tile pier temporarily left on the tile bearing table in the first tile pier is utilized to abut against the conveying channel, so that the mahjong tiles are prevented from continuously falling onto the tile bearing table; after the conveying channel is filled with mahjong pieces, the second stage of stacking and pushing action is carried out until all stacking and pushing actions are completed.

The starting and stopping of the conveying belt are controlled by controlling the starting frequency of the large disc driving motor to realize stacking and pushing one by one, and a card blocking part can be arranged on one side of the card pushing head facing the conveying channel and always abuts against a card outlet of the conveying channel in the card pushing process; however, when the length of the conveying channel is equal to one fourth of the total length of the mahjong tiles, the first stage of the stacking and pushing action does not exist, the tile blocking part is arranged to abut against the tile outlet of the conveying channel conveniently, and the tile outlet of the conveying channel can be blocked by directly utilizing the tile pushing sliding block.

In the shuffling, card taking and card lifting and bearing device of the roller coaster type full-automatic mahjong machine, the second rocker arm comprises a shaft sleeve fixed at the top of the card taking and conveying box and a second mandrel rotatably arranged in the shaft sleeve;

the second one-way transmission mechanism comprises a transmission gear rotatably arranged on the card-taking conveying box and a second driven gear fixedly arranged on a second spindle, the second driven gear is in transmission connection with the first driven gear through the transmission gear, and a second one-way bearing is arranged between the transmission gear and a second horizontal shaft, between the second driven gear and the second spindle or between the second spindle and the shaft sleeve.

In the shuffling, taking and lifting and holding device of the roller coaster type full-automatic mahjong machine, the bottom of the lifting and holding plate is provided with a lower fin plate, the second rocker abuts against the bottom surface of the lower fin plate, and the distance between the second rocker and the two end surfaces of the lower fin plate is larger than or equal to the action radius of the second rocker;

the distance between the lower fin plate and the fixed end of the tile lifting and supporting plate is smaller than the distance between the lower fin plate and the free end of the tile lifting and supporting plate.

The added lower fin plate is used as the extension of the second rocker arm, so that the mahjong lifting and supporting plate can still turn over a larger angle on the premise of adopting the second rocker arm with a smaller action range, and the transmission efficiency is improved. The lower fin plate is arranged closer to the fixed end of the tile lifting and supporting plate, and the second rocker arm with a smaller action range is also used for driving the tile lifting and supporting plate to turn over by a larger angle. And set up the distance between second rocker and the fin both ends face down into the action radius of equal more than or equal to second rocker, be in order to ensure no matter how the second rocker moves, the second rocker supports all the time and leans on fin bottom surface down for the upset of rising tablet board of holding is more steady, can not rise the rapid fall suddenly.

Compared with the prior art, the beneficial effect of this application is embodied in:

the card-taking and conveying device has the advantages that the natural advantages of the large shuffling disc are used, the first driving mechanism is adopted to drive the large shuffling disc to rotate, the reversing transmission mechanism is used for driving the card-taking and conveying units in all directions of the large shuffling disc simultaneously by utilizing the rotating large shuffling disc, and meanwhile, the magnetic card-taking wheel in the card-taking and conveying units is directly used as a driving wheel, so that the structure of the whole machine is more compact; the rotation of the shuffling large disc is further transmitted to the second rocker arm by the magnetic card feeding wheel to realize the turnover of the card lifting and bearing plate, and the card taking operation of the magnetic card feeding wheel and the card lifting operation of the card lifting and bearing plate are not synchronous, so the transmission between the magnetic card feeding wheel and the second rocker arm is realized by adopting a second one-way transmission mechanism. The mahjong tile shuffling mechanism, the mahjong tile taking and conveying units and the mahjong tile lifting and supporting mechanisms can be driven by one large-disk driving motor, and the manufacturing cost and the running cost of the mahjong tile machine are greatly saved.

Drawings

FIG. 1 is a schematic structural view of a mahjong machine provided with a shuffling, tile taking and tile lifting and tile bearing device of the roller coaster type full-automatic mahjong machine of the present invention;

FIG. 2 is a schematic structural view of a mahjong machine with a shuffling, tile taking, tile lifting and tile bearing device of the roller coaster type full-automatic mahjong machine at another viewing angle;

FIG. 3 is a schematic view of the explosion structure of the mahjong machine provided with the shuffling, tile taking and tile lifting and tile bearing device of the roller coaster type full-automatic mahjong machine of the present invention;

FIG. 4 is a schematic view of an explosion structure of the mahjong machine with the shuffling, tile taking, tile lifting and tile bearing device of the roller coaster type full-automatic mahjong machine of the present invention at another viewing angle;

FIG. 5 is a schematic structural view of the shuffling, picking and raising and holding device of the roller coaster type full-automatic mahjong machine of the present invention;

FIG. 6 is a schematic structural view of the shuffling, picking and raising and holding device of the roller coaster type full-automatic mahjong machine of the present invention at another viewing angle;

FIG. 7 is a schematic structural view of a tile taking and stacking mechanism and a tile lifting and holding mechanism of the device for shuffling, taking and lifting and holding the tiles of the roller coaster type full-automatic mahjong machine of the present invention;

