CN213159327U - No driving lever folds tablet mechanism - Google Patents

Abstract

The utility model discloses a deflector rod-free mahjong stacking mechanism, which comprises a machine head box, a mahjong receiving seat and a driving wheel, wherein the mahjong receiving seat is used for receiving mahjong stacked up and down; the driving wheel is arranged in the machine head box and is configured to drive the mahjong tile receiving seat to lift, a guide groove is formed in the end face, close to the lifting guide rod, of the driving wheel, a guide head is arranged on the mahjong tile receiving seat, the guide head is inserted into the guide groove, and the groove shape of the guide groove is configured to drive the guide head and the mahjong tile receiving seat to lift intermittently and repeatedly when the driving wheel rotates; compared with the prior art, the mechanism cancels the shifting rod and related parts of the shifting rod, optimizes the mahjong tile receiving seat, directly drives the mahjong tile receiving seat to move up and down by the driving wheel, plays a silent effect, improves the experience of a user, has a simpler structure, a smaller volume and quicker assembly, reduces the part cost and improves the production efficiency.

Description

No driving lever folds tablet mechanism

Technical Field

The utility model relates to a mahjong table field, in particular to tablet mechanism is folded to no driving lever.

Background

In the existing mahjong machine, a machine head tile stacking mechanism adopts a driving wheel to drive a shifting rod provided with two bearings to push a tile receiving seat to move up and down so as to complete the tile stacking action; however, since the iron lever is moved too rapidly, hitting sounds are generated to surrounding devices, the generated sounds cause noise pollution to the surrounding environment, the experience of a user is reduced, and the assembly is complicated.

CN201910737318.0 patent of chinese utility model discloses a folding and pushing machine head with improved structure, which comprises a machine head box, a tile bearing block assembly, a guide rod, a circuit board, a tile pushing swing arm, a tile pushing head, a horizontal pushing slide block, an inner curve wheel, a tile bearing block swing rod, a machine head box cover and a machine head motor; the mahjong tile stacking action and the mahjong tile pushing action are mutually connected to each other through the mutual matching between the mahjong tile bearing block swing rod and the horizontal pushing sliding block and between the mahjong tile bearing block swing rod and the inner curve wheel, so that the aim of feeding mahjong tiles into the guide rail above the mahjong tile pushing and conveying is fulfilled; due to the existence of the swing rod, the utility model can generate larger noise when hitting peripheral devices in the working process, thereby reducing the user experience, and having complex structure and complex assembly; more parts and higher cost.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a non-driving lever tile stacking mechanism, which comprises a machine head box, a tile receiving seat and a driving wheel, wherein the tile receiving seat is used for receiving mahjong tiles stacked up and down; the driving wheel is arranged in the machine head box and is configured to drive the mahjong tile receiving seat to lift, a guide groove is formed in the end face, close to the lifting guide rod, of the driving wheel, a guide head is arranged on the mahjong tile receiving seat, the guide head is inserted into the guide groove, and the groove shape of the guide groove is configured to drive the guide head and the mahjong tile receiving seat to lift intermittently and repeatedly when the driving wheel rotates; the mechanism cancels the deflector rod and relevant parts of the deflector rod, optimizes the mahjong tile receiving seat, directly drives the mahjong tile receiving seat to move up and down by the driving wheel, plays a role in muting, and reduces the cost of components.

The technical scheme of the utility model is realized like this:

a non-stick deck stacking mechanism, comprising:

the head box is internally provided with a driving wheel;

the mahjong receiving seat is used for receiving mahjong tiles stacked up and down and is connected to the lifting guide rod in a sliding manner; the lifting guide rod is arranged beside the head box or in the head box; a guide head is arranged on the card receiving seat;

the driving wheel is configured to drive the card receiving seat to move along the lifting guide rod; the end surface of the driving wheel close to the lifting guide rod is provided with a guide groove; the guide head is inserted in the guide groove;

the groove shape of the guide groove is configured to drive the guide head and the card receiving seat to intermittently reciprocate when the driving wheel rotates.

The poker card connector has the advantages that the poker card connector is free of the driving lever and relevant parts of the driving lever, the poker card connector is optimized, the poker card connector is directly driven by the driving wheel to move up and down, the silent effect is achieved, the experience feeling of a user is improved, the structure is simplified, the assembly is quicker, the component cost is reduced, and meanwhile, the production efficiency is improved.

