CN117732036A - Mahjong machine and stacking and pushing mechanism applied by same - Google Patents

Abstract

A mahjong machine and its applied stacking and pushing mechanism features that an angle regulator for driving movable tile supporting plate to swing up and down is arranged on tile pushing rod, and the tile supporting angle of movable tile supporting plate is changed in advance or synchronously when mahjong tile is pushed by tile pushing rod. The complex fittings for driving angle change are simplified, the noises of the card bearing component and the upper and lower swinging rods are reduced, the assembly component is reduced, two double shafts of the card bearing component are not required to be manually installed during manufacturing the card bearing component, the labor is saved, and the quality control standard is easy. The fixed card pushing connecting rod is changed into the left swing rod and the right swing rod simultaneously, the left swing rod and the right swing rod are directly driven by the driving wheel or the driving swing arm to drive the card pushing component to push the card left and right, the horizontal sliding block and the two horizontal sliding rod shafts are not required to be assembled during assembly, labor and assembly materials are saved, the quality control standard is easier, and the assembly efficiency of the stacking and pushing mechanism is improved. The mahjong tiles with more specifications can be applied under the installation body of the mechanism with the same height, so that the production standby goods quantity and the inventory cost are reduced.

Description

Mahjong machine and stacking and pushing mechanism applied by same

Technical Field

The invention relates to a mahjong machine and a stacking and pushing mechanism applied to the mahjong machine.

Background

Stacking and pushing mechanisms of conventional mahjong machines; the mahjong tile pushing mechanism comprises a mechanism mounting body, a tile bearing part, a tile pushing part and a reciprocating mechanism, wherein the tile bearing part and the reciprocating mechanism are mounted on the mechanism mounting body, the reciprocating mechanism comprises a double-sided cam, a horizontal sliding block, an upper swing rod, a lower swing rod and a tile pushing connecting rod, one end of the tile pushing connecting rod is connected with the tile pushing part, the other end of the tile pushing connecting rod is connected with the horizontal sliding block, the horizontal sliding block is movably assembled in the mechanism mounting body through two sliding rod shafts to horizontally slide left and right, the reciprocating mechanism drives the upper swing rod, the lower swing rod and the tile bearing part to vertically receive tiles through the double-sided cam in a reciprocating mode, and meanwhile drives the horizontal sliding block through the double-sided cam to drive the tile pushing connecting rod and the tile pushing part to push up and down two tiles which are stacked into a pier to the mahjong tile pushing mechanism.

The reciprocating mechanism in the card stacking device adopts the upper swing rod and the lower swing rod to drive the card bearing component (comprising the double shafts of the card bearing component) to do sedimentation movement, and is influenced by the structure, the swing gap of the upper swing rod and the lower swing rod is generally larger, swing noise is easy to generate, and if the swing gap of the upper swing rod and the lower swing rod is reduced, the upper swing rod and the lower swing rod are easy to be clamped and the rotation load of the card stacking motor is increased. Meanwhile, when the card bearing component is manufactured, two double shafts of the card bearing component are required to be installed manually, so that labor is wasted, and meanwhile, the difficulty of manual control of the quality standard is high.

The reciprocating mechanism in the card stacking device also adopts the mode that the horizontal sliding block is driven by the double-sided cam to indirectly drive the card pushing connecting rod and the card pushing component to push the card left and right, so that the horizontal sliding block and the two horizontal sliding rod shafts are required to be assembled during assembly, the labor is wasted, and meanwhile, the quality standard manual control difficulty is high.

Disclosure of Invention

The invention solves the technical problems that: the mahjong machine and the stacking and pushing mechanism applied to the mahjong machine are designed to reduce the noise of up-and-down swing of the tile bearing component, reduce the tile pushing noise of the horizontal tile pushing component, reduce the assembly component and improve the assembly efficiency of the stacking and pushing mechanism.

