CN220546560U - Circulation type shuffling machine - Google Patents

Abstract

The utility model provides a circulating type shuffling machine, and belongs to the technical field of shuffling machines. It has solved the poor problem of current shuffler card effect. The utility model relates to a circulating type shuffling machine which comprises a base, a first shuffling body, a second shuffling body, a hinging piece and a driving piece. In the utility model, through the cooperation of the hinge part and the driving part, the first shuffling body and the second shuffling body can move up and down in opposite directions, when the first shuffling body reaches a designated height, cards in the first shuffling body can be transferred into two second shuffling bodies, when the two shuffling bodies reach a preset height, cards in the two second shuffling bodies can be simultaneously transferred into the first shuffling body, and the actions are repeated, so that repeated shuffling of cards can be realized.

Description

Circulation type shuffling machine

Technical Field

The utility model belongs to the technical field of shufflers, and relates to a circulating shuffler.

Background

In recent years, along with the continuous development of science and technology, intelligent entertainment has been put into every family, and along with the continuous progress of science and technology and the development of society, intelligent entertainment concepts are also being updated continuously. Especially, for the use of cards, playing modes are also various, after a group of cards is used, the cards are thoroughly disturbed, so that the cards are mixed together randomly again and dealt according to a specific mode, therefore, a plurality of intelligent machines which can promote people to enjoy fun, such as a shuffling machine, are gradually appeared on the market, but most of the shuffling machines on the market can only shuffle a plurality of cards once, and continuous and repeated shuffling in the shuffling machine cannot be realized, so that the shuffling effect is poor, that is, the effect of disturbing the card group is poor.

Disclosure of Invention

The utility model aims at solving the problems in the prior art and provides a circulating shuffling machine capable of shuffling a plurality of times by a plurality of card groups.

The aim of the utility model can be achieved by the following technical scheme: a circulation shuffler comprising:

a base;

the first shuffling body is arranged on the base and can be lifted relative to the base;

the pair of second shuffling bodies are arranged on the base, and can synchronously lift relative to the base, and are respectively positioned at two sides of the first shuffling body; the base is provided with hinge parts, the number of which is the same as that of the second shuffling bodies, and each second shuffling body is hinged with the first shuffling body through the hinge parts; cards in the first shuffling body can be transferred into one of the second shuffling bodies, cards in the two second shuffling bodies can be simultaneously transferred into the first shuffling body, and the movement directions of the first shuffling body and the second shuffling body are opposite;

the driving parts are arranged on the base, and each driving part can drive the adjacent second shuffling body and the first shuffling body to lift relative to the base.

In the above-mentioned circulation type shuffling machine, the hinge member includes a support column disposed on the base, and each support column is hinged with a connecting rod, wherein, one end of the connecting rod is slidably connected with the adjacent second shuffling body, and the other end of the connecting rod is slidably connected with the first shuffling body.

In the above-mentioned circulating type shuffling machine, every the second shuffling body all includes the second box body, the second spout has been seted up on the lateral surface of second box body, every the both ends of connecting rod all are equipped with the end post, all are equipped with the anticreep ring on every end post, and the second spout of passing of one of them end post is located the inside of second box body to the anticreep ring on this end post.

In the above-mentioned circulation type shuffling machine, at least two second inclined planes are arranged on a side surface in the second box body, bosses with the same number as the second inclined planes are arranged at the bottom of the side surface, and anti-falling sheets are also arranged at the top of the side surface; the second box body is characterized in that a pad table is arranged on the inner bottom surface of the second box body, and a second baffle is movably arranged on the other side surface of the inner part of the second box body.

In the above-mentioned circulation type shuffling machine, the top of the second baffle plate is provided with a second inclined plate, the top of the second box body, which is positioned on one side surface of the second baffle plate, is provided with a second through hole, the bottom of the side surface is provided with a second outlet, the bottom edge of the second baffle plate can block the second outlet, and the part of the second inclined plate, which passes through the part right above the second baffle plate, is positioned in the second through hole; the base is provided with a plurality of second vertical rods, and each second vertical rod penetrates through the second box body.