Preferably, the mahjong receiving seat comprises a mahjong receiving seat body, a mahjong receiving platform and a lifting slide block, the mahjong receiving platform is horizontally and fixedly arranged at the upper end of the mahjong receiving seat body, the lifting slide block is fixedly arranged at the lower end of the mahjong receiving seat body, and the lifting slide block is positioned in the machine head box; the lifting slide block is connected with the lifting guide rod in a sliding manner. The lifting slide block is driven by the guide head, and when the lifting slide block slides along the lifting guide rod, the mahjong tile receiving seat body and the mahjong tile receiving platform are driven to lift, so that two mahjong tiles which are overlapped can be sensed by the light control assembly.

Preferably, the card receiving seat body, the card receiving platform and the lifting slide block are integrally formed.

Preferably, the lifting guide rod is arranged to deviate from the center of the driving wheel, the lifting slide block horizontally extends to form a boss close to the center of the driving wheel, and the guide head faces the driving wheel and is rotatably arranged on the boss. Compare in the mechanism of folding tablet that uses the driving lever, the utility model discloses make the lift route that connects the tablet seat and the span between the action wheel centre of a circle reduce, and direction head direct drive connects the tablet seat to go up and down, has retrencied the mechanism for the assembly is in the twinkling of an eye.

Preferably, the card receiving seat body is L-shaped. The lifting guide rod is arranged in the machine head box, and the card receiving platform can extend out of the machine head box to work.

Preferably, the guide head is a guide wheel. The friction generated by the guide wheel and the guide groove is smaller, so that the movement of the card receiving seat is smoother, and the service life of the mechanism is prolonged.

Preferably, the guide groove is a cam profile groove. The guide groove is arranged according to the contour of the cam and is provided with a base circle section and a convex circle section, so that the lifting of the butt-joint card holder is controlled.

Preferably, the mahjong tile pushing machine further comprises a horizontal pushing guide rod and a tile pushing assembly, the horizontal pushing guide rod is horizontally arranged in the machine head box, the tile pushing assembly is arranged on the horizontal pushing guide rod in a sliding mode, and the tile pushing assembly is configured to push mahjong tiles stacked on the tile receiving seat to the next station.

Preferably, the tile pushing assembly comprises a tile pushing connecting rod, a tile pushing head and a horizontal pushing sliding block, the tile pushing connecting rod is L-shaped, the tile pushing head is fixedly connected with the upper end of the tile pushing connecting rod, the horizontal pushing sliding block is fixedly connected with the other end of the tile pushing connecting rod, and the horizontal pushing sliding block is arranged on the horizontal pushing guide rod in a sliding mode. The L-shaped tile pushing connecting rod enables the horizontal pushing sliding block to work in the nose box and the tile pushing head to work outside the nose box.

Preferably, the driving wheel is provided with a tile pushing bearing, the horizontal pushing sliding block is provided with an arc-shaped groove, and the tile pushing bearing is embedded in the arc-shaped groove and is in rolling fit with the arc-shaped groove. The arc-shaped groove is provided with a staying section and a working section, so that the translation of the horizontal push sliding block is controlled.

Preferably, the horizontal pushing guide rod and the lifting guide rod are respectively arranged on two sides of the driving wheel. So that the movement of the card receiving seat and the card pushing component is not interfered with each other.

Adopted above-mentioned technical scheme the utility model discloses a design departure point, theory and beneficial effect are:

the utility model provides a no driving lever folds tablet mechanism compares prior art: the mechanism cancels the driving rod and related parts of the driving rod, optimizes the mahjong tile receiving seat, directly drives the mahjong tile receiving seat to move up and down by the driving wheel, plays a silent effect, improves the experience of a user, has a simpler structure, a smaller volume and quicker assembly, reduces the part cost and improves the production efficiency.

