JP2005027795A - Game ball replenisher - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game ball replenisher which enables the storage of a large amount of game balls being dispersed widely at the upper part of a game machine island while minimizing the height of the game machine island and the efficient and quick replenishment of individual game machines with the game balls while preventing the retention and the excessive supply of the game balls and useless drive by conveying the game balls being stored by power, especially controlling the conveying properly in view of storage states of the game balls at positions. <P>SOLUTION: This replenisher has a conveying means 41 which conveys the game balls being stored at the upper part of the game machine island in the longitudinal direction, a replenishing means 50 provided along the conveying means 41, a detection means 55 which detects the amont of the game balls stored at the replenishing means 50 and a control means 100 which controls the operation of the conveying means 41 based on a signal from the detection means 55. The detection means 55 is provided in a replenishing gutter 52 of the replenishing means 50 and outputs the detection signal when the game balls exceeding a specified value are stored. The control means 100 works to operate a drive body 45 of the conveying means 41 when no detection signal is inputted from the detection means 55. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is installed on a gaming machine island having a plurality of gaming machines arranged side by side, and a game ball lifted to the upper part of the gaming machine island by a lifting device standing on the gaming machine island is provided for each game. The present invention relates to a game ball supply device for transporting to a machine and supplying it.
[0002]
[Prior art]
In a conventional gaming machine island, for example, as disclosed in Patent Documents 1 and 2, a gaming ball lifted to the upper part of the gaming machine island by the lifting device is a large capacity disposed on the upper part of the gaming machine island. After being stored in the upper storage tank or relay tank of the game machine, it was supplied to each gaming machine through a supply tank obliquely installed on the upper part of the gaming machine island. Here, the replenishment rod is a rod that simply causes the balls in the upper storage tank and the relay tank to flow down sequentially, and is formed shallowly so that the balls flow down in a state of spreading in a single stage without being stacked.
[0003]
Also, as an apparatus for forcibly conveying a game ball lifted to the upper part of the gaming machine island by power instead of the replenishment rod, for example, an apparatus as disclosed in Patent Documents 3 and 4 is also known. Yes. These are endless belts installed so as to extend along the longitudinal direction of the gaming machine island, and the rotational movement of the spiral body to transport the game balls to each gaming machine. In the endless belt disclosed in Patent Document 3, The game balls are transported in a single row on the transport surface, and the spiral body disclosed in Patent Document 4 is configured so that the game balls are transported in a single step into the pitch between the spiral convex shapes. It had been.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-276526
[Patent Document 2]
Japanese Patent Laid-Open No. 9-155051
[Patent Document 3]
Japanese Utility Model Publication No. 2-91592
[Patent Document 4]
Japanese Utility Model Publication No. 47-17617
[0005]
[Problems to be solved by the invention]
However, in the conventional techniques disclosed in Patent Documents 1 and 2, although the replenishment basket is arranged to extend over the entire length, it is not possible to store extra game balls in the replenishment bowl itself. In addition, since the transport of game balls depends on natural flow, it is difficult to quickly transport and replenish a large number of game balls, and multiple game machines within the same game machine island become big hits (so-called fever) at the same time, When a lot of prize balls are paid out, there is a possibility that the supply of gaming balls to each gaming machine may not be in time.
[0006]
In addition, since the game balls lifted to the upper part of the gaming machine island are concentrated and stored in a large-capacity upper storage tank or relay tank, some game balls are so-called dead balls inside the upper storage tank. As a result, the game balls remain rusted for a long time without being guided to the supply basket, and the game balls may rust as they are, which may cause clogging of the balls and hinder the supply of game balls to each gaming machine.
[0007]
In addition, the upper storage tank provided on the upper part of the gaming machine island is arranged so as to protrude largely above the uppermost end of the island because there is no extra space in the gaming machine island, and further, the ball is lifted to the upper storage tank Since the upper end of the lifting device for this purpose needs to be arranged at a position higher than the upper surface side of the upper storage tank, the height of the gaming machine island becomes very high. Therefore, when constructing the amusement hall, it was necessary to secure a particularly high ceiling height, and it was extremely difficult to renovate an existing store with a common ceiling height into a gaming area later.
[0008]
Further, as a device for transporting a game ball instead of the replenishment rod, the conventional techniques disclosed in Patent Documents 3 and 4 forcibly convey the game ball by power. As in the case, since the game balls are transported in a single row over the entire length of the transport path, it is not possible to store extra game balls, and eventually the above-mentioned large-capacity upper storage tank etc. There is a limit to quickly supplying a large amount of game balls to each game machine.
[0009]
In addition, when a game ball is forcibly transported by power, it is supplied by forcibly transporting the game machine even though there are enough game balls, unlike when the ball is naturally flowed down by the replenishment rod. There may be a situation where excess occurs, or conversely, the game balls to be transported are not sufficiently stored in the upper part of the gaming machine island but are driven in vain. In order to prevent such inappropriate transport of game balls and realize balanced storage and transport of game balls, it is necessary to appropriately control transport by power in view of the storage state of game balls in various places. There is.
[0010]
The present invention has been made paying attention to the above-mentioned problems of the prior art, and the game balls are distributed widely by eliminating the storage form of the game balls that are locally concentrated on the upper part of the gaming machine island. It can be stored in large quantities, and the height of the gaming machine island can be suppressed as much as possible. The game balls are transported with power while they are stored, and the transport is appropriate especially in view of the storage state of the game balls at various places. It is an object of the present invention to provide a game ball replenishing device capable of preventing game balls from staying, being excessively supplied, and wasteful driving, and efficiently and quickly replenishing each game machine.
[0011]
[Means for Solving the Problems]
The gist of the present invention for achieving the above-described object resides in the following items.
[1] Installed on a gaming machine island (10) formed by juxtaposing a plurality of gaming machines (20), and the upper part of the gaming machine island by a lifting device (30) standing on the gaming machine island (10) In the game ball replenishing device (40) for transporting and resupplying the game balls to the respective game machines (20),
A transport means (41) for transporting the gaming balls in the longitudinal direction with the game balls stored in the upper part of the gaming machine island, a replenishing means (50) provided along the transport means (41), and the replenishing means (50) It has a detection means (55) which detects the amount of stored game balls, and a control means (100) which controls the operation of the transport means (41) based on a signal from the detection means (55). A game ball replenishing device (40) characterized by:
[0012]
[2] The transfer means (41) is provided in the transfer path (42) installed in the transfer path (42) extending from above the gaming machines (20) with the lifting device (30) as a starting point. ) Is provided with a driving body (45) that conveys the game balls by power in a state in which the game balls can be stacked in multiple layers.
The replenishing means (50) receives and temporarily stores the game balls transferred by the transfer means (41), and each gaming machine (20 near the storage section (51)). The game ball replenishment according to [1], comprising a replenishment bowl (52) extending obliquely toward the storage unit (51) and replenishing each game machine (20) with the game balls of the storage unit (51). Device (40).
[0013]
[3] The detecting means (55) is provided in the replenishing basket (52) of the replenishing means (50), and outputs a detection signal when a predetermined amount or more of game balls are accumulated in the replenishing bowl (52).
[2] The control unit (100) operates the driving body (45) of the transport unit (41) when no detection signal is input from the detection unit (55). Game ball replenishment device (40).
[0014]
[4] When the storage part (51) including the supply basket (52) is filled with game balls, the storage part (51) of the supply means (50) overflows from the storage part (51). Communicating the entrance of the overflow path (56) for dropping the outgoing game ball to the lower storage tank (70) provided at the lower part of the gaming machine island,
The overflow path (56) is provided with an overflow detection means (57) for outputting a detection signal when a predetermined amount or more of game balls are accumulated,
An upper storage tank (31) for temporarily storing game balls to be supplied to the transport means (41) is provided on the upper end side of the lifting device (30), and the game balls are placed in the upper storage tank (31). An upper storage detection means (33) for outputting a detection signal when a predetermined amount or more is accumulated is provided,
The control means (100) receives the detection signal from the upper storage detection means (33) and does not receive the detection signal from the overflow detection means (57). The driving body (45) is operated, and when the detection signal from the upper storage detection means (33) is no longer input, the operation of the driving body (45) of the transport means (41) is stopped. The game ball supply device (40) according to [2] or [3].
[0015]
[5] The transport means (41) is formed by arranging a plurality of transport units (41a, 41b,...) Each having the driving body (45) in the transport path (42) so as to extend in parallel. ,
Each of the transport units (41a, 41b,...) Is installed individually corresponding to each supply unit in which each of the gaming machines (20) is grouped by a predetermined number adjacent to each other.
