CN219681641U - Recreational machine circulation system - Google Patents

Abstract

The utility model relates to a recreational machine circulation system, which comprises a classification device, a pushing device, a scoring coin circulation device, a scoring small ball circulation device and a scoring big ball circulation device, wherein the classification device is used for separating scoring coins, scoring small balls and scoring big balls; the pushing device is used for pushing the scoring coin, the scoring small ball and the scoring big ball on the game table surface to the classifying device; the inlet of the coin counting circulation device is connected with the output end of the filter belt; the inlet of the scoring bead circulation device is arranged below the filter belt and is communicated with each filter hole of the filter belt; the inlet of the scoring big ball circulating device is communicated with the outlet of the big ball slideway; therefore, the circulating system of the recreational machine can automatically realize separation and circulation of coin counting, small scoring balls and large scoring balls, can improve separation efficiency, reduce workload of staff, reduce the storage quantity of scoring articles required by the recreational machine, reduce the requirement on the storage space of the recreational machine and reduce the cost of the recreational machine.

Description

Recreational machine circulation system

Technical Field

The utility model relates to the technical field of entertainment equipment, in particular to a circulating system of an entertainment machine.

Background

In the existing game machine products, there is a product of pushing coins or pushing beads, namely, players obtain coins or scoring balls through interaction with the game machine, then push the coins or scoring balls away from the table of the game machine to obtain corresponding rewards, with the increase of playing methods, the existing game machine needs to use various scoring objects, such as coins, scoring balls and scoring balls, in the process of playing games, the coins, the scoring balls and the scoring balls are mixed together, at present, after the business of a day is finished, the coins, the scoring balls and the scoring balls are manually separated, the efficiency is low, the workload is high, a large number of coins, the scoring balls and the scoring balls are needed to be prepared, and the game machine needs to be provided with a large storage space, so that the equipment cost is increased, and how to separate the three scoring objects for recycling becomes an important technical problem to be solved by a person in the field.

Disclosure of Invention

The utility model aims to provide a circulating system of a recreational machine, which can separate and recycle coin counting, small scoring balls and large scoring balls, so that the separation efficiency is improved, the separation time is shortened, the workload is reduced, the requirement on reserve space of the recreational machine is reduced, and the cost of the recreational machine is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a game machine circulation system for collecting score coins, score pellets and score balls on a game playing surface of a game machine and respectively returning the score coins, score balls and score balls to the game playing surface after sorting, the game machine circulation system comprising:

the classifying device comprises a screening device and a filtering belt mechanism, the screening device comprises a grid plate and a big ball slideway, the grid plate is closely adjacent to the game table surface, the big ball slideway and the grid plate are arranged side by side on one side of the grid plate far away from the game table surface, the score coin and the score small ball can be separated from the score large ball through a grid hole of the grid plate, the big ball slideway is used for enabling the screened score large ball to slide out of the classifying device, the filtering belt mechanism comprises a belt driving device and a filtering belt, the belt driving device drives the filtering belt to circularly rotate, the filtering belt is arranged below the grid plate, and the filtering belt is provided with a filtering hole for the score small ball to pass through so as to separate the score coin from the score small ball;

pushing means for pushing the score coin, the score bead and the score ball on the game table toward the grate plate of the classifying means;

The inlet of the counting coin circulating device is connected with the output end of the filtering belt so as to receive the counting coins separated by the sorting device and circularly send the counting coins back to the game table;

the inlet of the scoring ball circulating device is arranged below the filtering belt and is communicated with each filtering hole of the filtering belt so as to receive the scoring ball and circularly send the scoring ball back to the game table;

the inlet of the scoring big ball circulating device is communicated with the outlet of the big ball slideway so as to receive the scoring big ball and circularly send the scoring big ball back to the game table.

Optionally, the score coin recycling device includes:

the coin feeding device comprises a coin feeding rotary table and a coin feeding driving device, wherein the coin feeding rotary table is connected with the driving end of the coin feeding driving device, and a plurality of coin limiting grooves are uniformly distributed on the coin feeding rotary table along the circumferential direction;

the inlet of the coin inlet slide way is communicated with the coin scoring outlet of the sorting device, and the outlet of the coin inlet slide way is arranged opposite to the coin feeding rotary table;

the coin outlet slide way is characterized in that an inlet of the coin outlet slide way is opposite to the coin feeding rotary table, an outlet of the coin outlet slide way is arranged on the game table surface, a coin outlet slide way which can be used for the score coin to pass through is arranged at a position, opposite to the inlet of the coin outlet slide way, of the coin feeding device, and the coin limiting groove is communicated with the inlet of the coin outlet slide way through the coin outlet slide way when the coin feeding rotary table rotates to a preset position along with the coin feeding rotary table.

Optionally, the scoring pellet cycle device comprises:

the ball feeding device comprises a ball feeding hopper, a ball feeding rotary table and a ball feeding driving device, wherein the ball feeding rotary table is rotatably arranged in the ball feeding hopper, the driving end of the ball feeding driving device is in transmission connection with the ball feeding rotary table, a ball discharging chute and a plurality of ball limiting grooves which are circumferentially arranged along the ball feeding rotary table are formed between the ball feeding rotary table and the ball feeding hopper, and the ball limiting grooves are communicated with the ball discharging chute when rotating to a preset position along with the ball feeding rotary table;

the ball feeding slide way is provided with a first counting mechanism;

the small ball discharging slide way is characterized in that an inlet of the small ball discharging slide way is communicated with the discharging slide way, and an outlet of the small ball discharging slide way is arranged on the game table surface.

Optionally, the score ball circulating device further comprises a ball outlet device, the ball outlet device comprises a ball stopping mechanism and a second counting mechanism, the ball stopping mechanism comprises a mounting bracket, a ball stopping swing arm and a swing arm reset piece, the mounting bracket is arranged at the outlet of the ball outlet slideway, the ball stopping swing arm is rotatably arranged at the mounting bracket, the swing arm reset piece is arranged between the first end of the ball stopping swing arm and the mounting bracket, the swing arm reset piece is used for enabling the second end of the ball stopping swing arm to be kept at a position for shielding the outlet of the ball outlet slideway, and the second counting mechanism is arranged at one side, away from the outlet of the ball outlet slideway, of the second end of the ball stopping swing arm.