Drawings

Fig. 1 is a first cross-sectional view of a common deck stacking mechanism according to an embodiment of the present invention;

fig. 2 is a second cross-sectional view of a common deck stacking mechanism according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a tile stacking mechanism according to an embodiment of the present invention;

fig. 4 is a partial cross-sectional view of a deck stacking mechanism in an embodiment of the present invention;

FIG. 5 is a schematic view of the three-dimensional structure of the embodiment of the present invention in which the lifting guide rod, the plate receiving seat and the cover plate are connected;

fig. 6 is a schematic perspective view of the card receiving platform extending out of the head box according to the embodiment of the present invention;

fig. 7 is a schematic perspective view of the card pushing assembly and the driving wheel in the housing according to the embodiment of the present invention;

fig. 8 is a schematic perspective view of the card-pushing bearing disposed on the driving wheel according to the embodiment of the present invention;

fig. 9 is a cross-sectional view of a deck stacking mechanism in an embodiment of the present invention;

fig. 10 is a schematic perspective view of a first embodiment of the present invention illustrating a light control module and a magnetic control module mounted in a head box;

fig. 11 is a schematic perspective view of the second embodiment of the present invention illustrating a three-dimensional structure in which the light control module and the magnetic control module are mounted in the head box;

fig. 12 is a third schematic view of a three-dimensional structure in which the light control assembly and the magnetic control assembly are mounted on the head box according to an embodiment of the present invention;

fig. 13 is a schematic perspective view of the driving wheel and the card receiving seat in the initial working state of the embodiment of the present invention;

fig. 14 is a cross-sectional view of the tile pushing bearing and the tile pushing assembly in the initial working state of the embodiment of the present invention;

FIG. 15 is a schematic perspective view of the driving wheel and the card receiving seat in the working process of the embodiment of the present invention;

fig. 16 is a cross-sectional view of a card-pushing bearing and card-pushing assembly during operation of an embodiment of the present invention;

FIG. 17 is a schematic perspective view of the driving wheel and the card receiving base when the card pushing operation is finished according to the embodiment of the present invention;

fig. 18 is a cross-sectional view of the card-pushing bearing and the card-pushing assembly at the end of the card-pushing operation according to the embodiment of the present invention.

The figures are numbered: a head case 1; a card receiving seat 2; a driving wheel 3; a deflector rod 4; a chute 5; a guide bearing 6; a lifting guide rod 8; a guide groove 9; a guide head 10; a card receiving seat body 11; a card receiving platform 12; a lifting slider 13; a lifting window 14; a housing 15; a cover plate 16; a motor shaft hole 17; a motor 18; a lifting guide rod mounting base 19; a boss 20; a base circle segment 21; a convex circular section 22; a horizontal push guide rod 23; a card pushing assembly 24; a tile pushing connecting rod 25; pushing the card head 26; a horizontal push slider 27; a horizontal sliding window 28; a tile pushing bearing 29; an arc-shaped slot 30; a working section 31; a retention section 32; a light control member 33; a card retaining base 34; a card-retaining base bracket 35; a magnetic shield 36; a slot 37; a first hall element 38; a second hall element 39; a first magnet 40; a second magnet 41; and a third magnet 42.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, the term "at least one" means one or more unless explicitly defined otherwise. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The specific implementation manner of the utility model is as follows:

as shown in fig. 1 and 2, the conventional card folding mechanism in the market at present comprises a machine head box 1, a driving wheel 3, a shift lever 4 and a card receiving seat 2, wherein two ends of the shift lever 4 are respectively and rotatably connected to the bottom of the card receiving seat 2 and the machine head box 1, a sliding groove 5 is formed in the end surface of the driving wheel 3 close to the shift lever 4 according to the contour of a cam, a guide bearing 6 is arranged on the shift lever 4, and the guide bearing 6 is inserted into the sliding groove 5 and is in rolling fit with the sliding groove 5; when the driving wheel 3 rotates, the sliding chute 5 drives the guide bearing 6 to lift, so as to drive the deflector rod 4 to swing, and the deflector rod 4 drives the card receiving seat 2 to lift; because the shift lever 4 exists in the common card folding mechanism, the shift lever 4 acts too quickly during work, the noise of hitting surrounding devices is large, the experience of a user is reduced, the structure is complex, the assembly is complicated, and the production efficiency is low.

As shown in fig. 3-5, the utility model provides a non-shift lever tile stacking mechanism, which comprises a machine head box 1, a tile receiving seat 2 and a driving wheel 3, wherein the tile receiving seat 2 is used for receiving mahjong tiles stacked up and down, a lifting guide rod 8 is arranged in the machine head box 1 or beside the machine head box 1, and the tile receiving seat 2 is arranged on the lifting guide rod 8 in a sliding way; the driving wheel 3 is arranged in the head box 1 and is configured to drive the card receiving seat 2 to lift, and specifically: the end surface of the driving wheel 3 close to the lifting guide rod 8 is provided with a guide groove 9, the card receiving seat 2 is provided with a guide head 10, the guide head 10 is inserted in the guide groove 9, and the groove shape of the guide groove 9 is configured to drive the guide head 10 and the card receiving seat 2 to intermittently and reciprocally lift when the driving wheel 3 rotates; the "intermittent reciprocating raising and lowering" will be explained in the following paragraphs of the present embodiment.