The invention is realized by adopting the following technical scheme: the stacking and pushing mechanism comprises a mechanism mounting body, a card bearing component, a card pushing component and a reciprocating mechanism, wherein the card bearing component and the reciprocating mechanism are mounted on the mechanism mounting body, the card bearing component comprises a fixed card bearing bracket and a movable card bearing plate, the movable card bearing plate is connected to one end of the fixed card bearing bracket in a twisting manner, and the card pushing component comprises a card pushing rod and a card pushing head arranged at the end head of the card pushing rod; the reciprocating mechanism drives the tile pushing component to push the mahjong tiles coded on the tile bearing component out of the tile bearing component through reciprocating motion, and is characterized in that: the mahjong tile pushing rod is provided with an angle adjusting device for driving the movable tile supporting plate to swing up and down, and the tile supporting angle of the movable tile supporting plate is changed in advance or synchronously when the mahjong tile is pushed by the mahjong tile pushing rod.

Further, before the tile pushing rod pushes tiles, the movable end of the movable tile supporting plate is lower than the stranded end, and the angle adjusting device lifts the movable end of the movable tile supporting plate in advance or synchronously when pushing the mahjong tiles;

or before the tile pushing rod pushes the tile, the movable end of the movable tile supporting plate is higher than the stranded end, and the angle adjusting device reduces the movable end of the movable tile supporting plate in advance or synchronously when the mahjong tile is pushed.

Further, the reciprocating mechanism comprises a driving swing arm and a horizontal sliding block, the card pushing rod is connected to the horizontal sliding block, a driving sliding groove is further formed in the horizontal sliding block, a driven protruding rod is further arranged on the driving swing arm, the driven protruding rod slides in the driving sliding groove, and when the driving swing arm moves, the horizontal sliding block is directly driven by the driven protruding rod, and the card pushing rod swings left and right to push cards.

Further, the reciprocating mechanism comprises a driving swing arm, a driven convex rod is further arranged on the driving swing arm, a driven groove is further formed in the card pushing rod, the driven convex rod slides in the driven groove, and the card pushing rod is directly driven to swing left and right to push cards when the driving swing arm moves.

Further, the driving swing arm can also be replaced by a driving wheel.

Further, the reciprocating mechanism comprises a driving wheel, the driving wheel) is provided with a driving chute, the card pushing rod is also provided with a driven convex rod, the driven convex rod slides in the driving chute, and the card pushing rod is directly driven by the driven convex rod to push the card in a left-right swinging manner through the card pushing head when the driving wheel moves.

Further, the card pushing head is provided with a closing-position card blocking surface and an opening-position card blocking surface; when the double-gear-surface stacking pushing mechanism is used for stacking mahjong tiles in an opening position, the sides of the mahjong tiles are blocked by the gear-surface of the opening position, so that the mahjong tiles are prevented from being stacked in a staggered manner when the mechanism is in the opening position; when the mahjong tile pushing head pushes the piled mahjong tiles, the piled mahjong tiles are gradually separated from the opening position blocking surface and blocked by the closing position blocking surface, so that the mahjong tiles are prevented from being piled in a staggered manner when the mechanism is closed.

Furthermore, when the mahjong tiles are blocked by the closing-position blocking surface or/and the opening-position blocking surface, the upper mahjong tile and the lower mahjong tile can be blocked at the same time to avoid staggered accumulation.

The invention also discloses a mahjong machine, which is characterized in that: comprising a stacking mechanism as described above.

In summary, according to the mahjong machine and the stacking and pushing mechanism applied to the mahjong machine, the angle adjusting device for driving the movable tile bearing plate to swing up and down is arranged on the tile pushing rod in an improved mode, and the tile bearing angle of the movable tile bearing plate is changed in advance or synchronously when the tile pushing rod pushes mahjong tiles. The complicated fittings for driving angle change are simplified, the noise of the card bearing component and the upper and lower swinging rods is reduced, and the assembly components are reduced. The mahjong tiles with more specifications can be applied under the installation body of the mechanism with the same height, so that the production standby goods quantity and the inventory cost are reduced.

The invention is further described below with reference to the drawings and detailed description.

Drawings

Fig. 1 is a schematic structural diagram of a stacking mechanism in embodiment 1.

Fig. 2 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 3 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 4 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 5 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 6 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 7 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 8 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 9 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 10 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 11 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 12 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 13 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 14 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 15 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 16 is a schematic structural diagram of the stacking mechanism in embodiment 1.

Fig. 17 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 18 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 19 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 20 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 21 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 22 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 23 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 24 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 25 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Fig. 26 is a schematic structural diagram of the stacking mechanism in embodiment 2.