Optionally, the scoring big ball circulation device comprises:

the lifting device comprises a shell, a lifting track, a lifting mechanism and a gate mechanism, wherein the lifting track is arranged in the shell, the shell is provided with a big ball inlet and a big ball outlet which are respectively communicated with two ends of the lifting track, the lifting mechanism is arranged in the shell, a driving end of the lifting mechanism can move along the lifting track to drive the scoring big ball to move from the big ball inlet to the big ball outlet along the lifting track, the gate mechanism is arranged at the big ball inlet, and the gate mechanism comprises a gate and a gate driving device, and the gate driving device is in transmission connection with the gate to drive the gate to open or close the big ball inlet;

the inlet of the big ball feed slide way is communicated with the scoring big ball outlet of the classifying device, and the outlet of the big ball feed slide way is communicated with the big ball inlet through the gate mechanism;

the big ball outlet slide way, the entry of big ball outlet slide way with big ball outlet intercommunication, big ball outlet slide way's export with set up rotary mechanism between the game surface, rotary mechanism rotates to the first position, big ball outlet slide way's export with game surface intercommunication, rotary mechanism rotates to the second position, big ball outlet slide way's export with game surface disconnection.

Optionally, the screening device further comprises a hopper, the grate plate and the big ball slide way are arranged at an upper end opening of the hopper, the lowest end of the big ball slide way is arranged at a side wall of the hopper to form an outlet for screening out the scoring big balls to slide out of the sorting device, and a lower end opening of the hopper is communicated with a grate hole of the grate plate and a lower end opening of the hopper is arranged above the filtering belt.

Optionally, the grate holes of the grate plate are communicated with the lower end opening of the hopper through a zigzag slow-falling slideway.

Optionally, a coin counting sensor is arranged between the screening device and the filter belt mechanism, and the coin counting sensor is used for scanning the coin counting on the filter belt.

Optionally, the grate plate is arranged obliquely downwards from one side far away from the big ball slideway to one side close to the big ball slideway.

Optionally, the belt driving device comprises a belt driving motor, a driving roller and a driven roller, wherein the output end of the belt driving motor is connected with the driving roller through an eccentric device, and the filtering belt is wound on the driving roller and the driven roller.

The utility model discloses a game machine circulation system, which is used for collecting scoring coins, scoring pellets and scoring large balls on a game table of the game machine and respectively sending the scoring large balls back to the game table after classification, wherein the game machine circulation system comprises a classification device, a pushing device, a scoring coin circulation device, a scoring pellet circulation device and the scoring large ball circulation device, the classification device comprises a sieving device and a filtering belt mechanism, the sieving device comprises a grid plate and a large ball slideway, the grid plate is arranged close to the game table, the large ball slideway and the grid plate are arranged side by side at one side of the grid plate far away from the game table, the scoring coins and the scoring small balls can be separated from the scoring large balls through grid holes of the grid plate, the large ball slideway is used for enabling the scoring large balls separated by the sieving to slide out of the classification device, the filtering belt mechanism comprises a belt driving device and a filtering belt, the filtering belt is driven by the belt to circulate, the filtering belt is arranged below the grid plate, and the filtering belt is provided with a filtering hole for enabling the scoring pellets to pass through to separate the scoring coins from the small balls; the pushing device is used for pushing the scoring coin, the scoring small ball and the scoring big ball on the game table surface to the grid plate of the classifying device; the inlet of the counting and coin recycling device is connected with the output end of the filtering belt so as to receive the counting and coin separated by the sorting device and circularly send the counting and coin back to the game table; the inlet of the scoring pellet circulating device is arranged below the filter belt and is communicated with each filter hole of the filter belt so as to receive the scoring pellets and circularly send the scoring pellets back to the game table; the inlet of the scoring big ball circulating device is communicated with the outlet of the big ball slideway so as to receive the scoring big ball and circularly send the scoring big ball back to the game table.

When the classifying device is applied, the pushing device pushes the coin, the score small ball and the score big ball on the game table surface to the classifying device, because the grid plate is arranged close to the game table surface, the coin, the score small ball and the score big ball firstly pass through the grid plate of the classifying device, when the coin, the score small ball and the score big ball pass through the grid plate of the classifying device, the coin and the score small ball pass through the grid holes of the grid plate, and the score big ball can not enter the grid holes of the grid plate to be separated from the coin and the score small ball, and then falls into the big ball slideway under the action of self inertia or self gravity or the pushing force of the game machine to be output from the outlet of the big ball slideway, enter the inlet of the score big ball circulating device and be circulated back to the game table surface through the score big ball circulating device, so as to finish the screening of the score big ball; when the coin and the scoring ball fall to the filter belt, the filter hole of the filter belt only can be used for the scoring ball to pass through, so that the coin falls on the filter belt and moves to one end of the filter belt along with the filter belt, then leaves the sorting device from one end of the filter belt, enters the inlet of the scoring coin circulating device, is circularly sent back to the game table through the scoring coin circulating device, passes through the filter hole and falls below the filter belt, enters the inlet of the scoring ball circulating device and is circularly sent back to the game table through the scoring ball circulating device, the separation and recycling of the coin, the scoring ball and the scoring ball are finished, the separation and recycling of the scoring ball and the scoring ball can be automatically realized by the circulating system of the game machine, manual participation is not needed, the separation efficiency can be improved, the workload of staff can be reduced, the recycling of the coin, the scoring ball and the scoring ball can be realized, the number of the scoring ball and the scoring ball can be circularly used by the game machine, the number of the scoring ball can be reduced, and the number of the scoring ball can be circularly used by the scoring ball, and the game machine can be further, and the requirement on the game machine can be reduced, and the cost of the game machine can be saved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a circulation system of an amusement machine according to an embodiment of the present utility model;

FIG. 2 is a schematic view of an embodiment of a circulating system of an amusement machine according to another aspect of the present utility model;

FIG. 3 is a schematic diagram illustrating an exploded view of a circulation system of an amusement machine according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a classification apparatus of a circulating system of an entertainment machine according to an embodiment of the present utility model;