The control means (100) controls the operation of the driving body (45) for each transport unit (41a, 41b ...) based on a detection signal for each transport unit (41a, 41b ...). The game ball supply device (40) according to [2], [3] or [4].
[0016]
[6] The replenishing rods (52) of the replenishing means (50) branch from the both sides of the storage part (51) in the left-right direction parallel to the longitudinal direction of the gaming machine island and extend in a pair on the left and right. In the middle of (52), each game machine (20) is connected via a distribution path (53, 54) through which a game ball falls,
The detection means (55) is disposed on the upstream end side of each replenishing rod (52),
The control means (100) operates the driving body (45) of the transport means (41) when no detection signal is input from at least one of the detection means (55). The game ball supply device (40) according to [2], [3], [4] or [5].
[0017]
[7] A power source (49) for driving the drive body (45) is provided on the terminal side of the transport path (42) starting from the lifting device (30) [2] , [3], [4], [5] or [6].
[0018]
[8] The conveying means (41) is configured by providing a coil spring (45) as the driving body (45) in a rotatable state over the entire length of the conveying path (42).
The inner diameter of the coil spring (45) is set to a size that allows multiple game balls to be stacked inside, and the game ball that has entered the coil spring (45) has a gap between the pitches from the inner peripheral side of the coil spring (45). [2], [3], [4], [5], [6] or [7] A game ball supply device (40).
[0019]
[9] The start end side of the coil spring (45) is rotatably arranged at a position facing the lifting device (30), while the terminal end side of the coil spring (45) is extended toward the island end side. The game ball supply device (40) according to [8], wherein the game ball supply device (40) is connected to a power source (49) for rotating the game ball from the start end side to the end side in a direction to convey the game ball.
[0020]
[10] [2], [3], [4], [5], [6], [7], [8] characterized in that at least a part of the transport path (42) is formed of a transparent material. ] Or the game ball supply device (40) according to [9].
[0021]
The present invention operates as follows.
According to the game ball replenishing device (40) described in [1] above, in the gaming machine island (10), the game ball lifted to the upper part of the gaming machine island by the lifting device (30) is transported (41 ), The gaming balls can be transported in the longitudinal direction of the gaming machine island in a state where the gaming balls are stored in the upper part of the gaming machine island, and the gaming balls are dispersed in the longitudinal direction of the gaming machine island along the transport means (41).
[0022]
Thereby, unlike the conventional upper storage tank (31), it is not necessary to store a large amount of game balls locally, and the capacity of the upper storage tank (31) can be reduced. 31) The gaming machine island (10) overall height can be kept low. Further, there is no situation in which some game balls remain as so-called dead balls in the large-capacity upper storage tank (31) for a long time.
[0023]
The game balls transported by the transport means (41) are efficiently distributed to the gaming machines (20) without using power by the supply means (50) provided along the transport means (41). The Here, when a predetermined amount or more of game balls are accumulated in the replenishing means (50), the situation is detected by the detecting means (55), and a detection signal is output from the detecting means (55).
[0024]
And a control means (100) controls operation | movement of the said conveyance means (41) based on the signal from the said detection means (55). The warp makes it possible to appropriately control the transport in view of the storage state of the game balls, prevent the game balls from staying and being excessively supplied, and unnecessary driving of the transport means (41), and efficiently and quickly Each gaming machine (20) can be replenished.
[0025]
In addition, as described in [2] above, the transporting means (41) is configured such that the transporting means (41) extends and is installed above each gaming machine (20) with the lifting device (30) as a starting point. When a driving body (45) that transports the game balls by power in a state where the game balls can be stacked in layers is provided therein, the game balls stacked in multiple in the transport path (42) are driven by the power driving body (45). As a result of the driving, the inside of the transporting path (42) is transported along the longitudinal direction of the gaming machine island while being stacked in multiple layers.
[0026]
As a result, in the prior art, it took extra time to transport the game machine (20) far from the upper storage tank (31), but in this game ball replenishing device (40), the game machine is distributed in the longitudinal direction of the game machine island. Since the stored game balls move as they are, it is possible to efficiently and quickly transport the game balls to each gaming machine (20) in almost the entire region extending in the longitudinal direction of the gaming machine island with a small transport time anywhere. .
[0027]
The game balls transported by the transport means (41) are introduced into the storage section (51) of the replenishing means (50) and temporarily stored, and then each gaming machine (20) positioned downward from the storage section (51). ) Flows down the supply rod (52) extending in a slanting direction to the game machine (20). Thus, after the game balls are stored in the state of being stored with power, they can be continuously distributed to each gaming machine (20).
[0028]
The storage unit (51) of the replenishing means (50) can store a predetermined amount of the game balls after being transported to each gaming machine (20), so that the game balls are suddenly stored in each gaming machine (20). Even when it becomes necessary, it is possible to supply game balls to the respective gaming machines (20) without waiting for the conveyance by the conveyance means (41). Here, the capacity of the storage part (51) does not need to be increased so much as long as the game balls can be supplied to the replenishment basket (52) for allowing the game balls to flow down to some extent immediately.
[0029]
Further, according to the game ball replenishing device (40) described in [3], when a predetermined amount or more of game balls are accumulated in the replenishment bowl (52) of the replenishing means (50), the situation is detected by the detecting means (55). Detected and a detection signal is output from the detection means (55). The control means (100) for controlling the operation of the transport means (41) is when no detection signal is input from the detection means (55), that is, when the game balls are not accumulated in the replenishment basket (52) over a predetermined amount. Then, the driving body (45) of the conveying means (41) is operated.
[0030]
As a result, the supply means (50) for supplying game balls to each gaming machine (20) can avoid a situation where there is a shortage of game balls, and even if a game ball is suddenly needed in each gaming machine (20), It is always possible to stably supply game balls to the gaming machine (20). When the detection signal is input from the detection means (55), the drive body (45) of the transport means (41) may be completely stopped by the control of the control means (100), or It may be set to operate intermittently at predetermined time intervals or to operate only temporarily according to other factors.
[0031]
In addition, as described in [4] above, when the storage unit (51) is filled with game balls in the storage unit (51) of the supply unit (50), including the supply basket (52). The inlet of the overflow path (56) for dropping the game ball overflowing from the storage part (51) to the lower storage tank (70) provided at the lower part of the gaming machine island may be communicated.
[0032]
As a result, the extra game balls transported to the replenishment points for each gaming machine (20) can be smoothly returned to the lower storage tank (70) via the overflow path (56). It is possible to eliminate the storage of extra game balls in and to maintain an optimal storage amount in the supply means (50). The overflow path (56) is provided with an overflow detection means (57). When a predetermined amount or more of game balls are accumulated in the overflow path (56), a detection signal is output from the overflow detection means (57). .
[0033]
If an upper storage tank (31) for temporarily storing game balls to be supplied to the transport means (41) is provided on the upper end side of the lifting device (30), it is necessary to suddenly transport the game balls However, it is possible to supply the game ball to the transport means (41) without waiting for the lifting by the lifting device (30). Of course, it is not necessary to increase the capacity of the upper storage tank (31), as long as it can supply game balls to the transport means (41) to some extent immediately.
[0034]
The upper storage tank (31) is provided with an upper storage detection means (33). When a predetermined amount or more of game balls are accumulated in the upper storage tank (31), the upper storage detection means (33) A detection signal is output. The detection signal from the upper storage detection means (33), together with the detection signals output from the detection means (55) and the overflow detection means (57), control means (for controlling the operation of the transport means (41)). 100).
[0035]
Here, the control means (100) has a detection signal input from the upper storage detection means (33) in addition to the control of the transport means (41) based on the detection signal from the detection means (55) described above. When no detection signal is input from the overflow detection means (57), the driving body (45) of the transport means (41) is operated. Thereby, a stable amount of game balls can be maintained in the replenishing means (50) without excess or deficiency.
[0036]
On the other hand, the control means (100) stops the operation of the driving body (45) of the transport means (41) when the detection signal from the upper storage detection means (33) is not input. Thereby, the storage distribution of game balls in the upper part of the gaming machine island can be maintained in a well-distributed state without being unevenly distributed.
[0037]
Further, as described in [5], a plurality of transport units (41a, 41b,...) Each including the transport means (41) and the driving body (45) provided in the transport path (42) are provided in parallel. The transport units (41a, 41b...) Are individually arranged for each supply unit in which a predetermined number of adjacent gaming machines (20) are grouped together. It is good to install.
[0038]
Thereby, not only one transport path as in the prior art, but for each transport unit (41a, 41b...) Extending in parallel with each other, a grouped gaming machine (20) that constitutes a corresponding supply unit. The game balls can be transported separately. Therefore, it is possible to quickly transport the game balls to each gaming machine (20) appropriately and finely so as to correspond to the replenishment amount actually required in each gaming machine (20).