FIG. 8 is a schematic structural view of a tile-taking and stacking mechanism in the shuffling, tile-taking and tile-lifting and tile-holding device of the roller coaster type full-automatic mahjong machine of the present invention;

fig. 9 is a schematic structural view of the card shuffling and taking and card lifting and card holding mechanism of the roller coaster type full-automatic mahjong machine of the present invention at another viewing angle.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Example 1

The roller coaster type full-automatic mahjong machine as shown in fig. 1, fig. 2, fig. 3 and fig. 4 comprises a base 1, wherein the base 1 comprises a bottom plate 101 and an integrated molding member 102 fixedly mounted on the bottom plate 101, four sets of positioning and mounting parts 102a are formed on the integrated molding member 102, a shuffling barrel 102b is arranged at the center of the integrated molding member 102, and a panel (not shown in the figure) is mounted on the top surface of the integrated molding member 102.

As shown in fig. 5 and 6, and as can be seen from fig. 3 and 4, the shuffling, card taking and card lifting and holding device of the roller coaster type full-automatic mahjong machine of the present embodiment comprises a shuffling mechanism 2, a card taking and stacking mechanism 3, a card sending mechanism 13 and a card lifting and holding mechanism 6, wherein the card taking and stacking mechanism 3, the card sending mechanism 13 and the card lifting and holding mechanism 6 are all installed in corresponding positioning installation parts 102a, the shuffling mechanism 2 is installed between a bottom plate 101 and an integrally formed part 102, and a central lifting mechanism 14 is installed in a base 1 and a shuffling barrel 102 b.

As shown in fig. 5 and 6, in combination with fig. 3 and 4, the shuffling mechanism 2 of the present embodiment comprises a large shuffling tray 21 rotatably mounted between a bottom plate 101 and an integrally formed member 102, the large shuffling tray 21 is located below a shuffling barrel 102b, the center of the top surface of the large shuffling tray 21 is a tapered surface 211 for allowing mahjong tiles to slide from the center of the large tray to the periphery of the large tray, and the outer periphery of the top surface of the large shuffling tray 21 is a flat surface for receiving the mahjong tiles sliding down from the tapered surface 211.

As shown in fig. 2 and 5, the bottom surface of the shuffling large disk 21 is provided with a first driving mechanism 11 for driving the shuffling large disk 21 to rotate, the first driving mechanism 11 comprises a large disk driving motor 111 fixedly arranged on the bottom plate 101, and an inner gear 113 fixed on the bottom surface of the shuffling large disk 21 and coaxially arranged with the shuffling large disk 21; the output shaft of the large-disk drive motor 111 passes through the bottom plate 101 and extends to the lower part of the large shuffling disk 21, the large-disk drive motor 111 drives the large shuffling disk 21 to rotate by meshing a first drive gear 112 arranged on the output shaft with an internal gear 113, the large shuffling disk 21 shuffles in the rotating process, and mahjong tiles slide to the periphery of the large shuffling disk 21 along the top surface of the large shuffling disk 21 while being shuffled, so that the mahjong tiles are magnetically sucked by the tile taking and stacking mechanism 3 and then are conveyed and stacked.

The internal gear 113 and the shuffle board 21 can be integrally arranged or can be detachably and fixedly connected; a plurality of reinforcing ribs 22 are arranged between the outer periphery of the internal gear 113 and the bottom surface of the shuffling large disk 21, and the reinforcing ribs 22 extend along the radial direction of the shuffling large disk 21 and are uniformly arranged on the outer periphery of the internal gear 113 in the circumferential direction. The reinforcing ribs 22 are integrally provided with the shuffle platter 21, and the connecting surface between the reinforcing ribs 22 and the bottom surface of the shuffle platter 21 is wedge-shaped (the reinforcing ribs 22 are also wedge-shaped), which is adapted to the taper of the shuffle platter 21.

As shown in fig. 4 and 5, the central lifting mechanism 14 includes a lifting rod 141 and an operation panel (not shown in the figure) installed at the top end of the lifting rod 141, wherein the lifting rod 141 and the large disk driving motor 111 are in transmission connection through a first one-way transmission mechanism 15, and the first one-way transmission mechanism 15 includes a first one-way bearing for controlling the large disk driving motor 111 to drive the lifting rod to lift in a certain direction; the main control board is installed in the operation panel, and the panel is provided with a card returning hole, and the operation panel is matched with the size of the card returning hole. In this embodiment, the central lifting mechanism 14 and the first one-way transmission mechanism 15 are not described in detail.

As shown in fig. 5 and 6, the four card-taking and stacking mechanisms 3 of the present embodiment are respectively located at four positions of the shuffling large plate 21, and each card-taking and stacking mechanism 3 includes a card-taking conveying unit 4 and a card stacking unit 5. The card-taking conveying units 4 each include a card-taking conveying box 41 located above the outer periphery of the shuffling large plate 21, and the card-taking conveying box 41 is assembled by a card-taking conveying box frame 411 and a card-taking conveying box cover 412. A saddle 413 is arranged in the card-taking conveying box 41, and the saddle 413 divides the space in the box into a lower chamber 414 and a conveying channel 415 above the lower chamber 414; at the card taking port of the conveying channel 415, a magnetic card feeding wheel 42 is rotatably arranged on the card taking conveying box 41, and the magnetic card feeding wheel 42 is positioned above the shuffling large plate 21; at the card outlet of the conveying passage 415, a first conveying wheel 43 is rotatably mounted on the card taking and conveying box 41, and a tension wheel 44 is rotatably mounted in the lower chamber 414.