FIG. 5 is an exploded view of a sorting apparatus of a circulation system of an amusement machine according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a score coin recycling apparatus of a recreational machine recycling system according to an embodiment of the present utility model;

FIG. 7 is an exploded view of a score coin recycling apparatus of a game machine recycling system according to an embodiment of the present utility model;

FIG. 8 is an exploded view of a score pellet circulation device of a recreational machine circulation system according to an embodiment of the present utility model;

FIG. 9 is a schematic diagram of a ball dispenser of a score ball circulation device of a recreational machine circulation system according to an embodiment of the present utility model;

FIG. 10 is an exploded view of a ball dispenser of a score pellet cycle device of a recreational machine cycle system provided by an embodiment of the present utility model;

FIG. 11 is a schematic diagram of a scoring ball circulation device of a recreational machine circulation system according to an embodiment of the present utility model;

FIG. 12 is an exploded view of a lifting device of a scoring ball circulation device of a recreational machine circulation system according to an embodiment of the present utility model;

fig. 13 is a schematic diagram illustrating a gate mechanism of a scoring ball circulation device of a recreational machine circulation system according to an embodiment of the present utility model.

In the figure:

1 is a game table;

2 is a classification device; 201 is a grid plate; 202 is a big ball slideway; 203 is a filter belt; 2031 is a filter hole; 204 is a belt drive motor; 205 is a coin counting sensor; 206 is a mounting base; 207 is a hopper; 208 is the drive roll; 209 is a driven roller; 210 is an eccentric;

3 is a pushing device;

4 is a score coin recycling device; 401 is a coin inlet slideway; 402 is a coin feeder baffle; 403 is a coin feeder cover plate; 404 is a coin outlet slideway; 405 is a coin drive; 406 is a coin-feed turntable; 407 is a coin feeding turntable fixing bracket; 408 is a coin-feed drive device fixing bracket;

5 is a scoring pellet circulating device; 501 is a small ball feeding slideway; 5011 a first counting mechanism; 502 is the upper ball bucket body; 503 is an upper ball bucket cover plate; 504 is a small ball chute cover plate; 5041, withdrawing the spring plate; 505 is a ball chute bottom plate; 5051 is a first component; 5052 is a second component; 5053 is a third component; 506 is a ball feeding turntable; 507 is a ball feeding driving device; 508 is a small ball outlet slideway; 509 is a ball dispenser; 5091 is a mounting bracket; 5092 ball swing arm; 5093 is a swing arm reset member; 5094 ball roller; 5095 is a second counting mechanism;

6 is a scoring big ball circulating device; 601 is a lifting device; 6011 is a front baffle of the lifting device; 6012 is a lifting device back baffle; 6013 is a guide rail; 6014 is a sliding rail groove plate, 6015 is a guide roller; 6016 is a slide rail groove cover plate; 6017 is a lifting motor; 6018 is lifting belt; 6019 is a lifter; 60110 is a lifter limit sensor; 60111 is a slide rail groove; 602 is a large ball feed slideway; 603 is a big ball outlet slideway; 604 is a gate mechanism; 6041 is a gate mounting seat; 6042 is a gate; 6043 is an electromagnet; 6044 is a slide block; 6045 is a big ball detecting sensor; reference numeral 605 denotes a rotation mechanism.

Detailed Description

The core of the utility model is to provide a circulating system of the game machine, which is structurally designed to separate and recycle the coin, the small ball and the big ball, thereby improving the separation efficiency, shortening the separation time, reducing the workload, reducing the requirement on the reserve space of the game machine and reducing the cost of the game machine.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 5, fig. 1 is a schematic structural diagram of a view angle of a circulating system of a game machine according to an embodiment of the present utility model, fig. 2 is a schematic structural diagram of another view angle of a circulating system of a game machine according to an embodiment of the present utility model, fig. 3 is a schematic disassembly diagram of a circulating system of a game machine according to an embodiment of the present utility model, fig. 4 is a schematic structural diagram of a classification device of a circulating system of a game machine according to an embodiment of the present utility model, and fig. 5 is an exploded view of a classification device of a circulating system of a game machine according to an embodiment of the present utility model.

The embodiment of the utility model discloses a circulating system of a recreational machine, which is used for collecting scoring coins, scoring small balls and scoring big balls on a game table board 1 of the recreational machine in a game period and respectively sending the scoring small balls, the scoring small balls and the scoring big balls back to the game table board 1 after classification, and the circulating system of the recreational machine comprises a classification device 2, a pushing device 3, a scoring coin circulating device 4, a scoring small ball circulating device 5 and a scoring big ball circulating device 6.

Wherein, sorter 2 includes screening machine and filter belt mechanism, the screening machine includes comb board 201 and big ball slide 202, comb board 201 next-door neighbour game playing surface 1 sets up, big ball slide 202 sets up in the side that comb board 201 kept away from game playing surface 1 side by side with comb board 201, score coin and score ball can be through the comb hole of comb board 201 with score big ball separation, big ball slide 202 is used for the sorter 2 of the score big ball slide play recreational machine of the separation that supplies, filter belt mechanism includes belt drive arrangement and filter belt 203, belt drive arrangement drives filter belt 203 cyclic rotation, filter belt 203 sets up in the below of comb board 201, filter belt 203 sets up the filtration hole 2031 that supplies score ball to pass through in order to separate score coin and score ball.

The pushing device 3 is used for pushing the scoring coin, scoring ball and scoring ball on the game table 1 to the grid plate 201 of the classifying device 2.

The inlet of the counting and coin circulating device 4 is connected with the output end of the filter belt 203, and the outlet of the counting and coin circulating device 4 is arranged on the game table 1 or the outlet of the counting and coin circulating device 4 is arranged above the game table 1 so as to receive the counting and coin separated by the classifying device 2 and circulate back to the game table 1.

The inlet of the scoring ball circulation device 5 is arranged below the filter belt 203, the inlet of the scoring ball circulation device 5 is communicated with each filter hole of the filter belt 203, and the outlet of the scoring ball circulation device 5 is arranged on the game table 1 or the outlet of the scoring ball circulation device 5 is arranged above the game table 1 so as to receive the scoring balls and circulate back to the game table 1.