[0039]
Here, the control means (100) controls the operation of the driving body (45) for each transport unit (41a, 41b ...) based on the detection signal for each transport unit (41a, 41b ...), Even more accurately, the game balls can be transported finely and quickly for each gaming machine (20), and the storage distribution of the game balls in the upper part of the gaming machine island can be maintained in an optimum state.
[0040]
Further, as described in [6] above, the replenishment rod (52) of the replenishing means (50) is branched from both sides of the reservoir (51) in the left-right direction parallel to the longitudinal direction of the gaming machine island. A game that flows down the supply basket (52) by extending to a pair of left and right and connecting to each gaming machine (20) via a distribution path (53, 54) in which game balls fall in the middle of each supply basket (52). The balls can be supplied directly and simply to each gaming machine (20) through the distribution route (53, 54).
[0041]
Here, the detection means (55) may be arranged on the upstream end side of each replenishing rod (52), and the control means (100) is connected to at least one of the detection means (55). If the driving body (45) of the transport means (41) is operated when no detection signal is input, the amount of game balls to be replenished to some of the gaming machines (20) is locally increased. Can be prevented, and the uneven distribution of game balls can be minimized.
[0042]
Further, as described in [7] above, the power source (49) for driving the driving body (45) is provided on the terminal side of the transport path (42) starting from the lifting device (30). If so, the limited arrangement space near the lifting device (30) in the upper part of the gaming machine island is not occupied by the bulky power source (49).
[0043]
Further, specifically, as described in [8] above, for example, the conveying means (41) includes a coil spring (45) that is the driving body (45) over the entire length of the conveying path (42). It is assumed that the coil spring (45) is provided in a rotatable state, and the inner diameter of the coil spring (45) is preferably set to a size that allows multiple game balls to be stacked inside.
[0044]
Part of the game ball that has entered the inside of the coil spring (45) enters the gap between the pitches from the inner peripheral side of the coil spring (45), and is conveyed in a state where it can be stacked in layers. With such a simple configuration, the game balls can be efficiently transported in the longitudinal direction of the gaming machine island while being stored.
[0045]
Here, as described in the above [9], the starting end side of the coil spring (45) is rotatably arranged at a position facing the lifting device (30), and the terminal end side of the coil spring (45) is It is good to extend toward the island end and connect to the power source (49). The coil spring (45) is rotated by the power source (49) in the direction in which the game ball is conveyed from the start end side to the end end side. Therefore, the game balls introduced from the start end side of the coil spring (45) to the inside thereof are sequentially sent out from the position facing the lifting device (30) toward the island end side in accordance with the rotational drive of the coil spring (45).
[0046]
As described above, according to the structure in which the starting end side of the coil spring (45) is freely rotatable at a position where a game ball can be introduced, and the terminal end side of the coil spring (45) is connected to the power source (49) so as to be able to transmit power. For example, even if the coil spring (45) is set longer according to the total length of the gaming machine island (10), the coil spring (45) can be reliably rotated and driven without applying an excessive force.
[0047]
Furthermore, as described in [10] above, if at least a part of the transport path (42) is formed of a transparent material, it is possible to confirm the inside of the transport path (42) from the outside. Maintenance and inspection can be performed easily.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, various embodiments representing the present invention will be described with reference to the drawings.
1 to 13 show a first embodiment of the present invention.
As shown in FIG. 1 and FIG. 2, the gaming machine island 10 according to the present embodiment is formed by arranging a plurality of gaming machines 20 side by side, and the island frame 10a for assembling each gaming machine 20 back to back is a gaming area. Built on the floor. Here, the gaming machine 20 is a pachinko machine that launches game balls (pachinko balls) on the surface of the game board by rotating the handle 20a and enjoys winning. In addition, a ball lending machine 21 for lending out a game ball as a game medium is disposed in a gap between adjacent game machines 20.
[0049]
As shown in FIG. 1, the lower part of the gaming machine island in the island frame 10a is formed in a box-like frame shape that is arranged with a lower space between the floor surface by a housing frame 11 standing on the floor. The inside is configured as a lower storage tank 70 for storing a large amount of game balls. In addition, a top plate 12 that extends substantially horizontally is assembled in the middle of the housing frame 11, and the upper end of each housing frame 11 that extends on the top plate 12 is parallel to the longitudinal direction of the gaming machine island. An extending island tree 13 is erected.
[0050]
On the island 13 which is the upper part of the gaming machine island, a curtain 14 divided for each gaming machine 20 is attached so as to be openable and closable. On the front side of the curtain plate 14, a multi-function calling lamp 15 to which a function for displaying a part of various data collected from the corresponding gaming machine 20 is added is attached. Is attached with a data collecting device 16 for detecting and monitoring various operations of the corresponding gaming machine 20 and ball lending machine 21 and transmission / reception of signals. The calling lamp 15 and the data collection device 16 are close to each other with the curtain 14 in between, and are connected by a very short wiring having a thickness of the curtain 14.
[0051]
A gaming machine 20 and a ball lending machine 21 are juxtaposed on the top board 12 which is the middle part of the gaming machine island. In addition, between the backs of the gaming machines 20 arranged in two rows in the front and back, a banknote transport device 22 that transports the banknotes taken into the ball lending machine 21 to the island end in the longitudinal direction of the gaming machine island, and also taken into the ball lending machine 21. A coin transport device 23 that transports the coins to the island edge in the longitudinal direction of the gaming machine island is arranged so as to be spaced apart vertically. At one end of the gaming machine island 10, a safe 24 (see FIG. 2) that separates and stores bills and coins transported to the island end by the bill transport device 22 or the coin transport device 23 is installed.
[0052]
As shown in FIG. 2, a game ball supply device 40 and an upper storage tank 31 that form the basis of the present invention are installed on the upper part of the gaming machine island. Although described later, the upper storage tank 31 is formed in a small capacity unlike the conventional one. A prize ball counter 25 is installed at the other end of the gaming machine island 10. The prize ball counting machine 25 counts the game balls thrown from the prize ball insertion slot 26, transmits the count result to the management computer of the game hall, and displays the count result on the display section so that it can be visually checked or printed. This is a device for paying out receipts and the like.
[0053]
At the center of the gaming machine island 10, a polishing lifting device for lifting the game ball guided from the lower storage tank 70 at the lower part of the gaming machine island to the upper storage tank 31 at the upper part of the gaming machine island. A (lifting device) 30 is erected. Specifically, the polishing and lifting device 30 includes, for example, an endless annular lifting belt that extends in the up-down direction and a polishing belt that is stretched so as to face the conveying surface, and is sandwiched between both belts. It is a device that lifts the game ball while polishing it with the rotational driving of the lifting belt.
[0054]
A ball introduction port 30 a for receiving a game ball supplied from the lower storage tank 70 is provided at the lower portion of the polishing and lifting device 30, and an upper discharge port (not shown) is provided in the upper storage tank 70. The game ball is discharged. The polishing and lifting apparatus 30 in the present embodiment is configured to use both the polishing apparatus and the lifting apparatus. For example, a polishing apparatus that polishes a game ball separately from the lifting apparatus is a gaming machine. It may be arranged at an appropriate place on the island 10.
[0055]
The game ball replenishing device 40 transports the game balls that have been lifted by the polishing and lifting device 30 and stored in the upper storage tank 31 to each gaming machine 20 in a state where the game balls are also stored in the game ball replenishing device 40 itself. It is a device for replenishing. If the gaming machine 20 is a CR machine dedicated to a valuable value card and the ball lending machine 21 is a card unit, the gaming ball supply device 40 supplies gaming balls only to the gaming machines 20, but the gaming machine 20 Is a model other than a CR machine, and when a game ball is lent out from the ball lending machine 21, it is configured to replenish not only each game machine 20 but also each ball lending machine 21. In the present embodiment, the former case will be described as an example.
[0056]
As shown in FIGS. 1 and 2, the game ball supply device 40 includes a transport means 41 that transports the game balls in the longitudinal direction of the game machine island while storing the game balls in the upper part of the game machine island. The transport means 41 can stack a plurality of game balls in the transport path 42 in a transport path 42 that extends along the upper side of each gaming machine 20 starting from the upper end of the polishing / lifting device 30. A coil spring 45, which is a driving body that is conveyed by power in a state, is provided.
[0057]
Here, the conveyance path 42 and the coil spring 45 combined one by one form one set of conveyance units, and a plurality of conveyance units are arranged side by side adjacent to each other on the upper side of the gaming machine island so as to extend in parallel. In the present embodiment, three sets of transport units are arranged symmetrically on both sides of the gaming machine island 10 with the polishing and lifting device 30 standing substantially at the center of the gaming machine island 10 in between. It is installed.