Reference numerals in the drawings: 1-a mechanism mounting body; 21-fixing a card support; 22-a movable card bearing plate; 221-gradual change protrusion; 31-pushing the card head; 311-closing the gear stop face; 312-opening a gear stop face; 32-a card pushing rod; 321-an angle adjusting device; 322-driven male rod; 323-a driven groove; 324-swinging fulcrum; 41-driving wheels; 411-driving a chute; 42-driving a swing arm; 43-horizontal slide.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "inner", "outer", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, integrally connected, or detachably connected; may be a communication between the interiors of two elements; may be directly or indirectly through an intermediate medium, and the specific meaning of the terms in the present invention will be understood by those skilled in the art in specific cases.

Example 1

Referring to fig. 1-8, the stacking and pushing mechanism in the drawings is a specific embodiment of the invention, the stacking and pushing mechanism comprises a mechanism mounting body (1), a card bearing component, a card pushing component and a reciprocating mechanism, the card bearing component and the reciprocating mechanism are mounted on the mechanism mounting body, the card bearing component comprises a fixed card bearing bracket (21) and a movable card bearing plate (22), the movable card bearing plate (22) is in stranded connection with one end of the fixed card bearing bracket (21), and the card pushing component comprises a card pushing rod (32) and a card pushing head (31) arranged at the end of the card pushing rod; the mahjong tile pushing device is characterized in that the reciprocating mechanism drives the tile pushing component to push mahjong tiles coded on the tile supporting component out of the tile supporting component through reciprocating motion, the reciprocating mechanism comprises a driving swing arm (42) and a horizontal sliding block (43), a driven convex rod (322) is arranged on the driving swing arm (42), a driving sliding groove (411) is further formed in the horizontal sliding block (43), the driven convex rod (322) slides in the driving sliding groove (411), the tile pushing rod (32) is connected to the horizontal sliding block (43), and when the driving swing arm (42) moves, the horizontal sliding block (43) and the tile pushing rod (32) are driven to push tiles left and right. The mahjong tile pushing rod (32) is provided with an angle adjusting device (321) for driving the movable mahjong tile supporting plate (22) to swing up and down, and the mahjong tile pushing rod (32) changes the tile supporting angle of the movable mahjong tile supporting plate (22) in advance or synchronously when pushing mahjong tiles. Before the tile pushing rod (32) pushes tiles, the movable end of the movable tile supporting plate (22) is lower than the stranded end, and the angle adjusting device (321) lifts the movable end of the movable tile supporting plate (22) in advance or synchronously when pushing the mahjong tiles.

Specifically, the angle adjusting device (321) is provided with gradual change bulges (221), the corresponding movable card bearing plate (22) is also provided with gradual change bulges (221) in the opposite direction, when the driving swing arm (42) moves, the driven convex rod (322) arranged at the end of the driving swing arm (42) slides in the driving sliding groove (411) on the horizontal sliding block (43), then the horizontal sliding block (43) and the card pushing rod (32) are driven to push the card left and right, and the card pushing head (31) at the end of the card pushing rod (32) pushes the two piled mahjong cards out of the movable card bearing plate (22). When the horizontal sliding block (43) and the tile pushing rod (32) are started, the two gradual change bulges relatively move, the movable end of the movable tile supporting plate (22) is lower than the twisting end when the mahjong tiles are received, and when the two gradual change bulges relatively move, the movable end of the movable tile supporting plate (22) is gradually lifted until the two piled mahjong tiles are pushed out of the movable tile supporting plate (22).

In this embodiment, when the height of the installation body (1) is fixed, the movable end of the movable tile supporting plate (22) is lower than the height of the installation body (1), and when the movable tile supporting plate is lifted, the movable end of the movable tile supporting plate (22) is kept level to the height of the installation body (1), so that the mahjong tile supporting plate is suitable for mahjong tiles with thicker thickness or larger brands.