The inlet of the scoring big ball circulating device 6 is communicated with the outlet of the big ball slideway 202, the outlet of the scoring big ball circulating device 6 is arranged on the game table 1 or the outlet of the scoring big ball circulating device 6 is arranged above the game table 1 so as to receive the scoring big ball and circularly send the scoring big ball back to the game table 1.

In application, the pushing device 3 pushes the coin, the score bead and the score big ball on the game table 1 to the sieving device of the classifying device 2, and since the grid plate 201 is arranged close to the game table 1, the coin, the score bead and the score big ball firstly pass through the grid plate 201 of the sieving device, when the coin, the score bead and the score big ball pass through the grid plate 201 of the sieving device, the coin and the score bead pass through the grid holes of the grid plate 201, and the score big ball cannot enter the grid holes of the grid plate 201 so as to be separated from the coin and the score bead.

The scoring big ball falls into the big ball slideway 202 under the action of self inertia or self gravity or the pushing device 3, is output from the outlet of the big ball slideway 202, enters the inlet of the scoring big ball circulating device 6 and is circulated back to the game table 1 through the scoring big ball circulating device 6, and the screening of the scoring big ball is completed; when the score coin and the score ball fall to the filter belt 203, the score coin falls to the filter belt 203 and moves to one end of the filter belt 203 along with the filter belt 203 because the filter hole 2031 of the filter belt 203 can only be used for the score ball to pass through, and then leaves the sorting device 2 of the game machine from one end of the filter belt 203, enters the inlet of the score coin circulating device 4, is circulated back to the game table 1 through the score coin circulating device 4, passes through the filter hole 2031 and falls to the lower part of the filter belt 203, enters the inlet of the score ball circulating device 5 and is circulated back to the game table 1 through the score ball circulating device 5, so that the separation and the recycling of the score coin, the score ball and the score ball are completed.

Compared with the prior art, the circulation system of the recreational machine provided by the embodiment of the utility model can automatically realize separation and circulation of the coin, the score ball and the score ball, does not need manual participation, can improve the separation efficiency, reduce the workload of staff, can realize the recycling of the coin, the score ball and the score ball, and reduce the storage quantity of the coin, the score ball and the score ball required by the recreational machine, thereby reducing the requirement on the storage space of the recreational machine and reducing the cost of the recreational machine.

Preferably, as shown in fig. 4 and 5, the sorting device 22 includes a screening device and a filtering belt mechanism, wherein the screening device includes a grate 201 and a big ball slideway 202, the grate 201 is arranged side by side with the big ball slideway 202, the grate 201 is arranged adjacent to the game table 1, the big ball slideway 202 is positioned at one side of the grate 201 far away from the game table 1, the scoring coin and the scoring ball can be separated from the scoring big ball through the grate hole of the grate 201, i.e. the scoring big ball can not pass through the grate hole of the grate 201 and can only pass over the grate 201 to enter the big ball slideway 202, and the outlet of the big ball slideway 202 is communicated with the inlet of the scoring big ball circulating device 6; the filter belt mechanism comprises a belt driving device and a filter belt 203, the belt driving device drives the filter belt 203 to rotate circularly, the filter belt 203 is arranged below an outlet of the grate 201, the filter belt 203 is provided with a filter hole 2031 for a score bead to pass through so as to separate the score bead from the score bead, an inlet of the score bead circulation device 4 is arranged at one end of the filter belt mechanism so as to receive the score bead conveyed by the filter belt 203, and an inlet of the score bead circulation device 5 is arranged below the filter belt 203 so as to receive the score bead passing through the filter hole 2031 of the filter belt 203.

A coin counting sensor 205 is arranged between the sieving device and the filter belt mechanism, the coin counting sensor 205 is used for scanning the coin counting on the filter belt 203 to count the coins, and as shown in fig. 4 and 5, the coin counting sensor 205 is arranged above one end of the filter belt 203 close to the inlet of the coin counting circulation device 4.

As shown in fig. 4 and 5, in the embodiment of the present utility model, the belt driving device includes a belt driving motor 204, a driving roller 208 and a driven roller 209, where the main body of the belt driving motor 204 is disposed on one side of the mounting seat 206, the driving roller 208 and the driven roller 209 are disposed on the other side of the mounting seat 206, an output shaft of the belt driving motor 204 passes through the mounting seat 206 and is in driving connection with the driving roller 208, the driven roller 209 is rotatably disposed on the mounting seat 206, the filter belt 203 is wound around the driving roller 208 and the driven roller 209, and the diameter of the driving roller 208 and the diameter of the driven roller 209 may be the same or different, so that when the belt driving motor 204 drives the driving roller 208 to rotate, the driving roller 208 drives the driven roller 209 to rotate through the filter belt 203, and the driving roller 208 and the driven roller 209 simultaneously provide support for the filter belt 203.

Further, the output end of the belt drive motor 204 is connected to the drive roller 208 via an eccentric 210, so that the filter belt 203 can swing up and down at one end of the drive roller 208 with a small amplitude, thereby forming vibration of the filter belt 203, and the accelerometer coin is separated from the score pellet by filtration.

Preferably, in the embodiment of the present utility model, as shown in fig. 4 and 5, the filter belt 203 is inclined so that when the score-coin and the score-ball are dropped on the filter belt 203, the score-ball, which cannot pass through the filter hole 2031 of the filter belt 203 in time, can roll along the filter belt 203 and pass through the filter hole 2031 along the way during the rolling so as to pass through the filter belt 203, and the score-coin does not slip down along the filter belt 203 due to the friction force of the score-coin and the filter belt 203 because it is not a sphere.

As shown in fig. 4 and 5, in the embodiment of the present utility model, the grate 201 includes a plurality of grate holes spaced along the length direction of the grate 201, and the grate holes are square to avoid the catching of scoring balls.

Preferably, as shown in fig. 4 and 5, the ball slide 202 includes two slide bars parallel side by side and inclined, and the distance between the two slide bars is smaller than the diameter of the scoring ball.