In the above-mentioned circulation type shuffling machine, the bottom of the second box body is detachably connected with a second bottom shell, a second grinding wheel is movably mounted on the second bottom shell, a second through hole is arranged at the bottom of the second box body, the side surface of the second grinding wheel passes through the second through hole, a second motor with a second gear is arranged on the second bottom shell, and the second gear is meshed with the end part of the second grinding wheel.

In the above-mentioned circulating type shuffling machine, the first shuffling body comprises a first box body, a first chute is formed in the outer side face of the second box body, an end post far away from one end of the second shuffling body is arranged on the connecting rod and penetrates through the second chute, and an anti-drop ring on the end post is located in the first box body.

In the above-mentioned circulation type shuffling machine, the two side walls inside the first box body are provided with the first baffle plates in a sliding manner, the top of each first baffle plate is provided with the first sloping plate, the top of the first box body, which is positioned on one side surface of the first baffle plate, is provided with the first through hole, the bottom of the side surface is provided with the first outlet, the bottom edge of the first baffle plate can block the first outlet, and the part of the first sloping plate, which passes through the upper part of the first baffle plate, is positioned in the first through hole; the base is provided with a plurality of first vertical rods, and each first vertical rod penetrates through the first box body.

In the above-mentioned circulation type card shuffling machine, the bottom of first box body is detachably connected with first drain pan, and movable mounting has the first emery wheel the same with first export quantity on first drain pan, is equipped with the first thru hole the same with first export quantity in the bottom of first box body, and the side of this first emery wheel passes first thru hole, set up the first motor that has first gear on the first drain pan, this first gear meshes with the tip of one of them first emery wheel.

In the above-mentioned circulation type shuffling machine, each of the second inclined planes is provided with a first sensor, and the inner bottom surface of the first box body is provided with a second sensor.

Compared with the prior art, the utility model has the following beneficial effects:

in the utility model, through the cooperation of the hinge part and the driving part, the first shuffling body and the second shuffling body can move up and down in opposite directions, when the first shuffling body reaches a designated height, cards in the first shuffling body can be transferred into two second shuffling bodies, when the two shuffling bodies reach a preset height, cards in the two second shuffling bodies can be simultaneously transferred into the first shuffling body, and the actions are repeated, so that repeated shuffling of cards can be realized.

Drawings

Figure 1 is a schematic of the external structure of a circulation shuffler.

Figure 2 is a schematic of the internal structure of the circulation shuffler.

Fig. 3 is a schematic view of the structure of a second shuffler body.

Fig. 4 is a schematic view of the second shuffler body of fig. 3 from another perspective.

Fig. 5 is a schematic structural view of the second bottom chassis.

Fig. 6 is a schematic structural view of the second case.

Fig. 7 is a schematic structural view of the connecting rod.

Fig. 8 is a schematic view of the structure of the first shuffling body.

Fig. 9 is a schematic view of the structure of fig. 8 with the lifter plate removed.

Fig. 10 is a schematic structural view of the first case.

Fig. 11 is a schematic structural view of the first bottom chassis.

Fig. 12 is a schematic structural view of the lifter plate.

Fig. 13 is a schematic structural view of the second shutter.

Fig. 14 is a schematic structural view of the first shutter.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 14, a circulation type shuffler of the present utility model includes a base 100, a first shuffler body 200, a second shuffler body 300, a hinge 400, and a driving member 500.