Of course, two gradual change protrusions can be reversely arranged, referring to fig. 9-15, the achievable effect is that before the tile pushing rod (32) pushes tiles, the movable end of the movable tile supporting plate (22) is higher than the stranded end, and the angle adjusting device (321) can advance or synchronously reduce the movable end of the movable tile supporting plate (22) when pushing the mahjong tiles. At the moment, the movable end of the movable tile supporting plate (22) is higher than the height of the installation body (1), and when the movable tile supporting plate is lowered, the movable end of the movable tile supporting plate (22) is parallel to the height of the installation body (1), so that the movable tile supporting plate is suitable for mahjong tiles with thinner thickness or smaller brands.

In the prior art of mahjong machine, an excessive inclined plane is arranged between the tile bearing plate and the installation body, when the excessive inclined plane is arranged, the movable end of the movable tile bearing plate (22) can be parallel to one end of the excessive inclined plane or the middle part of the excessive inclined plane, and the follow-up embodiments are not tired one by one.

The driving swing arm (42) can also be replaced by a driving cam (41), see fig. 16, the driving cam (41) is also provided with a driven convex rod (322), the driven convex rod (322) slides in a driving sliding groove (411) on the horizontal sliding block (43), then the horizontal sliding block (43) and the card pushing rod (32) are driven to push the cards left and right, the working principle of the driving swing arm (42) is completely equivalent, the driving swing arm is only in a circular design, and the follow-up embodiments are not accumulated one by one.

Example two

Referring to fig. 17-24, the stacking and pushing mechanism in the drawings is a specific embodiment of the invention, the stacking and pushing mechanism comprises a mechanism mounting body (1), a card bearing component, a card pushing component and a reciprocating mechanism, the card bearing component and the reciprocating mechanism are mounted on the mechanism mounting body, the card bearing component comprises a fixed card bearing bracket (21) and a movable card bearing plate (22), the movable card bearing plate (22) is in stranded connection with one end of the fixed card bearing bracket (21), and the card pushing component comprises a card pushing rod (32) and a card pushing head (31) arranged at the end of the card pushing rod; the mahjong tile pushing device is characterized in that the reciprocating mechanism drives the tile pushing component to push mahjong tiles coded on the tile supporting component out of the tile supporting component through reciprocating motion, the reciprocating mechanism comprises a driving wheel (41), a driving sliding groove (411) is formed in the driving wheel (41), a driven protruding rod (322) is further arranged on the tile pushing rod (32), the driven protruding rod (322) slides in the driving sliding groove (411), and when the driving wheel (41) moves, the tile pushing rod (32) is directly driven to swing left and right. Specifically, the angle adjusting device (321) is provided with gradual change bulges (221), the corresponding movable mahjong carrying plate (22) is also provided with gradual change bulges (221) in the opposite direction, when the driving wheel (41) moves, the driven convex rod (322) arranged on the mahjong pushing rod (32) slides in the driving sliding groove (411) on the driving wheel (41), the mahjong pushing rod (32) pushes the mahjong left and right, and the mahjong pushing head (31) at the end of the mahjong pushing rod (32) pushes the two stacked mahjong tiles out of the movable mahjong carrying plate (22). When the tile pushing rod (32) is started, the two gradual change bulges relatively move, the movable end of the movable tile supporting plate (22) is lower than the twisting end when the movable tile supporting plate (22) is used for supporting mahjong tiles, and when the two gradual change bulges relatively move, the movable end of the movable tile supporting plate (22) is gradually lifted until the two piled mahjong tiles are pushed out of the movable tile supporting plate (22).

In this embodiment, when the height of the installation body (1) is fixed, the movable end of the movable tile supporting plate (22) is lower than the height of the installation body (1), and when the movable tile supporting plate is lifted, the movable end of the movable tile supporting plate (22) is kept level to the height of the installation body (1), so that the mahjong tile supporting plate is suitable for mahjong tiles with thicker thickness or larger brands.

Of course, two gradual change bulges can be reversely arranged, and with continued reference to fig. 9-15, the achievable effect is that before the tile pushing rod (32) pushes tiles, the movable end of the movable tile supporting plate (22) is higher than the stranded end, and the angle adjusting device (321) advances or synchronously reduces the movable end of the movable tile supporting plate (22) when pushing mahjong tiles. At the moment, the movable end of the movable tile supporting plate (22) is higher than the height of the installation body (1), and when the movable tile supporting plate is lowered, the movable end of the movable tile supporting plate (22) is parallel to the height of the installation body (1), so that the movable tile supporting plate is suitable for mahjong tiles with thinner thickness or smaller brands.