The mahjong receiving seat 2 comprises a mahjong receiving seat body 11, a mahjong receiving platform 12 and a lifting slide block 13, wherein the mahjong receiving platform 12 is horizontally arranged and fixedly connected to the upper end of the mahjong receiving seat body 11, the lifting slide block 13 is fixedly arranged at the lower end of the mahjong receiving seat body 11, and the mahjong receiving seat body 11, the mahjong receiving platform 12 and the lifting slide block 13 are integrally formed; the lifting slide block 13 is approximately rectangular, two lifting guide rods 8 are arranged in the head box 1 at intervals, two through holes corresponding to the lifting guide rods 8 are formed in the lifting slide block 13, and the lifting slide block 13 is sleeved on the lifting guide rods 8 to complete sliding fit of the lifting slide block and the lifting guide rods 8.

Because the lifting slide block 13 is in sliding fit with the lifting guide rod 8 and the lifting guide rod 8 is arranged in the head box 1, the lifting slide block 13 is also arranged in the head box 1, and the card receiving platform 12 needs to work outside the head box 1, the card receiving base body 11 is designed to be L-shaped, and a lifting window 14 for the card receiving base body 11 to extend out and lift enough is arranged on the head box 1.

As shown in fig. 3-6, the handpiece box 1 includes a housing 15 and a cover plate 16, and the lifting window 14 is opened at the joint of the housing 15 and the cover plate 16; a motor shaft hole 17 is formed in the cover plate 16, a motor 18 is installed at the motor shaft hole 17 of the cover plate 16, and the motor 18 is configured to drive the driving wheel 3 to rotate; the cover plate 16 is provided with a lifting guide rod mounting seat 19, and the lifting guide rod 8 is inserted in the lifting guide rod mounting seat 19; the lifting guide rod 8 is arranged deviating from the center of the driving wheel 3, namely the lifting guide rod mounting seat 19 is positioned beside the motor shaft hole 17, the lifting slide block 13 horizontally extends to form a boss 20 close to the center of the driving wheel 3, the guide head 10 faces the driving wheel 3 and is rotatably arranged on the boss 20, therefore, the guide head 10 can be directly inserted in the guide groove 9, the lifting of the tile receiving seat 2 is directly controlled by the driving wheel 3, and a deflector rod 4 is not required to be arranged between the guide head and the driving wheel 3, so that the noise is reduced, the mute effect is even achieved, the part cost is reduced, and the assembly time is shortened.

The guide head 10 is a guide wheel, the guide groove 9 of the driving wheel 3 is a cam profile groove, and the guide wheel is provided with a base circle section 21 and a convex circle section 22; the radius of the upper part of the base circle section 21 is the same, and when the driving wheel 3 rotates and the guide head 10 is positioned at the base circle section 21, the height of the mahjong tile receiving seat 2 is kept unchanged; the radius of the convex section 22 is changed, and when the driving wheel 3 rotates and the guide head 10 is positioned at the convex section 22, the mahjong tile receiving seat 2 moves up and down along the lifting guide rod 8.

As shown in fig. 7-9, the mechanism further comprises a horizontal pushing guide rod 23 and a card pushing assembly 24, wherein the horizontal pushing guide rod 23 is horizontally arranged in the housing 15, the card pushing assembly 24 is slidably arranged on the horizontal pushing guide rod 23, and the card pushing assembly 24 is configured to push the mahjong tiles stacked on the card receiving base 2 to the next station; the card pushing assembly 24 is arranged at the other side of the driving wheel 3, namely the horizontal pushing guide rod 23 and the lifting guide rod 8 are respectively arranged at the two sides of the driving wheel 3; the tile pushing assembly 24 comprises a tile pushing connecting rod 25, a tile pushing head 26 and a horizontal pushing sliding block 27, the tile pushing connecting rod 25 is L-shaped, the tile pushing head 26 is fixedly connected with the upper end of the tile pushing connecting rod 25, the horizontal pushing sliding block 27 is fixedly connected with the other end of the tile pushing connecting rod 25, and the horizontal pushing sliding block 27 is arranged on the horizontal pushing guide rod 23 in a sliding mode; as shown in fig. 3 and 7, the horizontal sliding block 27 is disposed in the nose box 1, and the housing 15 is correspondingly provided with a horizontal sliding window 28 for the card pushing connecting rod 25 to enter the nose box 1, so that the card pushing head 26 can extend out of the nose box 1 to work; the card pushing head 26 is disposed beside the card receiving platform 12, and a translation path of the card pushing head 26 and a lifting path of the card receiving platform 12 have an intersection point.