Further optimizing the above technical solution, in the embodiment of the present utility model, the grate 201 is disposed obliquely downward from a side far from the ball slide 202 to a side near to the ball slide 202, so that by inclining the grate 201, the scoring ball can be accelerated to move toward the ball slide 202, and the scoring ball is prevented from staying on the grate 201.

As shown in fig. 4 and 5, in the embodiment of the present utility model, the above-mentioned sieving apparatus further includes a hopper 207, a grate 201 and a ball chute 202 are disposed at an upper opening of the hopper 7, a lowest end of the ball chute 202 forms an outlet for the sieved scoring balls to slide out of the sorting device at a sidewall of the hopper 207, a lower opening of the hopper 207 is communicated with a grate hole of the grate 201, and a lower opening of the hopper 207 is disposed above the filter belt 203, and the hopper 207 can restrict the scoring coins and scoring balls to prevent the scoring coins or scoring balls from falling to other positions.

Further optimize above-mentioned technical scheme, through crooked slide intercommunication that slowly falls between the lower extreme opening of comb hole and hopper 207 of comb board 201, can slow down the whereabouts speed of score coin and score pellet like this, avoid falling to filter belt 203 after being sprung up to elsewhere under filter belt 203's effect, also can make score coin and score pellet queue to fall on filter belt 203 simultaneously, avoid more score coin and score pellet to fall simultaneously on filter belt 203 and lead to filter belt 203 to warp.

Of course, baffles may be provided on both sides of the filter belt 203 to prevent the coin and ball from sliding off the sides of the filter belt 203.

As shown in fig. 1 to 3, in the embodiment of the present utility model, the pushing device 3 includes a pushing driving motor, a swinging plate, a connecting plate and a pushing plate, the swinging plate is connected with an output shaft of the pushing driving motor through a cam link mechanism, the pushing driving motor drives the swinging plate to swing back and forth through the cam link mechanism, the pushing plate is connected with the swinging plate through the connecting plate, and the pushing plate is used for pushing the coin, the score small ball and the score big ball to move through the game table 11 into the sorting device 2 so as to obtain scores recorded on the coin, the score small ball and the score big ball.

As shown in fig. 6 and 7, in the embodiment of the present utility model, the coin counting circulation device 4 includes a coin feeding device, a coin feeding slide way 401 and a coin discharging slide way 404, wherein the coin feeding device includes a coin feeding rotary table 406 and a coin feeding driving device 405, the coin feeding rotary table 406 is connected with the driving end of the coin feeding driving device 405, and a plurality of coin limiting grooves are uniformly distributed on the coin feeding rotary table 406 along the circumferential direction; the inlet of the coin inlet slide way 401 is communicated with the coin counting outlet of the sorting device 22, and the outlet of the coin inlet slide way 401 is arranged opposite to the coin feeding rotary table 406; the inlet of the coin outlet slide way 404 is opposite to the coin inlet turntable 406, the outlet of the coin outlet slide way 404 is arranged on the game table surface 1, the position of the coin inlet machine opposite to the inlet of the coin outlet slide way 404 is provided with a coin outlet chute for the passage of the coin, and the coin limit slot is communicated with the inlet of the coin outlet slide way 404 through the coin outlet chute when rotating to a preset position along with the coin inlet turntable 406.

Further optimizing the above technical solution, as shown in fig. 6 and 7, the coin feeder further includes a coin feeding turntable fixing bracket 407, a coin feeding baffle 402 and a coin feeding cover plate 403, the coin feeding turntable 406 is obliquely disposed on the coin feeding turntable fixing bracket 407 so that a coin limiting slot of the coin feeding turntable 406 is opposite to an inlet of the coin feeding slideway 401, a lower end of the coin feeding baffle 402 is disposed on the coin feeding turntable fixing bracket 407 and surrounds the coin feeding turntable 406, the coin feeding cover plate 403 seals an upper end of the coin feeding baffle 402, so that the coin feeding turntable fixing bracket 407, the coin feeding baffle 402 and the coin feeding cover plate 403 together enclose a containing cavity for containing the coin feeding turntable 406, and the coin feeding driving device 405 is disposed on a surface of one side of the coin feeding turntable 406, far from the coin feeding turntable fixing bracket 407, through the coin feeding driving device fixing bracket 408, and a driving end of the coin feeding driving device 405 is connected with the coin feeding turntable 406 through a through hole in the coin feeding turntable fixing bracket 407.

As shown in fig. 8 to 10, the scoring ball circulation device 5 includes a ball feeding device, a ball feeding slideway 501, a ball discharging slideway 508 and a ball discharging device 509, wherein the ball feeding device includes a ball feeding hopper 502, a ball feeding turntable 506 and a ball feeding driving device 507, the ball feeding turntable 506 is rotatably arranged in the ball feeding hopper 502, the driving end of the ball feeding driving device 507 is in transmission connection with the ball feeding turntable 506, a ball discharging chute and a plurality of ball limiting grooves circumferentially arranged along the ball feeding turntable 506 are formed between the ball feeding turntable 506 and the ball feeding hopper 502, and the ball limiting grooves are communicated with the ball discharging chute when the ball feeding turntable rotates to a preset position; the inlet of the ball feeding slide way 501 is communicated with the scoring ball outlet of the classifying device 2, the outlet of the ball feeding slide way 501 is communicated with the ball feeding hopper 502, and the ball feeding slide way 501 is provided with a first counting mechanism 5011; the inlet of the ball outlet slide way 508 is communicated with the ball outlet slide way, and the outlet of the ball outlet slide way 508 is arranged on the game table 1.

As shown in fig. 9 and 10, the ball outlet device 509 includes a ball stopping mechanism and a second counting mechanism 5595, the ball stopping mechanism includes a mounting bracket 5091, a ball stopping swing arm 5092 and a swing arm reset member 5093, the mounting bracket 5091 is disposed at an outlet of the ball outlet slide 508, the ball stopping swing arm 5092 is rotatably disposed at the mounting bracket 5091, a swing arm reset member 5093 is disposed between a first end of the ball stopping swing arm 5092 and the mounting bracket 5091, the swing arm reset member 5093 is used for keeping a second end of the ball stopping swing arm 5092 at a position shielding the outlet of the ball outlet slide 508, the second counting mechanism 5095 is disposed at a side of the second end of the ball stopping swing arm 5092 away from the outlet of the ball outlet slide 508, and a second end of the ball stopping swing arm 5092 is disposed with a ball stopping roller 5094, so that when a score ball passes, the second end of the ball stopping swing arm 5092 forms rolling fit with the score ball through the ball stopping roller 5094, and resistance is reduced.