The first shuffling body 200 is arranged on the base 100, the first shuffling body 200 can be lifted relative to the base 100, two second shuffling bodies 300 are arranged on the base 100, two second shuffling bodies 300 can be lifted synchronously relative to the base 100, and two second shuffling bodies 300 are respectively arranged on two sides of the first shuffling body 200; the base 100 is provided with hinge pieces 400 the same as the second shuffling bodies 300 in number, and each second shuffling body 300 is hinged with the first shuffling body 200 through the hinge piece 400; cards in the first shuffling body 200 may be transferred to two second shuffling bodies 300, and cards in two second shuffling bodies 300 may be transferred to the first shuffling body 200 at the same time; the two driving members 500 are provided, the two driving members 500 are all arranged on the base 100, each driving member 500 can simultaneously drive the adjacent second shuffling body 300 and the first shuffling body 200 to lift relative to the base 100, when shuffling, people need to simultaneously operate the two driving members 500 to drive the first shuffling body 200 to lift relative to the base 100, meanwhile, the driving members 500 can drive the corresponding second shuffling bodies 300 to descend, in the process, the hinge members 400 can correspondingly rotate relative to the base 100 to ensure that the first shuffling body 200 and the second shuffling body 300 can move in opposite directions, and can accurately control the relative distance between the first shuffling body 200 and the second shuffling body 300 when the first shuffling body 200 moves to a designated place, namely, when the second shuffling body 300 descends to the designated place, the two driving members 500 are stopped simultaneously, so that people can place cards on the first shuffling body 200, after that, the first shuffling body 200 can transfer the cards inside the first shuffling body 200 into the two first shuffling bodies 200 respectively, after that, the driving members 500 can rotate reversely, so that the first shuffling body 200 descends, the two second shuffling bodies 300 ascend synchronously, the first shuffling body 200 descends to a preset position, after the second shuffling bodies 300 ascend to a preset height, the two second shuffling bodies 300 alternately gather the cards inside the first shuffling bodies 200, thus realizing the first shuffling, after the cards inside the two second shuffling bodies 300 are gathered into the first shuffling bodies 200, the driving members 500 drive the first shuffling bodies 200 to ascend again, and simultaneously drive the second shuffling bodies 300 to descend, then, the above actions are repeated, multiple shuffling of cards can be achieved.

As shown in fig. 2, 3 and 7-8, the hinge 400 includes support columns 410 disposed on the base 100, each support column 410 is hinged with a connecting rod 420, wherein one end of each connecting rod 420 is slidably connected with an adjacent second shuffling body 300, the other end of each connecting rod 420 is slidably connected with a first shuffling body 200, each second shuffling body 300 includes a second box body 310, a second sliding groove 311 is disposed on an outer side surface of each second box body 310, end posts 421 are disposed at two ends of each connecting rod 420, each end post 421 is provided with a drop-preventing ring 422, one end post 421 passes through the second sliding groove 311, the drop-preventing ring 422 on the end post 421 is located in the second box body 310, the end post 421 can slide in the second sliding groove 311, the first shuffling body 200 includes a first box body 210, a first sliding groove 211 is disposed on an outer side surface of the second box body 310, the end post 421 of one end of each connecting rod 420 far from the second shuffling body 300 passes through the second sliding groove 311, and the end post 421 can slide in the first sliding groove 211, the anti-drop ring 422 on the end post 421 is located inside the first box 210, when the first box 210 rises and the second box 310 falls or the second box 310 rises and the first box 210 falls, because the first box 210 is hinged with the connecting rod 420 through one end post 421 and the second box 310 is hinged with the connecting rod 420 through the other end, the connecting rod 420 rotates relative to the supporting column 410 to ensure that the first box 210 and the second box 310 hinged by the same connecting rod 420 can move in opposite directions, during the process, one end post 421 slides in the first sliding groove 211, the other end post 421 moves in the second sliding groove 311 to avoid stress between the end post 421 and the first box 210 and stress between the end post 421 and the second box 310, that is, the first and second cartridges 210 and 310 can be smoothly lifted.

The driving member 500 includes a motor 510 mounted on the base 100 and a belt 520, one end of the belt 520 is connected with the bottom of the first shuffling body 200, the other end is connected with the bottom of the second shuffling body 300, the motor 510 is provided with a driving wheel 511, the driving wheel 511 is located under the adjacent second shuffling body 300, the base 100 is located under the first shuffling body 200 and is provided with a guiding wheel 530, the belt 520 bypasses the driving wheel 511 and the guiding wheel 530, when in operation, the motor 510 drives the driving wheel 511 to rotate, the driving wheel 511 drives the belt 520 to correspondingly rotate, so that the belt 520 can drive the first shuffling body 200 to lift relative to the base 100, and the second shuffling body 300 can lift relative to the base 100 at the same time.