[0058]
That is, in FIG. 3, three sets of transport units 41 a, 41 b, 41 c having different lengths are arranged side by side on the left side of the polishing and lifting device 30 of the gaming machine island 10. Similarly, three sets of transport units 40d, 40e, and 40f are juxtaposed in a horizontal row on the right side of the lifting device 30. Furthermore, along each of the transport units 41a to 41f, a replenishing unit 50 for receiving the game balls transported by the transport unit 41 and distributing them to the respective gaming machines 20 is provided. Hereinafter, the left half of the gaming machine island 10 will be mainly described.
[0059]
The conveying means 41 is provided with a coil spring 45 that is a driving body in a rotatable state over the entire length of the conveying path 42. Here, the conveyance path 42 has, for example, a U-shaped cross section in which the lower side is circular and the upper side is opened flat, and the upper opening is closed with a narrow flat plate cover, or from a round pipe with a circular cross section. It may be configured. Regardless of the shape, the size of the circular portion that houses the coil spring 45 is set slightly larger than the outer diameter of the coil spring 45 so that it can freely rotate.
[0060]
The coil spring 45 is formed by bending a metal wire in a spiral shape, and the inner diameter of the coil spring 45 is set to such a size that a plurality of game balls can be stacked inside (see FIG. 1). Thereby, a part of the game ball introduced to the inside of the coil spring 45 enters the gap between the pitches from the inner peripheral side of the coil spring 45 and is transported along the transport path 42 in a state where it can be stacked in layers. It has become so.
[0061]
As shown in FIGS. 8 and 2 to 4, the starting end side 42 a of the conveyance path 42 is disposed at a position that communicates with the inside of the upper storage tank 31 and faces the upper end portion of the polishing and lifting device 30. The end side 42b of the transport path 42 is disposed at a predetermined position extending toward the island end side. On the start end side 42 a of the transport path 42, a sphere inlet portion 43 that opens upward is opened, and on the end side 42 b of the transport path 42, the lower side is cut away to open a sphere outlet portion 44.
[0062]
The starting end side 45a of the coil spring 45 is disposed so as to be freely rotatable inside the starting end side 42a of the conveying path 42. Specifically, a cylindrical start terminal bracket 47 (see FIG. 10) for fixing one end of a wire 46 described later is attached to the start end side 45a of the coil spring 45 so as to be inserted. The start terminal bracket 47 is rotatably disposed at a position facing the upper storage tank 31 so as to close the terminal opening on the start end side 45 a of the coil spring 45.
[0063]
On the other hand, the terminal side 45 b of the coil spring 45 extends to the island end side from the terminal side 42 b of the transport path 42 and is connected to the drive motor 49. The drive motor 49 is a power source that rotates the coil spring 45 in the direction in which the game ball is conveyed from the start side 45a to the end side 45b. Specifically, a cylindrical end terminal bracket 48 for fixing the other end of the wire 46 described below is attached to the terminal end side 45b of the coil spring 45 so as to be inserted.
[0064]
As shown in FIG. 9, unlike the start terminal bracket 47, the end terminal bracket 48 is directly and integrally fixed to the output shaft of the drive motor 49, and the terminal end side 45b of the coil spring 45 is externally fitted. A cylindrical spring connecting portion 48a to be welded and a wire receiving portion 48b which is inserted into the spring connecting portion 48a and fixed integrally with the other end of the wire 46 being prevented from coming off. In the present embodiment, the end terminal bracket 48 is directly and integrally fixed to the output shaft of the drive motor 49. However, for example, power is indirectly transmitted through a transmission or reduction mechanism constituted by a gear or the like. You may comprise so that transmission is possible.
[0065]
As shown in FIG. 8, a wire 46 having a line shape is inserted inside the coil spring 45 as a regulating member that regulates the maximum total length due to the extension of the coil spring 45. Both ends of the wire 46 are fixedly connected to the start end side 45a and the end end side 45b of the coil spring 45 via a start end bracket 47 and an end end bracket 48, respectively. Both ends of the wire 46 are fixed to the centers of the start terminal bracket 47 and the end terminal bracket 48, respectively, and the wire 46 extends inside the coil spring 45 so as to pass through the center axis thereof. The wire 46 is for preventing the coil spring 45 from extending excessively, particularly on the start end side 45a where the game ball is introduced.
[0066]
As shown in FIG. 2 to FIG. 4, the transport units 41 a to 41 c constituting the transport means 41 are formed to have different overall lengths by a predetermined length, and the transport units 41 a to 41 c It is set so as to individually correspond to each replenishment unit in which a predetermined number of adjacent 20 groups are grouped. Here, the different “size” is a concept including not only the full length (length) but also the cross-sectional area and the entire volume.
[0067]
That is, the starting end sides of the respective transport units 41a to 41c are arranged with the polishing / lifting device 30 as the starting point, and are distributed at predetermined intervals in the longitudinal direction of the gaming machine island. On the end side of 41c, supply means 50 for supplying game balls to the gaming machines 20 of each supply unit is provided corresponding to each supply unit located near the lower part of each end side.
[0068]
Specifically, in FIG. 2, among the three sets installed on the upper half of the gaming machine island in the left half of the gaming machine island 10, the transport unit 41a having the shortest overall length and the replenishing means 50 on the end side thereof are located on one side of the island. From the polishing / lifting device 30 toward the island edge, up to the fourth unit corresponds to a first supply unit in which a total of eight gaming machines 20 are grouped in two rows in the front and rear. The details of the transport unit 41a and the replenishing means 50 on the end side thereof are shown in FIG.
[0069]
Further, the conveyance unit 41b having an intermediate length among the three sets and the replenishing means 50 on the end side thereof are counted from the fifth unit to the eighth unit counted from the polishing / lifting device 30 toward the island end on one side of the island. Thus, it corresponds to the second supply unit in which a total of eight gaming machines 20 are grouped in two rows before and after. Details of the transport unit 41b and the replenishing means 50 on the end side thereof are shown in FIG.
[0070]
Further, the transport unit 41c having the longest length among the three sets and the replenishing means 50 on the end side thereof are counted from the ninth unit toward the island end on the one side of the island from the ninth unit to the 12 island ends. To the eye, this corresponds to the third supply unit in which a total of eight gaming machines 20 are grouped in two rows. Details of the transport unit 41c and the replenishing means 50 on the end side thereof are shown in FIG.
[0071]
The replenishing means 50 each receive and temporarily store the game balls transported by the corresponding transport means 41, and extend obliquely toward each gaming machine 20 located near the lower portion of the storage section 51, It comprises a replenishment basket 52 for replenishing each gaming machine 20 with the game balls in the storage unit 51. The storage part 51 is disposed directly under the ball outlet part 44 on the terminal side 42b of the transport path 42, and is formed in a flat box shape whose upper surface side is open so as to be able to receive game balls.
[0072]
The storage part 51 has a capacity capable of temporarily storing a predetermined amount of game balls, and the bottom part of the storage part 51 is gently inclined downward toward the left and right, respectively, with the approximate center as a boundary. The upstream ends of a pair of replenishment rods 52, 52 extending in a branching manner in the left-right direction parallel to the longitudinal direction of the gaming machine island are connected to the left and right ends of the bottom portion of the storage portion 51. The pair of replenishment rods 52, 52 are respectively inclined downward to allow the game balls to flow down, and are configured to replenish the balls to half (four front and rear) gaming machines 20 of the replenishment unit. ing.
[0073]
That is, the middle of each replenishment basket 52 is connected to each gaming machine 20 via a distribution path through which the game balls fall. Specifically, a replenishment chute 53 corresponding to the gaming machine 20 positioned immediately below is provided in the middle of each replenishing basket 52, and the replenishing chute 53 and the gaming machine 20 provide a bellows 54 that guides the falling game ball. Connected to communicate with each other. A prize ball tank 58 to which the lower end of the bellows 54 is connected is provided at the upper part on the back side of the gaming machine 20.
[0074]
As shown in FIGS. 11 and 5 to 7, a supply ball detection sensor is provided at the upstream end of each supply basket 52 as a detection means for outputting a detection signal when a predetermined amount or more of game balls are accumulated in the supply basket 52. 55 is provided. In the replenishment bowl 52, game balls accumulate from the downstream end to the upstream end. When the game balls accumulate up to the upstream side where the supply ball detection sensor 55 is located, a detection signal is output from the supply ball detection sensor 55. It has become. The supply ball detection sensor 55 is configured, for example, as a proximity sensor such as a photo sensor that operates in accordance with the distance from the game ball that is the object to be detected, a magnetic sensor that detects the approach of the game ball, or the like. On the lower side, the game ball is arranged so as not to come into direct contact.