In the card-taking and conveying unit 4 of this embodiment, the magnetic card-feeding wheel 42 is a driving wheel, and the magnetic card-feeding wheel 42 is also driven by the large-disc driving motor 111, and is driven by the reversing transmission structure 8. As shown in fig. 5 and 6, the reversing transmission structure 8 includes a toothed disc 81 fixedly mounted on the outer peripheral edge of the shuffling large disc 21, first driven gears 82 are mounted on the rotating shafts of the magnetic card-feeding wheels 42, and second reversing transmission gear sets are disposed between the toothed disc 81 and the first driven gears 82.

As shown in fig. 6 and 7, a first cover plate 416 in a shape like a Chinese character 'ji' is fixedly installed on the outer side of the card-taking conveying box cover 412 through threads, and a first horizontal shaft 83 is fixedly installed between the first cover plate 416 and the card-taking conveying box cover 412; a supporting plate 417 positioned below the first horizontal shaft 83 is integrally arranged on the outer side of the card taking conveying box cover 412, and a vertical shaft integrally arranged with the first horizontal shaft 83 is fixedly arranged between the first horizontal shaft 83 and the supporting plate 417; the second reversing transmission gear set comprises a first reversing transmission gear 84 and a second reversing transmission gear 85, the first reversing transmission gear 84 is rotatably arranged on the vertical shaft, and the second reversing transmission gear 85 is rotatably arranged on the first horizontal shaft 83; an L-shaped sleeve 86 is arranged at the cross-linking position of the first horizontal shaft 83 and the vertical shaft, and two end faces of the L-shaped sleeve 86 abut against the end faces of the first reversing transmission gear 84 and the second reversing transmission gear 85 respectively. Wherein the first reversing transmission gear 84 has a first rectilinear gear portion 841 and a first bevel gear portion 842, and the second reversing transmission gear 85 has a second rectilinear gear portion 851 and a second bevel gear portion 852; the first spur gear section 841 meshes with the toothed disk 81, the first spur gear section 842 meshes with the second spur gear section 852, and the second spur gear section 851 meshes with the first driven gear 82.

As shown in fig. 8 and 9 and seen in combination with fig. 6 and 7, the card folding unit 5 is located at the card outlet of the conveying channel 415, and the card taking and conveying unit 4 and the card folding unit 5 of the present embodiment are organically combined, so that the structure is compact. The card folding unit 5 comprises a card bearing platform 51 formed by the top wall of the card taking conveying box frame 411, and the lower cavity 414 extends to the lower part of the card bearing platform 51; the height of the card bearing table 51 is lower than that of the conveying channel 415, the two opposite sides of the card bearing table 51 are respectively provided with a reversing wheel 52 and a second conveying wheel 53, wherein the reversing wheel 52 is positioned right below the first conveying wheel 43, and the card taking and conveying box 41 is also fixedly provided with a first card blocking plate 54 positioned above the second conveying wheel 53; the conveyer belt 45 is installed between the magnetic card-feeding wheel 42, the first conveyer wheel 43, the reverse wheel 52, the second conveyer wheel 53 and the tension wheel 44, and the conveyer belt 45 is horizontally arranged between the magnetic card-feeding wheel 42 and the first conveyer wheel 43 and between the reverse wheel 52 and the second conveyer wheel 53 and runs along the surfaces of the support 413 and the card-receiving platform 51. Meanwhile, a second card baffle 55 and a card pushing opening are respectively arranged on two opposite sides of the card bearing platform 51, and a card stacking space is enclosed by the conveying channel 415, the second card baffle 55 and the first card baffle 54.

The space for stacking the mahjong pieces is narrow, the mahjong piece holding platform 51 is arranged at the lower part of the mahjong piece outlet of the conveying channel 415, the conveying belt 45 is arranged on the surface of the mahjong piece holding platform, so that the mahjong pieces falling from the conveying channel 415 can be received conveniently, and meanwhile, the mahjong pieces can be stacked conveniently. Obviously, the difference in height between the deck 51 and the delivery path 415 should be comparable to the thickness of one tile (for stacking two tiles) or two tiles (for stacking three tiles). The sliding of the conveyer belt 45 from the surface of the tile bearing table 51 is beneficial to relieving the inertia impact between the mahjong falling from the conveying channel 415 and the surface of the tile bearing table 51, and the tile falling is avoided.