As shown in fig. 2-6, 8 and 13, at least two second inclined planes 312 are arranged on one side surface of the inside of the second box body 310, the bottom of the side surface is provided with bosses 313 the same as the second inclined planes 312 in number, and the top of the side surface is also provided with an anti-falling sheet 314; a pad 315 is disposed on the bottom surface of the second casing 310, a second baffle 320 is movably disposed on the other side surface of the second casing 310, when the cards fly from the first casing 210 into the second casing 310, a side edge of the cards close to the second inclined surface 312 contacts with the second inclined surface 312 in preference to the second inclined surface 312 and impacts the second inclined surface 312, and an acute angle is formed between the second inclined surface 312 and a side surface of the second casing 310 away from the second baffle 320, so that the side edge of the cards close to the second inclined surface 312 is inclined under the guidance of the second inclined surface 312, i.e., the side edge of the cards in contact with the second inclined surface 312 is higher than the side edge of the cards away from the second inclined surface 312, and thereafter, the cards fall onto the bottom surface of the second casing 310 under the action of gravity and are supported by the pad 315 and the boss 313; in the above process, when the first card tilts in the second box 310, the second card entering the second box 310 is smoothly located above the first card, so as to avoid the situation that two cards collide and the plurality of cards interfere in the second box 310; further, by the arrangement of the anti-falling piece 314, when the cards strike the second inclined plane 312, the cards are prevented from flying out from the second box body 310, so that the cards can be ensured to smoothly fall into the second box body 310; further, the second casing 310 and the first casing 210 are rectangular frames, so that the bottom surface of the second casing 310 is perpendicular to each side surface of the second casing 310, so that the bottom surface of the first casing 210 is perpendicular to each side surface of the first casing 210, and when a card flies out from the bottom surface of the first casing 210, the card is always parallel to the bottom surface of the second casing 310 and smoothly impacts the second inclined surface 312.

The top of the second baffle 320 is provided with a second inclined plate 321, the top of the second box body 310, which is positioned on one side surface of the second baffle 320, is provided with a second through hole 316, and when in operation, cards in the first box body 210 can smoothly fly into the second box body 310 through the second through hole 316; the bottom of the side is provided with a second outlet 317, the bottom edge of the second baffle 320 can block the second outlet 317, the part of the second inclined plate 321 penetrating right above the second baffle 320 is positioned in the second through hole 316, further, both sides of the second baffle 320 are provided with sliding lugs 322, the second box body 310 is internally provided with second guiding grooves 319 for guiding the sliding lugs 322 to lift, the sliding lugs 322 are clamped into the second guiding grooves 319, the second guiding grooves 319 are internally provided with second springs 319a, wherein the bottom of the second springs 319a is propped against the sliding lugs 322, the top of the second springs 319a is propped against the top of the second guiding grooves 319, under the condition that the second baffle 320 does not work, the second baffle 320 is under the elastic action of the second springs 319a, the second baffle 320 blocks the second outlet 317, when the cards positioned in the second box body 310 are subjected to external force, the cards positioned in the second box body 310 squeeze the second baffle 320, so that the second baffle 320 automatically lifts up, as the second baffle 319 flies from the second outlet 319 and is completely compressed into the second baffle body 320 when the second baffle body 320 is completely compressed; further, when the cards are located in the second box 310, that is, when the boss 313 and the pad 315 support the cards at the same time, one side of the cards located on the pad 315 is aligned with the gap between the second baffle 320 and the bottom surface of the second box 310, so that the second baffle 320 can be lifted smoothly when the cards are pulled.

The base 100 is provided with a plurality of second vertical rods 110, each second vertical rod 110 passes through the second box body 310, and the second box body 310 can be lifted and lowered in a directional manner relative to the base 100 through the arrangement of the plurality of second vertical rods 110.

The bottom of the second box 310 is detachably connected with a second bottom shell 330, a second grinding wheel 331 is movably mounted on the second bottom shell 330, a second through hole 318 is arranged at the bottom of the second box 310, the side surface of the second grinding wheel 331 passes through the second through hole 318, a second motor 332 with a second gear 332a is arranged on the second bottom shell 330, the second gear 332a is meshed with the end part of the second grinding wheel 331, when the second motor 332 drives the second gear 332a to rotate, the second grinding wheel 331 synchronously rotates, and at the moment, the side surface of the second grinding wheel 331 is contacted with the cards in the second box 310, so that the second grinding wheel 331 can drive the cards to move through friction force between the second grinding wheel 331, namely, the cards are subject to traction force of the second grinding wheel 331 at the moment, and fly out of the second box 310 and fly into the first box 210.