[0075]
Specifically, the supply ball detection sensor 55 is intermittently turned on when the game ball flows down the upstream side of the supply ball 52, while the supply ball 52 is filled with game balls and is upstream of the supply ball 52. When the game ball stays until the game ball stays on, when the ON state continues for 2 seconds or more, for example, a detection signal indicating that the ball storage amount of the replenishment basket 52 is full to the control means 100 described later. Is set to output.
[0076]
Here, as necessary for explanation, the respective transport units 41a to 41c are firstly and thirdly distinguished from each other, and then the two supply ball detection sensors 55 of the first transport unit 41a are First supply ball detection sensors 55a and 55b are provided from the side close to the polishing and lifting device 30, and the two supply ball detection sensors 55 of the second transport unit 41b are connected to the second supply ball detection sensor from the side close to the polishing and lifting device 30. 55c and 55d, and the two supply ball detection sensors 55 of the third transport unit 41c are the third supply ball detection sensors 55e and 55f from the side closer to the polishing and lifting device 30.
[0077]
In addition, for the right half of the polishing and lifting device 30 of the gaming machine island 10, the transfer units 41 d to 41 f are distinguished from each other with the fourth to sixth, respectively, and the replenishing balls in the same order as described above. The detection sensors 55 are fourth supply ball detection sensors 55g and 55h, fifth supply ball detection sensors 55i and 55j, and sixth supply ball detection sensors 55k and 55l. Some of these are not shown.
[0078]
In addition, the storage unit 51 includes a lower storage tank 70 at the lower part of the gaming machine island where game balls overflow from the storage unit 51 when the storage unit 51 including the replenishment basket 52 is filled with game balls. A sphere inlet 56a of an overflow pipe (path) 56 that drops to a point is communicated. As shown in FIGS. 5 to 6, the ball inlet 56 a has a flange projecting upward from the bottom surface of the storage unit 51, and is set so that game balls accumulated in several stages in the storage unit 51 enter. ing.
[0079]
As shown in FIG. 1, the overflow pipe 56 is suspended so as to pass between the back-to-back gaming machines 20, and the lower end opening 56 b is located above the gap 12 a between the pair of top plates 12, that is, the lower storage tank 70. It is arranged so as to face the upper surface of the opening. In addition, an overflow detection sensor (means) 57 is provided on the upper end side of the overflow pipe 56. The overflow detection sensor (means) 57 outputs a detection signal when a predetermined amount or more of game balls accumulate in the overflow pipe 56.
[0080]
In the overflow pipe 56, when the lower storage tank 70, which is a discharge destination of the game balls, is full, the game balls accumulate from the lower end port 56b to the ball inlet 56a, but to the upper end side where the overflow detection sensor 57 is located. When the game balls accumulate, a detection signal is output from the overflow detection sensor 57. Similar to the supply ball detection sensor 55, the overflow detection sensor 57 is, for example, a proximity sensor such as a photosensor that operates according to the distance from the game ball that is the object to be detected, a magnetic sensor that detects the approach of the game ball, or the like. And is arranged outside the outer periphery of the overflow pipe 56 so as not to come into direct contact with the game ball.
[0081]
Specifically, the overflow detection sensor 57 is also turned ON intermittently when the game ball falls on the upper end side of the overflow pipe 56, while the overflow pipe 56 is filled with the game ball and reaches the upper end side of the overflow pipe 56. When the game ball stays or the like, it is continuously turned ON, and when this ON state continues for 2 seconds or more, for example, a detection signal indicating that the ball storage amount of the overflow pipe 56 is full is sent to the control means 100 described later. It is set to output.
[0082]
The upper storage tank 31 is also provided with three upper storage detection sensors (means) 33H, 33M, and 33L that detect the amount of balls stored in the upper storage tank 31 step by step so as to line up at predetermined intervals. It has been. The upper storage detection sensors (means) 33H, 33M, and 33L are proximity switches and magnetic sensors that operate according to the distance from the game ball that is the object to be detected, similarly to the supply ball detection sensor 55 and the overflow detection sensor 57 described above. Etc.
[0083]
In the replenishment bowl 52, the game balls are sequentially accumulated from the bottom surface side to the top surface side. When the game balls are accumulated up to the upper storage detection sensor 33L at the lowest position, a detection signal is output from the upper storage detection sensor 33L. When the game ball accumulates up to the upper storage detection sensor 33M at the intermediate position, a detection signal is also output from the upper storage detection sensor 33M. When the game ball accumulates up to the upper storage detection sensor 33H at the highest position, A detection signal is also output from the storage detection sensor 33H.
[0084]
Thus, it is possible to know the level of the amount of game balls stored in the upper storage tank 31 according to how many of the upper storage detection sensors 33H, 33M, and 33L are continuously turned on and the detection signal is output. it can. The amount of game balls stored in the upper storage tank 31 is transferred to the upper storage tank 31 as in the prior art because the game balls in the upper part of the gaming machine island are transported in a state of being stored by the game ball supply device 40 as well. Therefore, it is not necessary to store game balls, and the capacity can be reduced accordingly.
[0085]
In FIG. 11, each drive motor 49, each supply ball detection sensor 55, each overflow detection sensor 57, and each of the upper storage detection sensors 33H, 33M, and 33L of the game ball supply device 40 described above are respectively controlled by control means 100 by signal lines. It is connected to the. The control means 100 centrally manages the supply / recovery of game balls in the gaming machine island 10, and specifically comprises a microcomputer constituted by an interface, a CPU, a RAM, a ROM, and the like.
[0086]
The control means 100 controls the driving of the transport means 41 in the game ball supply device 40 in accordance with detection signals from the supply ball detection sensors 55, the overflow detection sensors 57, and the upper storage detection sensors 33H, 33M, and 33L. Is set to Here, the conveying means 41 is individually driven and controlled on the basis of the detection signal from the replenishing means 50 and the detection signal from the upper storage tank 31 for each of the conveying units 41a, 41b,. ing.
[0087]
Specifically, the control unit 100 supplies power to the drive motor 49 of each of the transport units 41a, 41b,... When there is no input of a detection signal from the supply ball detection sensor 55 for each of the transport units 41a, 41b,. The coil spring 45 is set to rotate. Here, each of the transport units 41a, 41b... Has two replenishment ball detection sensors 55, but the control means 100 has at least one of the two replenishment ball detection sensors 55 for each transport unit 41a, 41b. When no detection signal is input from either one, the drive motor 49 is fed to rotate the coil spring 45.
[0088]
Further, the control means 100 receives a detection signal from the upper storage detection sensor 33H at the top of the upper storage detection sensors 33 for each transport unit 41a, 41b,. When no detection signal is input, the drive motor 49 is fed to rotate the coil spring 45, and when no detection signal is input from the upper storage detection sensor 33H, the supply to the drive motor 49 is stopped. Thus, the coil spring 45 is set to be stopped. Detailed control of the transport means 41 by the control means 100 as described above will be described later.
[0089]
Furthermore, in the lower part of the gaming machine island, as shown in FIGS. 1 and 2, in addition to the lower storage tank 70, a plurality of flow path pipes 27 through which out-game balls discharged from each gaming machine 20 respectively flow, A game ball moving device 80 that is arranged below the storage tank 70 and moves the out game balls flowing from the plurality of flow path pipes 27 to the polishing / lifting device 30 is arranged. An out game ball collecting unit 201 for collecting out game balls is provided at the lower end of the gaming machine 20, and an out game ball counter for counting out game balls is provided downstream of the out game ball collecting unit 201. A container 202 is arranged.
[0090]
One end of the channel tube 27 is connected to the out-game ball counter 202, and the other end is connected to the game ball moving device 80 through the gap 12 a between the pair of top plates 12 and the lower storage tank 70. Yes. The other end side of the flow path tube 27 is connected to the game ball moving device 80 so that all of the out game balls flowing through the flow path tube 27 flow into the game ball moving device 80 without leakage.
[0091]
The game ball moving device 80 includes a plurality of belt conveyors 81 and 82 for forcibly carrying out game balls in a substantially horizontal direction. The game ball moving device 80 is configured such that the game balls in the lower storage tank 70 flow into the game ball moving device 80 and move into the polishing and lifting device 30. That is, the out-game ball used by the player is transferred to the polishing and lifting device 30 with the highest priority. In the present embodiment, the game ball moving device 80 includes two belt conveyors 81 and 82, but may include three or more belt conveyors 81 and 82.
[0092]
The plurality of belt conveyors 81 and 82 are arranged in a plurality of rows, respectively. The control means 100 controls the operation speed to be different between the case where the out-game balls are moved by the plurality of belt conveyors 81 and 82 and the case where the game balls are moved by any one of the belt conveyors 81 and 82. The The plurality of belt conveyors 81 and 82 are operated at a high speed when moving the out game balls and the game balls in the lower storage tank 70, and are operated at a low speed when only the out game balls are moved. It is controlled by the control means 100.