However, when the height difference between the support table 51 and the conveying passage 415 is large, the fallen mahjong pieces may be turned; also, when the speed of delivery is too fast, the continuously delivered tiles may jam against the first card stop 54. Therefore, the guiding and dropping roller 56 is rotatably mounted on the first card retaining plate 54 and is opposite to the conveying channel 415, and the guiding and dropping roller 56 is higher than the surface of the first conveying belt 45 in the conveying channel 415 and lower than the top surface of the mahjong tiles on the first conveying belt 45 in the conveying channel 415. When the mahjong tiles on the conveying channel 415 fall, the head end of the mahjong tiles firstly contacts with the guiding and falling roller 56, the guiding and falling roller 56 rotates under the pressure of the mahjong tiles to drive the head end of the mahjong tiles to be upwarped, and the mahjong tiles are driven to fall onto the conveying belt 45 on the surface of the tile bearing platform 51 while avoiding the mahjong tiles from diving downwards.

As shown in fig. 6, and as can be seen from fig. 4 and 5, a card feeding mechanism 13 is provided at the card pushing port of each card stacking unit 5. The card sending mechanism 13 includes a card storing track 131 positioned and installed on the integrated part 102, the card storing track 131 is connected with the card pushing port, a sliding groove 131a is arranged on the top surface of the side wall of the card storing track 131, the sliding groove 131a extends to the upper side of the second card retaining plate 55, and a card pushing head 132 is installed in the sliding groove 131a in a sliding manner. A second driving mechanism 12 for driving each card pushing head 132 to move along the card storing track 131 is arranged on the top surface of the integrally formed member 102.

The second driving mechanism 12 of the present embodiment includes a turntable 121 rotatably mounted on the top surface of the integrally formed part 102, the turntable 121 is driven by a turntable driving motor 122 to rotate reciprocally, and a transmission structure 125 for driving the card pushing head 132 to work is mounted on the bottom surface of the turntable 121.

The card pushing head 132 of the present embodiment includes a card pushing head body 132a, the card pushing head body 132a has a first sliding rod 132b slidably engaged with the sliding slot 131a and a card pushing slider 132c extending into the card storing track 131, and a card blocking portion 132d is disposed on a side of the card pushing slider 132c facing the conveying path 415. The start point of pushing the tile of the tile pushing slider 132c is close to the second tile stopping plate 55, and the tile pushing slider 132c has a repeated tile pushing position for pushing the tiles on the tile bearing platform 51 one by one into the tile storing track 131 and preventing the mahjong tiles from falling from the conveying channel 415 onto the tile bearing platform 51 (the tile stopping portion 132d does not leave the tile stacking space during the tile pushing process), and a tile sending position for pushing all the tiles in the tile storing track 131 onto the tile lifting and bearing plate 61.

It should be noted that the card blocking portion 132d is not necessary in the present application, and in the case where the conveying belt 45 is continuously running (the stacking operation is not finished, and the large-disc driving motor 111 is continuously rotating), the card blocking portion 132d is provided to prevent the conveying belt 45 from continuously conveying mahjong tiles into the stacking space when the card pushing head 132 leaves the stacking space, so that the card pushing head 132 cannot return to the card pushing start point; of course, the rotation frequency of the big-disc driving motor 111 can be controlled to prevent mahjong tiles from falling into the tile stacking space when the tile pushing head 132 leaves the tile stacking space, for example, when two mahjong tiles are conveyed into the tile stacking space, the big-disc driving motor 111 is paused, and after the tile pushing head 132 finishes pushing the tiles and returns to the tile pushing start point, the big-disc driving motor 111 is started again.

As shown in fig. 3 and 4, a second drive gear 123 and a third drive gear 124 are coaxially provided on an output shaft of the turntable drive motor 122 of the present embodiment, and the turntable 121 includes a main disk 121a and a sub-disk 121b coaxially provided with the main disk 121 a.

The main disc 121a is annular, and the transmission structure 125 includes a first annular flange 125a at an outer ring of the bottom surface of the main disc 121a, a second annular flange 121b at an inner ring of the bottom surface of the main disc 121a, and a second sliding rod 125c fixedly installed between the first annular flange 125a and the second annular flange 121 b; the four directions of the bottom surface of the main disc 121a are respectively provided with a second sliding rod 125c which is arranged corresponding to the tile pushing head 132 one by one, and the tile pushing head body 132a is slidably arranged on the second sliding rod 125 c; at least two second slide bars 125c are provided on each side of the main tray 121a, and all the second slide bars 125c on the same side are provided in parallel. The auxiliary disc 121b is disposed on the top surface of the main disc 121a and is annular, a plurality of stays 121c protruding from the top surface of the main disc 121a are formed on the main disc 121a, and all the stays 121c extend along the top surface of the main disc 121a in the radial direction and abut against the inner peripheral edge of the annular auxiliary disc 121 b.

As shown in fig. 2, 3 and 4, in the present embodiment, the outer periphery of the main disc 121a has a card-pushing tooth portion 121d, and the second driving gear 123 is engaged with the card-pushing tooth portion 121d to drive the card-pushing slider 132c to switch between the card-pushing start position and the card-pushing repeat position; the peripheral edge of the auxiliary disk 121b is provided with a card-sending tooth part 121e, the third driving gear 124 is meshed with the card-sending tooth part 121e to drive the card-pushing slider 132c to switch between the repeated card-pushing position and the card-sending position, the peripheral edge of the main disk 121a is provided with a fourth magnetic control sensor 126 for monitoring the rotation angle of the main disk 121a, the fourth magnetic control sensor 126 is connected with a main control board, and the main control board is used for receiving an output signal of the fourth magnetic control sensor 126 and controlling the start, stop and rotation of the turntable driving motor 122 according to the output signal.