Specifically, the first counting mechanism 5011 and the second counting mechanism 5095 each include a counting sensor, the counting sensors of the first counting mechanism 5011 are disposed on the ball feeding slide 501, a driving lever of the counting sensor of the first counting mechanism 5011 extends into the ball feeding slide 501 on a moving path of the scoring ball, further, in order to improve accuracy of detection, the ball feeding slide 501 includes a large diameter section, a guiding connection section and a small diameter section, the small diameter section is connected with the large diameter section through the guiding connection section, the guiding connection section adopts a guiding structure tapering from the large diameter section to the small diameter section, an inlet of the ball feeding slide 501 is disposed at an end of the large diameter section away from the guiding connection section, an outlet of the ball feeding slide 501 is disposed at an end of the small diameter section away from the guiding connection section, the small diameter section can be used for a single scoring ball to pass through, the driving lever of the counting sensor of the first counting mechanism 5011 extends into the ball feeding slide 501 from the small diameter section, and the sensor of the second counting mechanism 5095 is disposed on a side of the ball discharging slide 508 of the second counting swing arm 508 away from the second counting mechanism.

Preferably, the ball loading bucket includes a ball loading bucket body 502 and a ball loading bucket cover plate 503, the ball loading bucket cover plate 503 cooperates with the ball loading bucket body 502 to form a closed bucket structure, a ball chute bottom plate 505 is disposed in the ball loading bucket body 502, a ball chute cover plate 504 is parallel to and spaced apart from the ball chute bottom plate 505, and a ball loading turntable 506 is disposed between the ball chute cover plate 504 and the ball chute bottom plate 505.

As shown in fig. 8, the ball chute base 505 includes a first member 5051, a second member 5052, and a third member 5053, the first member 5051, the second member 5052, and the ball chute cover 504 cooperate to define a receiving space for receiving a scoring ball, the receiving space communicates with an interior cavity of the upper ball hopper, the second member 5052, the pair of three members 5053, and the ball chute cover 504 cooperate to define a ball chute, an inlet of the ball chute communicates with the receiving space, and the upper ball turntable 506 is configured to deliver the scoring ball within the receiving space into the inlet of the ball chute.

Preferably, as shown in fig. 8, the surface of the first component 5051 facing the second component 5052 is a concave arc wall surface matching with the upper ball turntable 506, the inlet of the ball outlet chute is communicated with the accommodating space along the tangential direction of the concave arc wall surface, and the ball outlet chute is inclined away from the accommodating space along the direction from the inlet to the outlet, so that when the upper ball turntable 506 rotates, the ball limiting groove around the upper ball turntable 506 cooperates with the concave arc wall surface of the first component 5051 to drive the scoring ball to move along the concave arc wall surface towards the inlet of the ball outlet chute and enter the ball outlet chute, and when the scoring ball moves along the ball outlet chute along the driving of the upper ball turntable 506 in the ball outlet chute, the scoring ball is thrown out by the upper ball turntable 506 along the ball outlet chute at a certain position of the ball outlet chute, and enters the ball outlet chute 508 under the self inertia effect.

Further, the ball limiting groove is an open U-shaped groove, the opening direction of the ball limiting groove is intersected with the radial direction of the ball feeding turntable 506, the radial intersection of the opening direction of the ball limiting groove and the ball feeding turntable 506 means that the opening direction of the ball limiting groove is intersected with the radial direction of the ball feeding turntable 506 at the position where the ball limiting groove is formed, and the opening of the open U-shaped groove is offset relative to the bottom of the open U-shaped groove towards the rotating direction of the ball feeding turntable 506, so that scoring balls are thrown out more easily.

Further, as shown in fig. 8, the ball chute cover 504 is provided with a stop spring 5041, and the stop spring 5041 extends into the ball chute obliquely along the direction from the inlet to the outlet of the ball chute, so as to prevent the score ball from retreating along the ball chute.

As shown in fig. 11 and 12, the scoring big ball circulation device 6 includes a lifting device 601, a big ball inlet slide way 602 and a big ball outlet slide way 603, wherein the lifting device 601 includes a housing, a lifting track, a lifting mechanism and a gate mechanism 604, the lifting track is disposed in the housing, the housing includes a big ball inlet and a big ball outlet which are respectively communicated with two ends of the lifting track, the lifting mechanism is disposed in the housing, the driving end of the lifting mechanism can move along the lifting track to drive the scoring big ball to move from the big ball inlet to the big ball outlet along the lifting track, the housing includes a front baffle 6011 of the lifting device and a rear baffle 6012 of the lifting device, the front baffle 6011 of the lifting device and the rear baffle 6012 of the lifting device are combined into the housing, the big ball inlet and the big ball outlet are disposed in the front baffle 6011 of the lifting device, the position of the big ball outlet is higher than the position of the big ball inlet, the lifting track includes a sliding rail groove plate 6014 and a sliding rail groove cover 6016, the sliding groove 6016 is disposed on the sliding groove 6011, the lower end of the sliding groove 6011 corresponds to the sliding groove 6011, the sliding groove is disposed on the sliding groove cover 6016, and the sliding groove is further arranged on the sliding groove 6011 and is opposite to the sliding groove 6016, and the sliding groove is located on the sliding groove 6016 and can move towards the sliding groove 6016.

The lifting mechanism is arranged on the lifting device rear baffle 6012, the lifting mechanism comprises a lifting motor 6017, a lifting belt mechanism and a lifter 6019, the lifting belt mechanism comprises a lifting belt 6018, a driving wheel and a driven wheel, the driving wheel is arranged on an output shaft of the lifting motor 6017, the driven wheel is rotatably arranged on the lifting device rear baffle 6012, the lifting belt 6018 is respectively arranged around the driving wheel and the driven wheel, the lifter 6019 is arranged on the lifting belt 6018, lifting rollers corresponding to the sliding rail grooves 6011 are arranged on the lifter 6019, the lifting rollers are used for extending into the sliding rail grooves 6011 to be in contact with the scoring big balls and drive the scoring big balls to move along the sliding rail grooves 6011 under the driving of the lifting motor 6017, and the fact that the lifting rollers are not required is achieved.