[0093]
Further, when one of the plurality of belt conveyors 81, 82 breaks, the broken belt conveyor is operated by connecting another belt conveyor adjacent to the belt conveyor. It is formed so that the broken belt conveyor can be collected.
[0094]
Three lower storage tanks 70 are provided in series on the left and right sides of the gaming machine island 10 around the polishing and lifting device 30 disposed in the center of the gaming machine island 10. Each lower storage tank 70 is formed so that a game ball flows toward the center of its bottom 71. At the center of the bottom 71 of each lower storage tank 70, a discharge port 72 is opened. By opening and closing each discharge port 72, the flow of game balls from the lower storage tank 70 to the game ball moving device 80 is performed. Opening / closing means 90 for controlling each is arranged.
[0095]
When the game balls in the upper storage tank 31 become lower than a predetermined storage level, the opening / closing means 90 is opened preferentially from the oldest opening operation history among the six opening / closing means 90. The game balls in the lower storage tank 70 are polished by the polishing / lifting device 30 without unevenness between the lower storage tanks 70 so that the game balls do not stay in the lower storage tank 70 for a long period of time. The occurrence of rust on the game ball in the tank 70 can be prevented.
[0096]
Moreover, the lower storage tank 70 is good to comprise with the wood composite material which is a recycling material. If a hollow portion is provided inside the wood composite material and a plurality of small holes are formed on the inner wall surface with which the game ball is in contact to form a porous surface, the resonance of sound inside the lower storage tank 70 can be removed. it can. Moreover, since the lower part of the gaming machine island including the lower storage tank 70 is disposed with a lower space between the floor surface, the player can relax by stretching his / her legs. Furthermore, lighting means 17 for effecting are arranged along the lower surface side of the lower part of the gaming machine island so as to be arranged in the longitudinal direction of the gaming machine island.
[0097]
Next, the operation of the first embodiment will be described.
In the gaming machine island 10 shown in FIG. 2, the game balls lifted while being polished by the polishing and lifting device 30 are respectively extended from the polishing and lifting device 30 to the left and right of the upper part of the gaming machine island. Thus, the game machine 20 is transported in the longitudinal direction of the gaming machine and supplied to each gaming machine 20. The balls discharged from the polishing and lifting device 30 are introduced into the upper storage tank 31 as they are, but the game balls can be transported by the game ball supply device 40 in a state where the game balls are stored in the longitudinal direction of the gaming machine island. The storage of game balls in the upper part of the gaming machine island does not need to be concentrated in a large tank as in the prior art.
[0098]
Therefore, the upper storage tank 31 provided at the upper end of the polishing / lifting device 30 can have a small capacity and can be greatly reduced in size, and the total height of the gaming machine island 20 determined by the conventional large tank can be reduced. It can be designed to be low. In addition, in the upper storage tank 31 that stores the minimum required game balls, there is no possibility that some game balls remain as so-called dead balls for a long period of time as seen in conventional large tanks.
[0099]
When the transport means 41 whose start side communicates with the upper storage tank 31 is operated, the game balls in the upper storage tank 31 are taken in from the upstream side of the transport means 41 and are forcibly forced by the power above each gaming machine 20. Are transported in the longitudinal direction of the gaming machine island. Here, as described above, the transport means 41 is divided into transport units 41a to 41f each extending three sets on the left and right sides of the gaming machine island 10, and as shown in FIG. 3, each transport unit 41a, 41b. Each corresponds to a supply unit in which a total of eight gaming machines 20 are grouped. As a result, the game balls can be transported to each gaming machine 20 quickly and appropriately, in accordance with the replenishment amount actually required in each gaming machine 20.
[0100]
Each of the transport units 41a, 41b,... Is provided with a coil spring 45 that rotates and drives the game balls in a state where the game balls can be stacked in layers in a transport path 42 that extends along the upper side of each game machine 20 starting from the polishing and lifting device 30 Accordingly, the game balls are transported in the longitudinal direction of the gaming machine island while being stacked in the transport path 42 by the rotational drive of the coil spring 45 by the drive motor 49. In this way, in the game ball replenishing device 40, the game balls dispersed and stored in the longitudinal direction of the gaming machine island move as they are, so that each gaming machine can be transported at a small transport time anywhere almost throughout the entire length of the gaming machine island. It is possible to transport game balls efficiently and quickly up to 20.
[0101]
In FIG. 8, a part of the game ball that has entered the inside of the coil spring 45 from the ball entrance portion 43 of the transport path 42 enters the gap between the pitches from the inner peripheral side of the coil spring 45 and can be stacked in multiple layers on it. It is conveyed by. The starting end side 45a of the coil spring 45 is disposed so as to be freely rotatable at a position where the game ball can be introduced in a state where the end opening is closed by the starting terminal bracket 47, and the end side 45b of the coil spring 45 is Since it is connected to the output shaft of the drive motor 49 via the end terminal bracket 48, even if the coil spring 45 is set to be long according to the overall length of the gaming machine island 10, it is ensured without applying excessive force to the coil spring 45 as a whole. Can be driven to rotate.
[0102]
As shown in FIG. 5 to FIG. 7, in the transport units 41 a, 41 b... The game balls can be smoothly distributed and replenished without using power to the game machines 20 in the replenishment unit located near the lower part. That is, the game ball that has moved to the end side 42 b of the transport path 42 as the coil spring 45 rotates is dropped from the ball outlet 44 and introduced into the storage 51.
[0103]
The game balls temporarily stored in the storage unit 51 are equally distributed to the left and right according to the inclination of the bottom surface part, and are introduced as needed to a pair of supply baskets 52 and 52 that extend and branch to the left and right ends of the bottom surface part. Each replenishment basket 52 extends so as to pass above the four front and rear gaming machines 10 positioned below, and the game balls flowing down the replenishment basket 52 are connected via a replenishment chute 53 and bellows 54. It is appropriately supplied to each gaming machine 20 arranged directly below. Thereby, after the game balls are transported by power while being stored, the supply means 50 can continue to distribute the game balls 20 smoothly to each gaming machine 20.
[0104]
Since the storage unit 51 of the replenishing means 50 can store a predetermined amount of game balls after being transported to each game machine 20, when a game ball is suddenly needed in each game machine 20 due to the occurrence of a big hit However, it is possible to quickly supply game balls to each gaming machine 20 without waiting for the conveyance by the conveyance means 41. Here, the capacity of the storage unit 51 does not need to be increased so much as long as the game balls can be supplied to the pair of replenishment rods 52 and 52 for flowing down the game balls immediately to some extent.
[0105]
In addition, when the storage unit 51 including the pair of supply baskets 52 and 52 is filled with game balls, the overflowing game balls are stacked above the bottom surface of the storage unit 51, and the ball inlet 56 a of the overflow pipe 56. It falls to the inside so as to get over the flange located at the bottom, and is smoothly returned to the lower storage tank 70 through this overflow pipe 56. Thereby, it is possible to eliminate the storage of extra game balls in the upper part of the gaming machine island and to maintain an optimal storage amount in the supply means 50.
[0106]
Next, the operation control of each of the transport units 41a, 41b ... by the control means 100 will be described. The game balls are transported to the respective replenishing means 50 by the operation of the transport units 41a, 41b, etc., but are transported to the replenishing means 50 more than the amount of game balls replenished to the gaming machine 20 from the replenishing means 50. If the amount of game balls exceeds, the game balls will gradually accumulate from the lower end side of the pair of supply baskets 52 into the storage unit 51. Here, when the supply ball detection sensor 55 on the upstream side of each supply rod 52 is continuously turned on, a detection signal indicating that the ball storage amount of the supply rod 52 is full is output. On the other hand, if the game ball does not stay on the upstream side of each supply rod 52, the supply ball detection sensor 55 is not continuously turned on and does not output a detection signal.
[0107]
As shown in FIG. 12, the control means 100 first determines the presence / absence of a detection signal from the supply ball detection sensors 55a, 55c,... In the supply tank 52 extending to the right side of the storage unit 51 for each transport unit 41a, 41b,. When the determination is made (step S101) and there is no detection signal from the supply ball detection sensors 55a, 55c,... In any of the transport units 41a, 41b,... (Step S101; N), the transport units 41a, 41b,. Electric power is supplied to the motor 49 to rotate the coil spring 45 (step S103).