Since the outer diameter of the main disc 121a is larger than that of the sub disc 121b and the outer diameter of the second driving gear 123 is smaller than that of the third driving gear 124; therefore, the rotating speed of the rotating disc 121 when the second driving gear 123 is meshed with the card pushing tooth part 121d is slower than that of the rotating disc 121 when the third driving gear 124 is meshed with the card sending tooth part 121e, because the card pushing head 132 pushes only one card pier at a time when the cards are pushed, and the card piers are prone to tilting forwards and overturning if the card pushing speed is too fast; when the cards are sent, the card pushing head 132 pushes all the card piers together, so that the card piers are not turned over, and the card sending speed can be increased.

As shown in fig. 3 and 4, the rotational mounting manner between the turntable 121 and the integrally formed member 102 is as follows: at least two pressing strips 127 (four pressing strips 127 are arranged in the embodiment and evenly distributed at four positions of the main disc 121 a) are fixed on the top surface of the integrally-formed part 102 through threads on the inner ring of the main disc 121a, hollow shafts 128 are rotatably mounted on bolts (at least two bolts are arranged on one pressing strip 127) used for fixing the pressing strips 127 on the integrally-formed part 102, second rollers 129 (which can also be bearings) are arranged on the hollow shafts 128, annular grooves 125d used for accommodating the second rollers 129 are formed in the second annular folded edge 121b, and when the turntable 121 is driven by the turntable driving motor 122 to rotate, the second rollers 129 roll along the annular grooves 125 d.

In order to ensure that each tile taking and conveying mechanism 4 conveys the same number of tiles and avoid each tile taking and conveying mechanism 4 from performing repeated tile returning operation, in the embodiment, the length of the conveying channel 415 is set to be less than or equal to one fourth of the total length of the tiles, so as to ensure that the maximum capacity of the conveying channel 415 cannot exceed the number of tiles of each side of the mahjong machine; meanwhile, at the tile taking port of the conveying channel 415, the second magnetic control sensor 46 connected with the main control board is arranged on the tile taking conveying box cover 412, the second magnetic control sensor 46 is used for detecting whether magnetic mahjong tiles are stopped at the tile taking port of the conveying channel 415 or counting the mahjong tiles entering the conveying channel 415, and the main control board is used for receiving an output signal of the second magnetic control sensor 46 and controlling the start and stop of the large-disk drive motor 111 according to the output signal. And, the second card stopping board 55 is further provided with a third magnetic control sensor 57 connected to the main control board, the third magnetic control sensor 57 is located at a height equivalent to that of the top mahjong tile stacked on the conveying belt 45, and is configured to detect whether the mahjong tile on the tile supporting platform 51 is stacked and count the number of the stacked tiles, and the main control board is configured to receive an output signal of the third magnetic control sensor 57 and control the start and stop of the turntable driving motor 122 (or the turntable driving motor 122 and the large-disk driving motor 111, and on the premise that the card stopping portion 132d is not provided, the turntable driving motor 122 and the large-disk driving motor 111 need to be controlled simultaneously according to the output signal.

Taking the length of the conveying channel 415 as the length of six mahjong tiles and 136 mahjong tiles as an example, when the third magnetic control sensor 57 of one party detects that 14 mahjong tiles are stacked, the main control board suspends the turntable driving motor 122, and meanwhile, the tile blocking part 132d of the tile pushing slider 132c abuts against the tile outlet of the conveying channel 415, so as to prevent the mahjong tiles from falling to the tile bearing table 51; at this time, the large disk drive motor 111 works normally, and the magnetic mahjong tile feeding wheel 42 continuously takes mahjong tiles until the conveying channel 415 is full of six mahjong tiles; as long as the other transport path 415 is not full, the large disk drive motor 111 will continue to operate, and the shuffling large disk 21 and the magnetic card-feeding wheel 42 will continue to rotate; if the mahjong tiles are adsorbed by the magnetic mahjong tile feeding wheel at the position of the conveying channel 415 full of the mahjong tiles, the redundant mahjong tiles can fall into the tile shuffling large disk 21 again due to the continuous operation of the conveying belt 45 until the second magnetic control sensor 46 detects that all the conveying channels 415 are full of the mahjong tiles, at the moment, the main control board suspends the large disk driving motor 111, the rotary disk driving motor 122 is started, at the moment, the second driving gear 123 is meshed with the tile pushing tooth part 121d, and the remaining six mahjong tiles are overlapped and pushed. After all 17 piers are completely stacked and pushed into the card storage track 131, the turntable driving motor 122 continues to work, and at this time, the third driving gear 124 is meshed with the card sending tooth part 121e, so that all piers are pushed to the card sending end of the card storage track 131.

As can be seen from fig. 6 and 7, the card-raising and card-holding mechanism 6 is positioned and mounted at the card-feeding end of each card storage rail 131. Each of the card raising and supporting mechanisms 6 includes a card raising and supporting plate 61, a fixed end of the card raising and supporting plate 61 is hinged to the integrated member 102, a free end of the card raising and supporting plate faces the card delivery end of the card storage rail 131, and when the card raising and supporting plate 61 is turned downward, the free end of the card raising and supporting plate can be connected with the card delivery end of the card storage rail 131.