As shown in fig. 8-12 and 14, the two side walls inside the first box body 210 are provided with first baffle plates 220 in a sliding manner, the top of each first baffle plate 220 is provided with a first inclined plate 221, the top of one side surface of each first baffle plate 220 of the first box body 210 is provided with a first through hole 212, when a card in one second box body 310 enters the first box body 210 through the second outlet 317 and the first through hole 212 adjacent to the first box body 210, one side edge of the card preferentially impacts the first inclined plate 221 on the opposite surface of the second box body 310, and as an included angle is formed between the first inclined plate and the first baffle plate, the first inclined plate is parallel to the adjacent inner wall of the first box body, the card moves along the first inclined plate 221, that is, the card at the moment is slightly inclined, then the card which is inclined is subjected to the action of gravity and falls to the bottom of the first box body 210, and in the process, the other card in the second box body 310 is alternately folded and the two cards are stacked together, so that the two cards are washed together; further, the portion of the first inclined plate 221 passing through the top of the first baffle 220 is located in the first through hole 212, so that when the card hits the first inclined plate 221 and is inclined by the first inclined plate 221, the first inclined plate 221 has a sufficient distance for buffering the card, and the card is prevented from flying out through the first through hole 212; furthermore, by setting the running time intervals of the two second motors, the function that the cards in the two second boxes alternately fly into the first box can be realized.

The bottom of the two sides of the first box 210 is provided with a first outlet 213, the bottom edge of the first baffle 220 can block the first outlet 213, the two sides of the first baffle 220 are provided with movable lugs 222, the first box 210 is internally provided with a first guiding groove 214 for guiding the movable lugs 222 to lift, the movable lugs 222 are clamped into the first guiding groove 214, the first guiding groove 214 is internally provided with a first spring 214a, wherein the bottom of the first spring 214a is propped against the movable lugs 222, and the top of the first spring 214a is propped against the top of the first guiding groove 214.

Under the condition that the first baffle 220 does not work, the first baffle 220 is under the action of the elastic force of the first spring 214a, the first baffle 220 blocks the first outlet 213, when the cards in the first box 210 are under the external traction force, the cards in the first box 210 press the first baffle 220 to lift the first baffle 220, so that the cards fly out of the first box 210 smoothly through the first outlet 213 and fly into the second box 310, and at the same time, the first spring 214a is stressed and compressed, and when the cards are completely separated from the first box 210, the first baffle 220 is under the action of the first spring 214a and the first baffle 220 is automatically reset; further, when the cards are located at the bottom of the first box 210, the cards located in the first box 210 and at the lowest position are aligned with the gap between the first baffle 220 and the bottom surface of the first box 210, so that the first baffle 220 can be lifted smoothly when the cards are pulled.

The bottom of the first box 210 is detachably connected with the first bottom shell 230, the first grinding wheels 231 with the same number as the first outlets 213 are movably installed on the first bottom shell 230, the bottom of the first box 210 is provided with first through holes 215 with the same number as the first outlets 213, the side surfaces of the first grinding wheels 231 penetrate through the first through holes 215, when the first grinding wheels 231 rotate, the side surfaces of the first grinding wheels 231 are contacted with the cards in the first box 210, so that the cards are driven to move by friction between the first grinding wheels 231 and the cards, namely, the cards are subjected to traction of the first grinding wheels 231, and fly out of the first box 210 and fly into the second box 310 until the cards strike the second inclined surfaces 312 of the second box 310.

The first bottom shell 230 is provided with a first motor 232 with a first gear 232a, the first gear 232a is meshed with the end part of one first grinding wheel 231, the first bottom shell 230 is also provided with a cylindrical main gear 233, a secondary gear 234 is arranged between each main gear 233 and the first grinding wheel 231, the end part of the main gear 233 and the end part of the first grinding wheel 231 are meshed with the adjacent secondary gears 234, when the first motor 232 rotates, the first grinding wheel 231 meshed with the first gear 232a rotates, in the process, through the rotation of the main gear 233 and the two secondary gears 234, the other first grinding wheel 231 correspondingly rotates, and the rotation directions of the two first grinding wheels 231 are the same, namely, the situation that the two first grinding wheels 231 produce opposite traction force on the same card is avoided.