[0108]
Thereby, the game ball is transported without delay to the supply means 50 without a detection signal from the supply ball detection sensor 55, and the game ball is stably supplied to the storage unit 51 or the supply basket 52. Here, if one of the left and right supply baskets 52 is full of game balls, the game balls will naturally flow into the supply bowl 52 that is not filled with game balls.
[0109]
On the other hand, in all the transport units 41a, 41b,..., The detection signals are output from the supply ball detection sensors 55a, 55c,. Similarly, the control means 100 determines the presence or absence of a detection signal from the supply ball detection sensors 55b, 55d, etc. in the supply tank 52 extending to the left side of the storage section 51 for each transport unit 41a, 41b,. In step S102), if there is no detection signal from the supply ball detection sensors 55b, 55d ... in any of the transport units 41a, 41b ... (step S102; N), power is supplied to the drive motor 49 of the transport units 41a, 41b ... Then, the coil spring 45 is rotationally driven (step S103).
[0110]
In all the transport units 41a, 41b..., When detection signals are also output from the supply ball detection sensors 55a, 55c... Of the supply rod 52 extending to the left side of the supply means 50, the process is repeated from the first step. It will be. In this way, in all the transport units 41a, 41b..., First, the storage amount of the game ball in the right supply basket 52 is determined, and then the storage amount of the game ball in the left supply basket 52 is determined. The game balls can be replenished almost evenly in a wide range over the entire gaming machine island 10, and a situation in which the storage amount of the gaming balls in the upper part of the gaming machine island is locally reduced can be prevented.
[0111]
As described above, when the control means 100 does not input a detection signal from the supply ball detection sensor 55, that is, when the game balls are not accumulated in the supply bowl 52 more than a predetermined amount, the transport means 41 is operated. Thus, it is possible to avoid a situation where the supply means 50 runs out of game balls, and even when game machines 20 suddenly become necessary, it is possible to constantly supply game balls to the game machines 20 stably. .
[0112]
When the detection signal is input from the detection means 55, the control means 100 may completely stop the operation of the transport means 41, or may be intermittently operated every predetermined time. It may be set to operate only temporarily depending on the cause of the problem. When the storage unit 51 is filled with game balls including the left and right supply rods 52 by the supply means 50, the game balls overflowing from the storage unit 51 are transferred to the lower storage tank 70 by the overflow pipe 56. It is reduced smoothly.
[0113]
Furthermore, in addition to the control of the operation of the transport means 41 based on the detection signal from the detection means 55 described above, the control means 100 detects a detection signal from the upper storage detection sensor 33H at the top of the upper storage detection sensor 33. Further, based on the detection signal from the overflow detection sensor 57, the operation of the transport means 41 is controlled as follows.
[0114]
That is, as shown in FIG. 13, the control means 100 determines the presence or absence of a detection signal from the upper storage detection sensor 33H (step S201), and when the detection signal from the upper storage detection sensor 33H is input here ( Step S201; Y), it is determined whether or not there is a detection signal from the overflow detection sensor 57 corresponding to each transport unit 41a, 41b,... (Step S202). Then, in the transport units 41a, 41b,... Where no detection signal is input from the overflow detection sensor 57, the drive motor 49 is fed to rotate the coil spring 45 (step S203).
[0115]
Again, the presence / absence of a detection signal from the upper storage detection sensor 33H is determined (step S204). When the detection signal from the upper storage detection sensor 33H is input here (step S204; Y), the detection from the overflow detection sensor 57 is performed. In the transport units 41a, 41b,... Where no detection signal is input, the drive motor 49 is fed to rotate the coil spring 45 (step S203).
[0116]
On the other hand, when no detection signal is input from the upper storage detection sensor 33H (step S204; N), the feeding units 41a, 41b,... In operation are stopped to supply power to the drive motor 49 and the coil spring 45 is rotated. Stop (step S205). Thereby, the storage distribution of game balls in the upper part of the gaming machine island can be maintained in a well-distributed state without being unevenly distributed.
[0117]
Next, how the out game balls and the game balls overflowing from the upper part of the game machine island are processed in the gaming machine island 10 will be described. Out game balls discharged from each gaming machine 20 on the gaming machine island 10 flow from the out game ball collection unit 201 to the out game ball counter 202. The out game balls counted by the out game ball counter 202 flow into the game ball moving device 80 through the flow path pipe 27.
[0118]
When the opening / closing means 90 is in the closed state, the belt conveyors 81 and 82 of the game ball moving device 80 are operated at a low speed. Thereby, the out game ball can be transferred to the polishing and lifting device 30. The out game balls are lifted to the upper storage tank 31 while being polished by the polishing and lifting device 30. When the game balls in the upper storage tank 31 become lower than a predetermined storage level, the one with the oldest release history among the six opening / closing means 90 is released. When the opening / closing means 90 is opened, the belt conveyors 81 and 82 are operated by the control means 100 from a low speed to a high speed. Since the opening / closing means 90 is in the open state, the game balls in the lower storage tank 70 flow into the game ball moving device 80.
[0119]
Since the out game balls flow into the game ball moving device 80 through the flow path tube 27, the out game balls and the game balls in the lower storage tank 70 are preferentially polished and lifted without staying in the game balls. It can be transferred to the device 30. The out game balls and the game balls in the lower storage tank 70 are transferred to the upper storage tank 31 while being polished by the polishing / lifting device 30. When the upper storage tank 31 reaches a predetermined storage level, the opening / closing means 90 is closed, and the belt conveyors 81 and 82 are operated from the high speed to the low speed by the control means 100, and only the out game balls are transferred to the polishing / lifting device 30. To come.
[0120]
FIG. 14 shows a second embodiment of the present invention.
In the present embodiment, a pair of transport units 410 extend symmetrically on both sides of the gaming machine island 10 with the polishing / lifting device 30 standing substantially at the center of the gaming machine island 10 in between. It is arranged. A plurality of replenishing means 50 are provided at predetermined intervals in the transport unit 410 that extends by one. In addition, the same code | symbol is attached | subjected to the site | part of the same kind as 1st Embodiment, and the overlapping description is abbreviate | omitted.
[0121]
In this way, by configuring the transport means 41 with only one transport unit 410, it becomes possible to reduce the equipment cost, and in particular, installation on a small-scale gaming machine island 10 with a small number of gaming machines 20 Is excellent. Furthermore, as another embodiment, the transport means may be configured by two transport units, or in a large-scale gaming machine island 10, it may be configured by four or more transport units.
[0122]
The embodiments of the present invention have been described above with reference to the drawings. However, the specific configuration is not limited to the above-described embodiments, and the present invention can be changed or added without departing from the scope of the present invention. Included in the invention. For example, in the above-described embodiment, the conveyance path 42 of the conveyance means 41 has a U-shaped cross section in which the lower side is circular and the upper side is opened flat, and the upper opening is closed with a narrow transparent flat plate lid. In addition, a slit may be formed in the bottom surface of the conveyance path 42 and a receiving surface for receiving foreign matter such as dust separated from the slit may be provided.
[0123]
In addition, the transport path 42 is not limited to the flat plate lid but is formed from a transparent material, and the inside of the transport path 42 can be confirmed from the outside if a part of the U-shaped cross section is formed of the transparent material. It is possible to perform maintenance and inspection easily. Furthermore, although the drive body of the said conveyance means 41 was demonstrated as the coil spring 45, a drive body is not limited to the coil spring 45, You may comprise by a belt conveyor, a screw, etc. other than this, for example.
[0124]
Moreover, if the capacity | capacitance of the storage part 51 is set so that it may become large as the terminal side of each conveyance unit 41a, 41b ... is distanced from the lifting apparatus 30, it will be a game ball by each conveyance unit 41a, 41b ... as it is far from the starting point. It is possible to cancel out the trouble that takes a long time to transport. That is, even if transport is delayed by an amount far from the starting point, a necessary amount of game balls can be supplied from the storage unit 51 that can store a larger number of game balls to the supply basket 52 until the transport is performed. . Specifically, in the three sets of transport units 41a to 41c, the capacity of the storage unit 51 is set to increase in the order of first transport unit 41a <second transport unit 41b <third transport unit 41c.
[0125]
【The invention's effect】
According to the game ball replenishing device according to the present invention, the game balls lifted to the upper part of the gaming machine island are transported in the longitudinal direction of the gaming machine island by the transport means while the game balls are stored in the upper part of the gaming machine island. Therefore, unlike the upper storage tank of the prior art, it is not necessary to store a large amount of game balls locally, and the capacity of the upper storage tank can be reduced, so the gaming machine determined by the upper storage tank The total island height can be kept low. Further, there is no situation in which some game balls remain as so-called dead balls in the large-capacity upper storage tank.