In this embodiment, the bottom surface of the card-raising and holding plate 61 is provided with a lower fin plate 62 integrally arranged, the distance between the lower fin plate 62 and the fixed end of the card-raising and holding plate 61 is smaller than the distance between the lower fin plate 62 and the free end of the card-raising and holding plate 61, and a second rocker arm 63 for driving the card-raising and holding plate 61 to turn is arranged below each lower fin plate 62. A shaft sleeve 631 is fixedly mounted at the top of the mahjong tile taking conveying box 41, the second rocker arm 63 is rotatably mounted in the shaft sleeve 631 through a second spindle 632, the second spindle 632 is in transmission with the magnetic mahjong tile feeding wheel 42 through a second one-way transmission structure 9, the second one-way transmission structure 9 comprises a second driven gear 91 mounted at one end of the second spindle 632, which faces away from the second rocker 634, the second driven gear 91 is in meshing transmission with the first driven gear 82 through a transmission gear 92, the transmission gear 92 is mounted on the mahjong tile taking conveying box cover 412 through a second horizontal shaft 93, a second cover plate 418 shaped like a Chinese character 'ji' is fixedly mounted on the outer side of the mahjong tile taking conveying box cover 412, and the second horizontal shaft 93 is fixedly mounted between the mahjong tile taking conveying box cover 412 and the second cover plate 418; a second one-way bearing 94 is arranged between the transmission gear 92 and the second horizontal shaft 93, between the second driven gear 91 and the second spindle 632, or between the second spindle 632 and the shaft sleeve 631.

The working principle of the roller coaster type full-automatic mahjong machine provided by the embodiment is as follows:

after the game on the panel is finished, the user operates the operation panel, the main control panel starts the large panel driving motor 111, the large panel driving motor 111 rotates reversely, the first one-way transmission mechanism 15 drives the central lifting mechanism 14 to drive the operation panel to rise, and at the moment, the user puts mahjong tiles on the panel into the big shuffling panel 21 through the tile returning hole;

after the card returning is finished, the user operates the operation panel, the main control panel starts the large-disc driving motor 111 again, and the large-disc driving motor 111 continues to rotate reversely to drive the operation panel to return to the card returning hole;

when the lifting rod 32 is lifted, the first driving gear 112 drives the shuffling large disc 21 and the fluted disc 81 to rotate reversely, the rotating fluted disc 81 is driven by the first reversing transmission gear 84 and the second reversing transmission gear 85 to enable the magnetic mahjong tile feeding wheel 42 to rotate reversely along with the first driven gear 82 and the second rocker arm 63 to rotate reversely along with the second driven gear 91, at the moment, the conveying belt 45 runs reversely from the mahjong tile outlet to the mahjong tile taking outlet of the conveying channel 415 without taking the mahjong tiles, and the free end of the mahjong tile lifting and supporting plate 61 descends; the main control board starts the large-disc driving motor 111 to enable the third driving gear 124 to be meshed with the tile sending tooth part 121e, all the tile piers reserved in the tile storage rail 131 are pushed to the tile lifting and bearing plate 61, the second rocker arm 63 continuously rotates to drive the free end of the tile lifting and bearing plate 61 to ascend, and mahjong tiles are sent to the panel; when the operation panel returns to the card returning hole, the card lifting and supporting plate 61 completes the card lifting action;

the main control board starts the big disc driving motor 111 immediately, at this time, the big disc driving motor 111 rotates forward, the first driving gear 112 drives the big shuffling disc 21 and the fluted disc 81 to rotate forward (at this time, the first one-way transmission mechanism 15 does not transmit), the big shuffling disc 21 breaks up the mahjong tiles, and meanwhile, the mahjong tiles slide to the periphery of the big shuffling disc 21 along the conical surface 211; the fluted disc 81 drives the conveyer belt 45 to move from the card taking port to the card outlet port of the conveyer channel 415, and the magnetic card feeding wheel 42 magnetically sucks the mahjong tiles scattered around the shuffling big disc 21 onto the conveyer belt 45 and enters the conveyer channel 415;

at this time, the card blocking portion 132d of the card pushing head 132 abuts against the card outlet of the conveying channel 415, when the conveying channel 415 is full of mahjong tiles, the turntable driving motor 122 is started, the card pushing head 132 moves to the card pushing start point, the mahjong tiles fall onto the card supporting platform 51 from the card outlet of the conveying channel 415 under the conveying of the conveying belt 45, under the action of the conveying belt 45 and the guide roller 56 on the surface of the card supporting platform 51, the mahjong tiles can stably fall onto the card supporting platform 51 and are overlapped into tile piers on the card supporting platform 51, after the first tile pier is overlapped (monitored by the third magnetic control sensor 57), the main control board starts the turntable driving motor 122, the second driving gear 123 is meshed with the card pushing tooth portion 121d, drives the turntable 121 to rotate, drives the card pushing head 132 to push the tile piers into the card storing track 131, the fourth magnetic control sensor 126 monitors the rotation angle of the main tray 121a, and returns to the original path after the preset angle is rotated, until the first batch of the tiles are completely pushed, the turntable driving motor 122 is suspended, the tile blocking part 132d on the tile pushing head 132 is abutted against the tile outlet of the conveying channel 415, after all the conveying channels 415 are filled with the mahjong tiles (monitored by the second magnetic control sensor 46), the turntable driving motor 122 is started again, and the second batch of the stacked tiles are pushed into the tile storage track 131 to wait for next tile lifting.