The mahjong tile pushing bearing 29 is arranged on the driving wheel 3, the arc-shaped groove 30 is arranged on the horizontal pushing sliding block 27, and the mahjong tile pushing bearing 29 is embedded in the arc-shaped groove 30 and is in rolling fit with the arc-shaped groove 30; the arc-shaped groove 30 comprises a working section 31 and a stopping section 32, and when the card pushing bearing 29 moves in the stopping section 32, the horizontal pushing slide block 27 is kept still; when the card-pushing bearing 29 moves in the working section 31, the horizontal pushing slider 27 moves in a translational motion along the horizontal pushing guide rod 23.

As shown in fig. 10-12, the mechanism further comprises a light control assembly 33 and a magnetron assembly, wherein the light control assembly 33 is used for detecting whether the mahjong tiles reach the designated position and sending out a control signal; the magnetic control assembly is used for monitoring the working process and sending out a control signal; specifically, the method comprises the following steps:

the light control component 33 is arranged on a card blocking seat 34, the card blocking seat 34 is connected with the machine head box 1 through a card blocking seat support 35, the card blocking seat 34 is arranged at the side of the card pushing head 26 and the card receiving platform 12, and the card blocking seat 34 is configured to block mahjong tiles so that the mahjong tiles can accurately fall on the card receiving platform 12; when the mahjong tiles fall behind the tile blocking seat 34, the light control component 33 detects the action and sends out a control signal to enable the motor 18 to start working; the magnetic control assembly comprises a magnetic isolation plate 36, a magnet and a Hall element, wherein a slot 37 is formed in the shell 15, and the magnetic isolation plate 36 is inserted into the slot 37 and is positioned above the driving wheel 3; the number of the Hall elements is two, namely a first Hall element 38 and a second Hall element 39, the first Hall element 39 and the second Hall element 39 are arranged on the magnetism isolating plate 36 and are arranged downwards, and the magnetism isolating plate 36 is used for isolating the magnetism of the magnet in the mahjong tile above the magnetism isolating plate 36; three magnets are provided, namely a first magnet 40 and a second magnet 41 which are arranged on the peripheral surface of the driving wheel 3 and a third magnet 42 which is arranged on the upper surface of the horizontal sliding block 27; when the mechanism is in an initial state, the first magnet 40 is opposite to and electrically connected with the first Hall element 38, the card receiving platform 12 is at the highest position, and the card pushing head 26 is at an initial position, namely at the farthest position relative to the machine head box 1; when the second magnet 41 is opposed to and electrically connected to the first hall element 38, the card receiving platform 12 is at the lowest position; when the third magnet 42 is opposite to and electrically connected with the second hall element 39, the card pushing head 26 reaches the farthest end of the stroke, and the card pushing work is completed.