[0126]
The game balls transported by the transport means are efficiently distributed to each gaming machine without using power by the supply means provided along the transport means. Here, when a predetermined amount or more of game balls are accumulated in the replenishing means, the situation is detected by the detecting means, a detection signal is output from the detecting means, and the control means is based on the signal from the detecting means. Since the operation is controlled, it is possible to appropriately control the transportation in consideration of the storage state of the game balls, prevent the retention of the game balls, excessive supply and unnecessary driving of the transport means, and efficiently and quickly Each gaming machine can be replenished.
[0127]
In addition, the transporting means is provided with a driving body that transports the game balls by power in a state where the game balls can be stacked in multiple layers in a transport path that extends along the upper side of each gaming machine starting from the lifting device. In this case, as the driving body is driven by power, it is transported in the transport path along the longitudinal direction of the gaming machine island while being stacked in multiple layers. The game balls that are distributed and stored in the longitudinal direction of the gaming machine island move as it is, but the gaming machine is transported almost everywhere in the longitudinal direction of the gaming machine island with little transport time anywhere. It is possible to transport game balls efficiently and quickly.
[0128]
Furthermore, the game balls transported by the transport means are first introduced into the storage section and temporarily stored by the replenishment means provided along the transport means, and then each game located below the storage section. The game balls are supplied to each gaming machine by flowing down a supply basket extending at an angle toward the machine, so that the game balls can be distributed to each gaming machine continuously after being transported with power in a stored state. it can. Here, the storage unit of the replenishing means can store a predetermined amount of game balls after being transported to each gaming machine, so even if a game ball suddenly becomes necessary for each gaming machine, It is possible to supply game balls to each gaming machine without waiting for the transportation.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an amusement machine island provided with a game ball supply device according to a first embodiment of the present invention.
FIG. 2 is a partially cutaway front view showing a gaming machine island provided with the gaming ball supply device according to the first embodiment of the present invention.
FIG. 3 is a plan view partially broken away showing the gaming machine island where the gaming ball supply device according to the first embodiment of the present invention is installed.
FIG. 4 is a plan view showing a partially broken half-side half of a gaming machine island in which the gaming ball supply device according to the first embodiment of the present invention is installed.
FIG. 5 is an enlarged front view showing the main part of the first transport unit of the game ball supply device according to the first embodiment of the present invention.
FIG. 6 is an enlarged front view showing a main part of a second transport unit of the game ball supply device according to the first embodiment of the present invention.
FIG. 7 is an enlarged front view showing a main part of a third transport unit of the game ball supply device according to the first embodiment of the present invention.
FIG. 8A is a longitudinal sectional view showing a conveying means of the game ball supply device according to the first embodiment of the present invention, and FIG. 8B is a sectional view taken along line AA ′.
FIG. 9 is an exploded (a) side view and (b) front view of an end-side bracket that constitutes the conveying means of the gaming ball supply device according to the first embodiment of the present invention.
FIG. 10 is an exploded (a) side view and (b) front view of the starting end side bracket constituting the conveying means of the game ball supply device according to the first embodiment of the present invention.
FIG. 11 is an explanatory diagram showing an arrangement of various sensors provided in the game ball supply device according to the first embodiment of the present invention.
FIG. 12 is a flowchart for explaining an operation control pattern of one of the transport means by the control means of the game ball supply device according to the first embodiment of the present invention.
FIG. 13 is a flowchart for explaining another operation control pattern of the transport means by the control means of the game ball supply device according to the first embodiment of the present invention.
FIG. 14 is a partially cutaway front view showing a gaming machine island in which a gaming ball supply device according to a second embodiment of the present invention is installed.
[Explanation of symbols]
10 ... Amusement machine island
10a ... Island border
11 ... Housing frame
12 ... top plate
13 ... Shimaki
14 ... curtain
15 ... Call lamp
16 ... Data collection device
17 ... Lighting means
20 ... gaming machine
21 ... Ball machine
22 ... Bill transport device
23. Coin transport device
24 ... safe
25 ... Premium ball counter
26 ... Premium ball slot
27 ... Channel pipe
30 ... Polishing and lifting device
30a ... Ball inlet
31 ... Upper storage tank
33H ... Upper storage detection sensor
33L ... Upper storage detection sensor
33M ... Upper storage detection sensor
40 ... Game ball supply device
41 ... Conveying means
42 ... Conveying path
43 ... Ball entrance
44 ... Ball exit
45 ... Coil spring
46 ... Wire
47 ... Opening terminal bracket
48 ... Terminal bracket
49 ... Drive motor
50 ... Supplying means
51 ... Reservoir
52 ... Supplying bowl
52 ... Supplying bowl
53 ... Supply chute
54 ... Bellows
55 ... Supply ball detection sensor
56 ... overflow pipe
57. Overflow detection sensor
58 ... Prize ball tank
70 ... Lower storage tank
80 ... Game ball moving device
90 ... Opening / closing means
100: Control means

Claims (10)

A game ball is installed on a gaming machine island formed by arranging a plurality of gaming machines, and a game ball lifted to the upper part of the gaming machine island by a lifting device standing on the gaming machine island is transported to each gaming machine. In a game ball replenishing device for replenishing
A transporting means for transporting in the longitudinal direction of the gaming machine island in a state where game balls are stored in the upper part of the gaming machine island, a replenishing means provided along the transporting means, and a storage amount of game balls in the replenishing means are detected. A game ball replenishing device comprising: a detecting means; and a control means for controlling the operation of the conveying means based on a signal from the detecting means. The transport means is a drive that transports game balls by power in a state where a plurality of game balls can be stacked in the transport path in a transport path that extends along the upper side of each gaming machine starting from the lifting device. A body,
The replenishing means receives and temporarily stores the game balls transported by the transport means, and extends obliquely toward each gaming machine located near the lower portion from the storage section, and the game balls of the storage section The game ball replenishing device according to claim 1, further comprising a replenishing bowl for replenishing each gaming machine. The detection means is provided in a replenishment bowl of the replenishment means, and outputs a detection signal when a predetermined amount or more of game balls are accumulated in the replenishment bowl,
3. The game ball replenishing device according to claim 2, wherein the control means operates the driving body of the transport means when no detection signal is input from the detection means. When the storage part including the supply basket is filled with game balls, the game balls overflowing from the storage part are dropped to the lower storage tank provided at the lower part of the gaming machine island. Communicating the inlet of the overflow path,
In the overflow path, provided is an overflow detection means for outputting a detection signal when a game ball has accumulated a predetermined amount or more,
An upper storage tank for temporarily storing game balls to be supplied to the transfer means is provided at the upper end side of the lifting device, and an upper part that outputs a detection signal when a predetermined amount or more of game balls are stored in the upper storage tank. A storage detection means is provided,
When the detection signal is input from the upper storage detection unit and the detection signal is not input from the overflow detection unit, the control unit operates the driving body of the transport unit, and from the upper storage detection unit 4. The game ball replenishing device according to claim 2, wherein when the detection signal is no longer input, the operation of the driving body of the transport means is stopped. 5. The transport means comprises a plurality of transport units each having the driving body provided in the transport path so as to extend in parallel.
Each transport unit is installed individually corresponding to each replenishment unit grouped by a predetermined number of adjacent gaming machines,
The game ball supply device according to claim 2, 3 or 4, wherein the control means controls the operation of the driving body for each transport unit. The replenishing rods of the replenishing means branch from both sides of the storage portion in the left-right direction parallel to the longitudinal direction of the gaming machine island and extend to a pair of left and right, respectively. Connected to each of the gaming machines via
The detection means is disposed on the upstream end side of each replenishment rod,
The said control means operates the drive body of the said conveyance means, when the detection signal from at least any one of each said detection means is not input, The Claim 2, 3, 4, or 5 characterized by the above-mentioned. The described game ball supply device. 7. The game ball supply device according to claim 2, wherein a power source for driving the driving body is provided on a terminal end side of the transport path starting from the lifting device. . The conveying means is configured by providing a coil spring that is the driving body in a rotatable state over the entire length of the conveying path,
The inner diameter of the coil spring is sized so that multiple game balls can be stacked inside, and a part of the game ball that has entered the coil spring enters the gap between the pitches from the inner peripheral side of the coil spring. The game ball replenishing device according to claim 2, wherein the game ball replenishing device is transported in a state where it can be stacked in multiple layers. The starting end side of the coil spring is rotatably arranged at a position facing the lifting device, while the terminal end side of the coil spring extends toward the island end side, and the game ball is conveyed from the starting end side to the terminal end side. The game ball replenishing device according to claim 8, wherein the game ball replenishing device is connected to a power source that is rotated in the direction of rotation. The game ball replenishing device according to claim 2, 3, 4, 5, 6, 7, 8 or 9, wherein at least a part of the transport path is formed of a transparent material.

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