Under the condition that the tile blocking part 132d is not arranged, when the mahjong tiles are conveyed in the conveying channel 415, when the third magnetic control sensor 57 detects that the stacking of one tile pier is completed in the tile stacking space, the main control board stops the large-disc driving motor 111, when the stacking of one tile pier is completed in the four tile stacking spaces, the main control board of the rotary disc starts the rotary disc driving motor 122, the tile pushing head 132 pushes the four tile piers into the tile storage channel 131 at the same time until the stacking of the first tile pier is completed (the third magnetic control sensor 57 counts the tile piers); temporarily keeping the last block of the first block in the stacking space for blocking the card outlet of the conveying channel, wherein the large-disc driving motor 111 continuously rotates, and the conveying belt 45 continuously runs until the conveying channel 415 is full of mahjong tiles; after all the transport channels 415 are filled with mahjong pieces (monitored by the second magnetic control sensor 46), the main control board starts the turntable driving motor 122 again, pushes a second batch of stacked mahjong pieces to the tile storage track 131, and waits for next mahjong piece lifting.

The above working principle is suitable for the case that the length of the conveying channel 415 is less than one fourth of the total length of the mahjong tiles, and for the case that the length of the conveying channel 415 is equal to one fourth of the total length of the mahjong tiles, the mahjong tile stacking operation is performed after all the conveying channels 415 are filled with the mahjong tiles in advance, so that the tile outlet of the conveying channel 415 is blocked by the tile pushing slide block 132c or the tile blocking part 132d in the process of shuffling and conveying the tiles of the tile taking and conveying unit 4; after the mahjong tiles are fully stored in each conveying channel 415, the main control board starts the turntable driving motor 122, and the mahjong tiles are stacked in the same mahjong tile stacking mode.

When the mahjong tiles are required to be lifted, the turntable driving motor 122 is started, the third driving gear 124 is meshed with the mahjong tile conveying tooth part 121e, the mahjong tiles in the tile storage channel 131 are pushed towards the direction of lifting the mahjong tile bearing plate 61 by the tile pushing head 132, at the moment, the large-disc driving motor 111 rotates reversely, the reversed mahjong tile shuffling large disc 21 and the toothed disc 81 are transmitted to the magnetic mahjong tile lifting wheel 42 through the first reversing transmission gear 84 and the second reversing transmission gear 85, so that the magnetic mahjong tile lifting wheel 42 rotates reversely along with the first driven gear 82, the second rocker arm 63 rotates reversely along with the second driven gear 91, and the free end of the lifting mahjong tile bearing plate 61 descends; after the mahjong tile feeding mechanism pushes all the mahjong tiles to the tile lifting and supporting plate 61, the second rocker arm 63 continuously rotates to drive the free end of the tile lifting and supporting plate 61 to ascend, and the mahjong tiles are fed onto the panel.

Claims (10)

1. The shuffling, card taking and card lifting and card bearing device of the roller coaster type full-automatic mahjong machine comprises a base (1), wherein a shuffling mechanism (2), at least three card taking and stacking mechanisms (3) and at least three card lifting and card bearing mechanisms (6) are arranged in the base (1), the shuffling mechanism (2) comprises a large shuffling disc (21), each card taking and stacking mechanism (3) comprises a card taking and conveying unit (4) and a card stacking unit (5), the card taking and conveying unit (4) comprises a magnetic card feeding wheel (42) positioned above the large shuffling disc (21), each card lifting and card bearing mechanism (6) comprises a card lifting and bearing plate (61), and the fixed end of each card lifting and bearing plate (61) is hinged with the base (1);

the device is characterized in that a first driving mechanism (11) for driving the large shuffling disc (21) to rotate is arranged on the bottom surface or the peripheral edge of the large shuffling disc (21), a reversing transmission mechanism (8) is arranged between the rotating shaft of each magnetic card feeding wheel (42) and the peripheral edge of the large shuffling disc (21), a second rocker arm (63) for driving the card lifting and bearing plate (61) to turn is arranged below each card lifting and bearing plate (61), and a second one-way transmission mechanism (9) is arranged between the second rocker arm (63) on the same side of the large shuffling disc (21) and the rotating shaft of the magnetic card feeding wheel (42).

2. The shuffling, card-taking and card-lifting and card-holding device of the roller coaster type full-automatic mahjong machine according to claim 1, wherein the first driving mechanism (11) comprises a large-disc driving motor (111), the bottom surface of the large shuffling disc (21) is provided with an internal gear (113) which is coaxial with the large shuffling disc (21), and an output shaft of the large-disc driving motor (111) is provided with a first driving gear (112) which is meshed with the internal gear (113).