In this embodiment, referring to fig. 17-21, one end of the card pushing rod (32) is provided with a swinging fulcrum (324), and when the card pushing rod (32) swings, the swinging fulcrum (324) is used as an axial point to push cards in a swinging manner. Of course, the swing supporting point (324) can also be arranged in the middle of the tile pushing rod (32), see fig. 22-24, which is a simple modification scheme of the tile pushing rod (32), and has the advantages that the driving wheel (41) can not be arranged below the movable tile supporting plate (22), and can be applied to light mahjong machines with different space sizes.

In this embodiment, the driven protruding rod (322) is arranged on the card pushing rod (32), the corresponding sliding groove is arranged on the driving wheel (41), the driven protruding rod (322) can be arranged on the driving wheel (41) or the driving swing arm (42), the driven groove (323) is correspondingly arranged on the card pushing rod (32), the driven protruding rod (322) slides in the driven groove (323), and the driving wheel (41) or the driving swing arm (42) can also drive the card pushing rod (32) to push the cards left and right. See fig. 25-26.

The card pushing head (31) is provided with a closing-gear card blocking surface (311) and an opening-gear card blocking surface (312); when the double-blocking-surface stacking pushing mechanism is used for stacking mahjong tiles in an opening position, the sides of the mahjong tiles are blocked by the opening-position blocking surfaces (312), so that the mahjong tiles are prevented from being stacked in a staggered manner when the mechanism is in the opening position; when the mahjong tile pushing head (31) pushes the piled mahjong tiles, the piled mahjong tiles are gradually separated from the opening-position blocking surface (312) and pushed and blocked by the closing-position blocking surface (311), so that the mahjong tiles are prevented from being piled in a staggered manner when the mechanism is in the closing position. When the mahjong tiles are blocked by the closing-position blocking surface (311) or/and the opening-position blocking surface (312), the upper mahjong tile and the lower mahjong tile can be blocked at the same time to avoid staggered accumulation.

Other embodiments are the same as the first embodiment.

According to the mahjong machine and the stacking and pushing mechanism applied to the mahjong machine, the angle adjusting device for driving the movable tile bearing plate to swing up and down is arranged on the tile pushing rod in an improved mode, and the tile bearing angle of the movable tile bearing plate is changed in advance or synchronously when the tile pushing rod pushes mahjong tiles. The complex fittings for driving angle change are simplified, the noises of the card bearing component and the upper and lower swinging rods are reduced, the assembly component is reduced, two double shafts of the card bearing component are not required to be manually installed during manufacturing the card bearing component, the labor is saved, and the quality control standard is easy. The fixed card pushing connecting rod is changed into the left swing rod and the right swing rod simultaneously, the left swing rod and the right swing rod are directly driven by the driving wheel or the driving swing arm to drive the card pushing component to push the card left and right, the horizontal sliding block and the two horizontal sliding rod shafts are not required to be assembled during assembly, labor and assembly materials are saved, the quality control standard is easier, and the assembly efficiency of the stacking and pushing mechanism is improved. The mahjong tiles with more specifications can be applied under the installation body of the mechanism with the same height, so that the production standby goods quantity and the inventory cost are reduced.

The foregoing is merely a preferred embodiment of the present invention and is not intended to limit the present invention in any way. While the invention has been described with reference to preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention shall fall within the scope of the technical solution of the present invention.

Claims (10)

1. The stacking and pushing mechanism comprises a mechanism mounting body (1), a card bearing component, a card pushing component and a reciprocating mechanism, wherein the card bearing component and the reciprocating mechanism are mounted on the mechanism mounting body, the card bearing component comprises a fixed card bearing bracket (21) and a movable card bearing plate (22), the movable card bearing plate (22) is connected to one end of the fixed card bearing bracket (21) in a twisting way, and the card pushing component comprises a card pushing rod (32) and a card pushing head (31) arranged at the end head of the card pushing rod; the reciprocating mechanism drives the tile pushing component to push the mahjong tiles coded on the tile bearing component out of the tile bearing component through reciprocating motion, and is characterized in that: the mahjong tile pushing rod (32) is provided with an angle adjusting device (321) for driving the movable mahjong tile supporting plate (22) to swing up and down, and the mahjong tile pushing rod (32) changes the tile supporting angle of the movable mahjong tile supporting plate (22) in advance or synchronously when pushing mahjong tiles.