Of course, other transmission mechanisms, such as a sprocket-and-chain mechanism, a rack-and-pinion mechanism, etc., may be used instead of the above-mentioned lifting belt mechanism, or a piston cylinder, a linear motor, etc. may be used instead of the above-mentioned lifting motor 6017 and lifting belt mechanism, as long as the lifter 6019 can reciprocate, and the combination of the lifting motor 6017 and the lifting belt mechanism is merely a preferred embodiment provided by the present utility model, and is not limited thereto in practice.

Preferably, the lifting mechanism further comprises a guide rail 6013 provided on the housing, the length direction of the guide rail 6013 is parallel to the moving direction of the lifting belt 6018, the lifter 6019 is in sliding fit with the guide rail 6013, and the guide rail 6013 guides and limits the lifter 6019.

Further optimizing the above technical solution, the slide rail groove plate 6014 is further provided with lifter spacing sensors 60110 at both ends of the slide rail groove 60111, the lifter 6019 is provided with a trigger portion for triggering the lifter spacing sensor 60110, when the lifter 6019 moves to the lower end of the slide rail groove 60111, the trigger portion of the lifter 6019 triggers the lifter spacing sensor 60110 at the lower end, the lifter motor 6017 stops moving, and when the trigger portion of the lifter 6019 triggers the lifter spacing sensor 60110 at the upper end, the lifter motor 6017 stops moving.

As shown in fig. 13, the gate mechanism 604 is disposed at a large ball inlet, the gate mechanism 604 includes a gate 6042 and a gate driving device, the gate 6042 is slidably disposed on a gate mounting seat 6041 up and down, the gate mounting seat 6041 is disposed on a front baffle 6011 of the lifting device and is disposed corresponding to the large ball inlet on the front baffle 6011 of the lifting device, a ball inlet track communicated with the large ball inlet is disposed on the gate mounting seat 6041, the gate 6042 is used for cutting off or conducting the ball inlet track, the gate driving device is in transmission connection with the gate 6042 to drive the gate 6042 to open or close the large ball inlet, specifically, in the embodiment of the utility model, the gate driving device is an electromagnet 6043, correspondingly, a ferromagnetic member matched with the electromagnet 6043 is disposed on the gate 6042, when the electromagnet 6043 is powered on, the ferromagnetic member is attracted by the electromagnet 6043 to drive the gate 6042 to move, and a reset member is disposed between the gate 6042 and the gate mounting seat 6041 and/or between the gate 6042 and the electromagnet 6043, so as to reset the gate 6042 after the electromagnet 6043 is powered off, the gate motor is required to cut off or the gate driving device is not required to be converted into a linear motor, the rotary mechanism is not required to be a linear motor, the rotary mechanism is required, the rotary mechanism is also required, the linear mechanism is not required to be a linear driving mechanism, or a piston mechanism is required to be a rotary mechanism, or a piston mechanism is required, or a linear driving mechanism is required, or a piston mechanism is not is required to be is or a rotary mechanism.

The gate mounting seat 6041 is provided with a guide chute, the gate 6042 is provided with a slide block 6044, the slide block 6044 is in sliding fit with the guide chute, the gate mounting seat 6041 is provided with a big ball detection sensor 6045, the big ball detection sensor 6045 is used for detecting whether the scoring big ball exists at the upstream position of the gate 6042 or not on the ball feeding track, when the big ball detection sensor 6045 detects that the scoring big ball exists at the upstream position of the gate 6042 on the ball feeding track, the electromagnet 60123 is electrified to enable the gate 6042 to drop the scoring big ball to enter the big ball inlet, and then the lifting motor 6017 is started to drive the scoring big ball to move along the sliding rail groove.

The inlet of the big ball inlet slide way 602 is communicated with the scoring big ball outlet of the classifying device 2, and the outlet of the big ball inlet slide way 602 is communicated with the big ball inlet of the shell through a gate mechanism 604; the inlet of the big ball outlet slide 603 is communicated with the big ball outlet of the shell, a rotating mechanism 605 is arranged between the outlet of the big ball outlet slide 603 and the game table 1, when the rotating mechanism 605 rotates to a first position, the outlet of the big ball outlet slide 603 is communicated with the game table 1, and when the rotating mechanism 605 rotates to a second position, the outlet of the big ball outlet slide 603 is disconnected with the game table 1.

As shown in fig. 11, the rotary release mechanism 605 includes a limit seat and a limit seat driving device, where the limit seat driving device is used to drive the limit seat to rotate, an open limit groove is provided on the limit seat, and when the limit seat is at a first position, the limit seat drives the score big ball thereon to rotate in a direction away from the outlet of the big ball outlet slide 603, so as to release the score big ball thereon, and when the limit seat is at a second position, the opening of the open limit groove is opposite to the outlet of the big ball outlet slide 603, so as to close the outlet of the big ball outlet slide 603.