3. The device for shuffling, taking and lifting/holding mahjong pieces of a roller coaster type full-automatic mahjong machine as claimed in claim 1 or 2, wherein the reversing transmission mechanism (8) comprises a fluted disc (81) arranged on the outer peripheral edge of the large shuffling disc (21) and a first driven gear (82) arranged on the rotating shaft of the magnetic mahjong piece feeding wheel (42), and a second reversing transmission gear set is arranged between the fluted disc (81) and the first driven gear (82).

4. The shuffling, card-taking and card-lifting device of the roller coaster type full-automatic mahjong machine according to claim 3, wherein the card-taking and conveying unit (4) comprises a card-taking and conveying box (41), a pallet (413) is arranged in the card-taking and conveying box (41), and the pallet (413) divides the space in the box into a conveying channel (415) and a lower chamber (414) below the conveying channel (415); the magnetic card feeding wheel (42) is positioned at a card taking port of the conveying channel (415), a first conveying wheel (43) is arranged at a card outlet of the conveying channel (415), at least one tension wheel (44) is arranged in the lower chamber (414), and a conveying belt (45) is sleeved among the magnetic card feeding wheel (42), the first conveying wheel (43) and the tension wheel (44); the conveyor belt (45) is horizontally disposed on the surface of the pallet (413).

5. The shuffling, picking and raising device of roller coaster type automatic mahjong machine according to claim 4, wherein the stacking unit (5) comprises a deck (51) at the outlet of the conveying channel (415), the deck (51) is located at a lower height than the conveying channel (415), the lower chamber (414) extends to the lower part of the deck (51); the conveyer belt (45) runs from the conveying channel (415) to the surface of the mahjong tile bearing platform (51) and then returns to the lower chamber (414).

6. The shuffling, picking and raising device of a roller coaster type full automatic mahjong machine according to claim 5, wherein the opposite sides of the tile-holding platform (51) are respectively provided with a reversing wheel (52) and a second conveying wheel (53), the reversing wheel (52) is positioned under the first conveying wheel (43), and the conveying belt (45) sequentially passes around the reversing wheel (52) and the second conveying wheel (53).

7. The device for shuffling, picking and lifting tiles of a roller coaster type full-automatic mahjong machine according to claim 6, wherein the tile picking and conveying box (41) is provided with a first tile blocking plate (54) above the second conveying wheel (53), the first tile blocking plate (54) is rotatably provided with a guide and drop roller (56) opposite to the conveying channel (415), and the height of the guide and drop roller (56) is higher than the height of the surface of the conveying belt (45) in the conveying channel (415) and lower than the height of the top surface of the mahjong tiles on the conveying belt (45) in the conveying channel (415).

8. The shuffling, picking and raising device of a roller coaster type full automatic mahjong machine according to claim 5, wherein the length of the conveying channel (415) is less than or equal to one fourth of the total length of the mahjong, a second magnetic control sensor (46) is arranged at the picking port of the conveying channel (415), and the second magnetic control sensor (46) is used for detecting whether the magnetic mahjong is stopped at the picking port of the conveying channel (415);

a second card blocking plate (55) adjacent to the first card blocking plate (54) and a card pushing opening opposite to the second card blocking plate (55) are further arranged on the side of the card bearing platform (51); a third magnetic control sensor (59) is arranged on the second mahjong baffle (55), and the third magnetic control sensor (59) is used for detecting whether the mahjong tiles on the tile bearing table (51) are completely overlapped;

the second magnetic control sensors (46) and the third magnetic control sensors (59) are connected with a main control board, the main control board is used for receiving output signals of the second magnetic control sensors (46) and controlling the large disk drive motor (111) to start and stop according to the output signals, and the main control board is also used for receiving output signals of the third magnetic control sensors (59) and controlling the large disk drive motor (111) to start and stop according to the output signals.

9. The device for shuffling, picking and raising mahjong pieces for roller coaster type automatic mahjong machine according to any one of claims 4 to 8, wherein the second swing arm (63) comprises a shaft sleeve (631) fixed on the top of the card-picking delivery box (41), and a second spindle (632) rotatably mounted in the shaft sleeve (631);

the second one-way transmission mechanism (9) comprises a transmission gear (92) rotatably mounted on the card taking and conveying box (41) and a second driven gear (91) fixedly mounted on a second spindle (632), the second driven gear (91) is in transmission connection with the first driven gear (82) through the transmission gear (92), and a second one-way bearing (94) is arranged between the transmission gear (92) and a second horizontal shaft (93), between the second driven gear (91) and the second spindle (632) or between the second spindle (632) and a shaft sleeve (631).

10. The device for shuffling, taking and raising and holding mahjong pieces of the roller coaster type full-automatic mahjong machine as claimed in claim 9, wherein the bottom of the raising and holding mahjong piece plate (61) is provided with a lower fin plate (62), the second rocker arm (63) abuts against the bottom surface of the lower fin plate (62), and the distance between the second rocker arm (634) and the two end surfaces of the lower fin plate (62) is greater than or equal to the action radius of the second rocker arm (63);

the distance between the lower fin plate (62) and the fixed end of the tile lifting and supporting plate (61) is smaller than the distance between the lower fin plate (62) and the free end of the tile lifting and supporting plate (61).

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