Further describing the working process of the mechanism: at the beginning of the operation of the mechanism, as shown in fig. 13 and 14, the card receiving platform 12 and the card pushing head 26 are both in the initial positions, that is, the first magnet 40 is electrically connected to the first hall element 38; when the mahjong tiles fall on the tile receiving platform 12 beside the tile blocking seat 34, the light control component 33 detects the action and sends out a control signal to enable the motor 18 to start working; at the moment, the driving wheel 3 rotates, the tile pushing bearing 29 moves in the staying section 32 of the arc-shaped groove 30 from bottom to top, and the horizontal pushing slide block 27 is still; the guide head 10 is positioned at the convex section 22 of the guide groove 9 and the card receiving seat 2 begins to descend; as shown in fig. 15 and 16, as the driving wheel 3 rotates, the second magnet 41 is electrically connected with the first hall element 38, the card holder 2 is lowered to the lowest position, the guide head 10 is located at the base circle section 21 at this time, the card pushing head 26 and the horizontal sliding block 27 are kept at the initial position, and the motor 18 stops working; as the height of the tile receiving base 2 is lowered, waiting for the second mahjong tile to fall on the mahjong tile receiving platform 12, the light control assembly 33 can just detect the action and send out a control signal to make the motor 18 continue to work: as shown in fig. 17 and 18, the guide head 10 is always located in the base circle section 21, the tile receiving base 2 is kept still, the tile pushing bearing 29 leaves the staying section 32 and enters the working section 31, the tile pushing bearing 29 ascends and then descends in the working section 31, the tile pushing bearing 29 keeps pushing the horizontal pushing sliding block 27 to move along the horizontal pushing guide rod 23, the tile pushing head 26 translates along with the tile pushing bearing and pushes mahjong tiles until the third magnet 42 is electrically connected with the second hall element 39, the horizontal pushing sliding block 27 reaches the farthest end of the stroke, the mahjong tiles are pushed to the next working position, and the magnetic control assembly sends out a control signal to enable the motor 18 to rotate reversely and restore the mechanism to the initial state to prepare for the next work.

Claims (10)

1. The utility model provides a no driving lever folds tablet mechanism which characterized in that includes:

the head box is internally provided with a driving wheel;

the mahjong receiving seat is used for receiving mahjong tiles stacked up and down and is connected to the lifting guide rod in a sliding manner; the lifting guide rod is arranged beside the head box or in the head box; a guide head is arranged on the card receiving seat;

the driving wheel is configured to drive the card receiving seat to move along the lifting guide rod; the end surface of the driving wheel close to the lifting guide rod is provided with a guide groove; the guide head is inserted in the guide groove;

the groove shape of the guide groove is configured to drive the guide head and the card receiving seat to intermittently reciprocate when the driving wheel rotates.

2. The non-stick deck-stacking mechanism of claim 1, wherein: the mahjong receiving seat comprises a mahjong receiving seat body, a mahjong receiving platform and a lifting slide block, the mahjong receiving platform is horizontally and fixedly arranged at the upper end of the mahjong receiving seat body, the lifting slide block is fixedly arranged at the lower end of the mahjong receiving seat body, and the lifting slide block is positioned in the machine head box; the lifting slide block is connected with the lifting guide rod in a sliding manner.

3. The non-stick deck-stacking mechanism of claim 2, wherein: the mahjong receiving seat body, the mahjong receiving platform and the lifting slide block are integrally formed.

4. The non-stick deck-stacking mechanism of claim 2, wherein: the lifting guide rod is arranged to deviate from the center of the driving wheel, the lifting slide block horizontally extends to form a boss close to the center of the driving wheel, and the guide head faces the driving wheel and is rotatably arranged on the boss.

5. The non-stick deck-stacking mechanism of claim 2, wherein: the card receiving seat body is L-shaped.

6. The non-stick deck-stacking mechanism of claim 1, wherein: the guide head is a guide wheel; the guide groove is a cam profile groove.

7. The non-stick deck-stacking mechanism of claim 1, wherein: the mahjong tile pushing machine is characterized by further comprising a horizontal pushing guide rod and a tile pushing assembly, wherein the horizontal pushing guide rod is horizontally arranged in the machine head box, the tile pushing assembly is arranged on the horizontal pushing guide rod in a sliding mode, and the tile pushing assembly is configured to push mahjong tiles stacked on the tile receiving seat to the next station.

8. The non-stick deck-stacking mechanism of claim 7, wherein: the tile pushing assembly comprises a tile pushing connecting rod, a tile pushing head and a horizontal pushing sliding block, the tile pushing connecting rod is L-shaped, the tile pushing head is fixedly connected with the upper end of the tile pushing connecting rod, the horizontal pushing sliding block is fixedly connected with the other end of the tile pushing connecting rod, and the horizontal pushing sliding block is arranged on the horizontal pushing guide rod in a sliding mode.

9. The non-stick deck-stacking mechanism of claim 8, wherein: the mahjong tile pushing device is characterized in that a mahjong tile pushing bearing is arranged on the driving wheel, an arc-shaped groove is formed in the horizontal pushing sliding block, and the mahjong tile pushing bearing is embedded in the arc-shaped groove and is in rolling fit with the arc-shaped groove.

10. The non-stick deck-stacking mechanism of claim 7, wherein: the horizontal push guide rod and the lifting guide rod are respectively arranged at two sides of the driving wheel.

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