Further, the rotary release mechanism 605 further includes a release guide rail, the release guide rail includes two parallel guide rods, a distance between the two guide rods is smaller than a diameter of the scoring ball, so as to prevent the scoring ball from falling down between the two guide rods, one ends of the two guide rods are relatively fixedly arranged with the housing, and are positioned below the opening of the opening limit groove and close to the opening of the opening limit groove, the other ends of the two guide rods are provided with an arc-shaped opening ring-shaped component, two ends of the opening ring-shaped component are respectively connected with the other ends of the two guide rods, and the diameter of the opening ring-shaped component is slightly larger than the diameter of the scoring ball, so that the scoring ball can fall down from the opening ring-shaped component.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A game machine circulation system for collecting score coins, score pellets and score marbles on a game playing surface of a game machine and respectively returning the score marbles to the game playing surface after sorting, the game machine circulation system comprising:

the classifying device comprises a screening device and a filtering belt mechanism, the screening device comprises a grid plate and a big ball slideway, the grid plate is closely adjacent to the game table surface, the big ball slideway and the grid plate are arranged side by side on one side of the grid plate far away from the game table surface, the score coin and the score small ball can be separated from the score large ball through a grid hole of the grid plate, the big ball slideway is used for enabling the screened score large ball to slide out of the classifying device, the filtering belt mechanism comprises a belt driving device and a filtering belt, the belt driving device drives the filtering belt to circularly rotate, the filtering belt is arranged below the grid plate, and the filtering belt is provided with a filtering hole for the score small ball to pass through so as to separate the score coin from the score small ball;

pushing means for pushing the score coin, the score bead and the score ball on the game table toward the grate plate of the classifying means;

The inlet of the counting coin circulating device is connected with the output end of the filtering belt so as to receive the counting coins separated by the sorting device and circularly send the counting coins back to the game table;

the inlet of the scoring ball circulating device is arranged below the filtering belt and is communicated with each filtering hole of the filtering belt so as to receive the scoring ball and circularly send the scoring ball back to the game table;

the inlet of the scoring big ball circulating device is communicated with the outlet of the big ball slideway so as to receive the scoring big ball and circularly send the scoring big ball back to the game table.

2. The amusement machine circulation system according to claim 1, wherein said score coin circulation device comprises:

the coin feeding device comprises a coin feeding rotary table and a coin feeding driving device, wherein the coin feeding rotary table is connected with the driving end of the coin feeding driving device, and a plurality of coin limiting grooves are uniformly distributed on the coin feeding rotary table along the circumferential direction;

the inlet of the coin inlet slide way is communicated with the coin scoring outlet of the sorting device, and the outlet of the coin inlet slide way is arranged opposite to the coin feeding rotary table;

The coin outlet slide way is characterized in that an inlet of the coin outlet slide way is opposite to the coin feeding rotary table, an outlet of the coin outlet slide way is arranged on the game table surface, a coin outlet slide way which can be used for the score coin to pass through is arranged at a position, opposite to the inlet of the coin outlet slide way, of the coin feeding device, and the coin limiting groove is communicated with the inlet of the coin outlet slide way through the coin outlet slide way when the coin feeding rotary table rotates to a preset position along with the coin feeding rotary table.

3. The amusement machine circulation system according to claim 1, wherein said scoring pellet circulation device comprises:

the ball feeding device comprises a ball feeding hopper, a ball feeding rotary table and a ball feeding driving device, wherein the ball feeding rotary table is rotatably arranged in the ball feeding hopper, the driving end of the ball feeding driving device is in transmission connection with the ball feeding rotary table, a ball discharging chute and a plurality of ball limiting grooves which are circumferentially arranged along the ball feeding rotary table are formed between the ball feeding rotary table and the ball feeding hopper, and the ball limiting grooves are communicated with the ball discharging chute when rotating to a preset position along with the ball feeding rotary table;

the ball feeding slide way is provided with a first counting mechanism;

The small ball discharging slide way is characterized in that an inlet of the small ball discharging slide way is communicated with the discharging slide way, and an outlet of the small ball discharging slide way is arranged on the game table surface.

4. A recreational machine circulation system according to claim 3, wherein said scoring ball circulation device further comprises a ball dispenser comprising a ball stopping mechanism comprising a mounting bracket disposed at the outlet of said ball dispensing chute, a ball stopping swing arm rotatably disposed in said mounting bracket, and a swing arm reset disposed between a first end of said ball stopping swing arm and said mounting bracket for maintaining a second end of said ball stopping swing arm in a position to block the outlet of said ball dispensing chute, and a second counting mechanism disposed on a side of said second end of said ball stopping swing arm remote from said outlet of said ball dispensing chute.

5. The amusement machine circulation system according to claim 1, wherein said scoring ball circulation device comprises:

the lifting device comprises a shell, a lifting track, a lifting mechanism and a gate mechanism, wherein the lifting track is arranged in the shell, the shell is provided with a big ball inlet and a big ball outlet which are respectively communicated with two ends of the lifting track, the lifting mechanism is arranged in the shell, a driving end of the lifting mechanism can move along the lifting track to drive the scoring big ball to move from the big ball inlet to the big ball outlet along the lifting track, the gate mechanism is arranged at the big ball inlet, and the gate mechanism comprises a gate and a gate driving device, and the gate driving device is in transmission connection with the gate to drive the gate to open or close the big ball inlet;

The inlet of the big ball feed slide way is communicated with the scoring big ball outlet of the classifying device, and the outlet of the big ball feed slide way is communicated with the big ball inlet through the gate mechanism;

the big ball outlet slide way, the entry of big ball outlet slide way with big ball outlet intercommunication, big ball outlet slide way's export with set up rotary mechanism between the game surface, rotary mechanism rotates to the first position, big ball outlet slide way's export with game surface intercommunication, rotary mechanism rotates to the second position, big ball outlet slide way's export with game surface disconnection.

6. The amusement machine circulation system according to claim 1, wherein said sifter further comprises a hopper, said grate plate and said ball chute are disposed in an upper end opening of said hopper, a lowermost end of said ball chute forms an outlet on a side wall of said hopper for sifting out said scoring balls to slide out of said classifying device, a lower end opening of said hopper is in communication with a grate hole of said grate plate and a lower end opening of said hopper is disposed above said filter belt.

7. The amusement machine circulation system according to claim 6, wherein said grate holes of said grate plate are in communication with said lower end opening of said hopper via a tortuous, slow-falling chute.

8. The amusement machine circulation system according to claim 1, wherein a coin counting sensor is provided between said sifter and said filter belt mechanism, said coin counting sensor being adapted to scan coins on said filter belt.

9. The amusement machine circulation system according to claim 1, wherein said grate plate is arranged obliquely downwards from the side remote from said ball slide to the side close to said ball slide.

10. The amusement machine circulation system according to claim 1, wherein said belt drive means comprises a belt drive motor, a drive roller and a driven roller, an output end of said belt drive motor being connected to said drive roller by an eccentric means, said filter belt being wound around said drive roller and said driven roller.