2. The stacking mechanism of claim 1, wherein: before the tile pushing rod (32) pushes tiles, the movable end of the movable tile supporting plate (22) is lower than the stranded end, and the angle adjusting device (321) lifts the movable end of the movable tile supporting plate (22) in advance or synchronously when pushing the mahjong tiles; or before the tile pushing rod (32) pushes tiles, the movable end of the movable tile supporting plate (22) is higher than the twisting end, and the angle adjusting device (321) can advance or synchronously reduce the movable end of the movable tile supporting plate (22) when pushing the mahjong tiles.

3. The stacking mechanism according to claim 1 or 2, wherein: the reciprocating mechanism comprises a driving swing arm (42) and a horizontal sliding block (43), the card pushing rod (32) is connected to the horizontal sliding block (43), a driving sliding groove (411) is further formed in the horizontal sliding block (43), a driven convex rod (322) is further arranged on the driving swing arm (42), the driven convex rod (322) slides in the driving sliding groove (411), and the horizontal sliding block (43) is directly driven by the driven convex rod (322) and the card pushing rod (32) is swung left and right to push cards when the driving swing arm (42) moves.

4. The stacking mechanism according to claim 1 or 2, wherein: the reciprocating mechanism comprises a driving swing arm (42), a driven convex rod (322) is further arranged on the driving swing arm (42), a driven groove (323) is further formed in the card pushing rod (32), the driven convex rod (322) slides in the driven groove (323), and the card pushing rod (32) and the card pushing head (31) are directly driven to swing left and right to push cards when the driving swing arm (42) moves.

5. The stacking mechanism of claim 3 or 4, wherein: the driving swing arm (42) can also be replaced by a driving wheel (41).

6. The stacking mechanism according to claim 1 or 2, wherein: the reciprocating mechanism comprises a driving wheel (41), a driving sliding groove (411) is formed in the driving wheel (41), a driven convex rod (322) is further arranged on the card pushing rod (32), the driven convex rod (322) slides in the driving sliding groove (411), and the card pushing rod (32) and the card pushing head (31) are directly driven to swing left and right to push cards through the driven convex rod (322) when the driving wheel (41) moves.

7. The stacking mechanism of claim 4, wherein: the card pushing head (31) is provided with a closing-gear card blocking surface (311) and an opening-gear card blocking surface (312); when the double-blocking-surface stacking pushing mechanism is used for stacking mahjong tiles in an opening position, the sides of the mahjong tiles are blocked by the opening-position blocking surfaces (312), so that the mahjong tiles are prevented from being stacked in a staggered manner when the mechanism is in the opening position; when the mahjong tile pushing head (31) pushes the piled mahjong tiles, the piled mahjong tiles are gradually separated from the opening-position blocking surface (312) and pushed and blocked by the closing-position blocking surface (311), so that the mahjong tiles are prevented from being piled in a staggered manner when the mechanism is in the closing position.

8. The stacking mechanism of claim 6, wherein: the card pushing head (31) is provided with a closing-gear card blocking surface (311) and an opening-gear card blocking surface (312); when the double-blocking-surface stacking pushing mechanism is used for stacking mahjong tiles in an opening position, the sides of the mahjong tiles are blocked by the opening-position blocking surfaces (312), so that the mahjong tiles are prevented from being stacked in a staggered manner when the mechanism is in the opening position; when the mahjong tile pushing head (31) pushes the piled mahjong tiles, the piled mahjong tiles are gradually separated from the opening-position blocking surface (312) and pushed and blocked by the closing-position blocking surface (311), so that the mahjong tiles are prevented from being piled in a staggered manner when the mechanism is in the closing position.

9. The stacking mechanism of claim 7 or 8, wherein: when the mahjong tiles are blocked by the closing-position blocking surface (311) or/and the opening-position blocking surface (312), the upper mahjong tile and the lower mahjong tile can be blocked at the same time to avoid staggered accumulation.

10. Mahjong machine, its characterized in that: comprising a stacking mechanism according to one of claims 1 to 9.