The lifting plate 216 is movably installed in the first box 210, the first bottom shell 230 is provided with a plurality of third motors 235, each third motor 235 is provided with a screw rod 235a, each screw rod 235a passes through the bottom of the first box 210, threads pass through the lifting plate 216, penetrating grooves 216a for the first grinding wheel 231 to pass through are formed in both sides of the lifting plate 216, when the bottom surface of the lifting plate 216 is attached to the bottom surface of the first box 210, the side surface of the first grinding wheel 231 is just contacted with the cards, so that when the first grinding wheel 231 rotates, the first grinding wheel 231 can drive the cards to correspondingly move, namely, the cards positioned in the first box 210 can fly from the first box 210 to the second box 310 smoothly; when shuffling is finished or the lifting plate 216 is to hold cards, a person needs to control the third motor 235 to drive the screws 235a to rotate, and each screw 235a passes through the lifting plate 216, so that the screws 235a drive the lifting plate 216 to lift relative to the first box 210, and thus, the cards can be sent out of the first box 210 and the cards can be conveniently placed on the lifting plate 216 by the person.

The base 100 is provided with a plurality of first vertical rods 120, each first vertical rod 120 penetrates through the first box body 210, and the first box body 210 can be lifted and lowered in a directional manner relative to the base 100 through the movable penetration of the plurality of first vertical rods 120 through the first box body 210.

As shown in fig. 1 and 2, a casing 130 surrounding the first shuffling body 200 and the second shuffling body 300 is provided on the base 100, an upper cover 140 is provided on the casing 130, a taking opening 141 is provided on the upper cover 140, the taking opening 141 is located right above the first shuffling body 200, a control screen 142 is provided on the upper cover 140, a control system of the shuffling machine is electrically connected with the control screen 142, wherein the first motor 232, the second motor 332 and the third motor 235 are all electrically connected with the control screen 142.

As shown in fig. 4, each of the second inclined planes 312 is provided with a first sensor 312a electrically connected to the control screen 142, in the present utility model, the first sensor 312a is preferably a pressure sensor, when cards fly out of the first box 210 and fly into the second box 310, the cards will preferentially strike the first sensor 312a on the second inclined plane 312, so that the first sensor 312a will generate a pressure change, and this information will be transmitted to the control screen 142, the control screen 142 displays a reading, and after repeating the above actions, the control screen 142 will superimpose the striking times received by the two first sensors 312a, so as to obtain all the card numbers; further, during the process of transferring cards from the first box 210 to the second box 310, if one of the first sensors 312a does not acquire an impact reading for a long time, the control system of the card shuffling machine determines that a card has been jammed, thereafter, the control system automatically controls the first motor 232 to rotate reversely for a certain time to force the jammed cards to move reversely, and then controls the first motor 232 to rotate forward, if the first sensor acquires an impact reading, the control system controls the first motor to continue to rotate forward, if the first sensor 312a still does not acquire an impact reading of a card, the control system repeatedly controls the first motor to rotate reversely again, and after three times of the actions, the first sensor 312a still does not acquire an impact reading of a card, at this time, the control system determines that the card shuffling machine cannot be repaired by the means, and gives an alarm and displays the card through the display screen, and people can only disassemble the card shuffling machine manually, thereby solving the problem of card.

As shown in fig. 3, a second sensor 340 is disposed on the inner bottom surface of the first casing 210, and the second sensor 340 is preferably a photoelectric sensor, and the second sensor 340 monitors whether cards are still present in the second casing 310 at any time, when cards are present in the second casing 310 and the second casing 310 rises to a designated height, the second motor 332 continuously operates, and when the second sensor 340 detects that no cards are present in the second casing 310, the second casing 310 starts to descend, and the second motor 332 stops operating at the same time.

The base 100 is provided with a first position sensor (not labeled in the figure), the first position sensor is located right below the first box 210, when the bottom of the first box 210 contacts the first position sensor, it indicates that the first box 210 has fallen to a preset position, that is, the second box 310 has risen to a preset height; the base 100 is provided with a second position sensor (not shown) located directly below the second box 310, and when the bottom of the second box 310 contacts the second position sensor, it indicates that the second box 310 has been lowered to a predetermined position, that is, the first box 210 has been raised to a predetermined height.

Further, the bottom edge of the first baffle 220 and the bottom edge of the second baffle 320 are both configured to be arc-shaped, so as to guide the cards to smoothly enter the first outlet 213 of the first casing 210 and enter the second outlet 317 of the second casing 310.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to herein as "first," "second," "a," and the like are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical solutions of the embodiments of the present utility model may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present utility model.

Claims (10)

1. A circulation shuffler comprising:

a base;

the first shuffling body is arranged on the base and can be lifted relative to the base;

the pair of second shuffling bodies are arranged on the base, and can synchronously lift relative to the base, and are respectively positioned at two sides of the first shuffling body; the base is provided with hinge parts, the number of which is the same as that of the second shuffling bodies, and each second shuffling body is hinged with the first shuffling body through the hinge parts; cards in the first shuffling body can be transferred into two second shuffling bodies, and cards in the two second shuffling bodies can be transferred into the first shuffling body at the same time;

the pair of driving pieces are arranged on the base, each driving piece can drive the adjacent second shuffling body and the first shuffling body to lift relative to the base at the same time, and the movement directions of the first shuffling body and the second shuffling body are opposite.

2. The circulation shuffler of claim 1, wherein the hinge member includes support posts on the base, each support post being hinged with a link, wherein one end of the link is slidably connected to the adjacent second shuffler body and the other end of the link is slidably connected to the first shuffler body.

3. The circulation shuffler of claim 2, wherein each of said second shuffler bodies includes a second housing having a second chute formed in an outer side thereof, each of said links having end posts at both ends thereof, each of said end posts having an anti-slip ring, one of said end posts extending through said second chute, said anti-slip ring being disposed within said second housing.

4. The circulation type shuffling machine as claimed in claim 3, wherein at least two second inclined planes are arranged on one side surface of the interior of the second box body, bosses with the same number as the second inclined planes are arranged at the bottom of the side surface, and anti-falling sheets are further arranged at the top of the side surface; the second box body is characterized in that a pad table is arranged on the inner bottom surface of the second box body, and a second baffle is movably arranged on the other side surface of the inner part of the second box body.

5. The circulation type shuffling machine as claimed in claim 4, wherein a second inclined plate is arranged at the top of the second baffle, a second through hole is arranged at the top of a side surface of the second baffle, a second outlet is arranged at the bottom of the side surface, the bottom edge of the second baffle can block the second outlet, and the part of the second inclined plate penetrating out of the position right above the second baffle is positioned in the second through hole; the base is provided with a plurality of second vertical rods, and each second vertical rod penetrates through the second box body.

6. The circulation shuffler of claim 5, wherein a second bottom case is detachably connected to a bottom of the second casing, a second grinding wheel is movably mounted on the second bottom case, a second through hole is formed in the bottom of the second casing, a side surface of the second grinding wheel passes through the second through hole, and a second motor with a second gear is disposed on the second bottom case, and the second gear is meshed with an end portion of the second grinding wheel.

7. The circulation shuffler of claim 4, wherein the first shuffler body includes a first housing, a first chute is formed in an outer side of the second housing, and an end post on an end of the link remote from the second shuffler body passes through the second chute, and an anti-slip ring on the end post is located inside the first housing.

8. The circulation type shuffling machine of claim 7, wherein a first baffle is slidably mounted on both side walls of the interior of the first box body, a first sloping plate is arranged at the top of each first baffle, a first through hole is arranged at the top of one side surface of the first box body, a first outlet is arranged at the bottom of one side surface of the first baffle, the bottom edge of the first baffle can block the first outlet, and the part of the first sloping plate penetrating out of the position right above the first baffle is positioned in the first through hole; the base is provided with a plurality of first vertical rods, and each first vertical rod penetrates through the first box body.

9. The circulation type shuffling machine as claimed in claim 8, wherein the bottom of the first box body is detachably connected with a first bottom shell, first grinding wheels with the same number as the first outlets are movably installed on the first bottom shell, first through holes with the same number as the first outlets are formed in the bottom of the first box body, the side surfaces of the first grinding wheels penetrate through the first through holes, and a first motor with a first gear is arranged on the first bottom shell, and the first gear is meshed with the end portion of one of the first grinding wheels.

10. The circulation shuffler of claim 7, wherein each of said second inclined surfaces has a first sensor thereon and said first housing has a second sensor on an interior bottom surface thereof.