JP4220711B2 - Ball supply system between amusement islands - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises, for example, a plurality of pachinko gaming machines and game media lending machines arranged in a row and a ball feeding device provided with an upper tank, and a ball storage for storing a large amount of pachinko balls inside the island Regarding the amusement islands that are provided with tanks to circulate and recirculate, more specifically, a balance fence is bridged between the upper parts of the amusement islands arranged in multiple rows (left and right direction or front and rear direction across the passage). When supplying each other accordingly, acceleration of the pachinko balls stored in the upper tank is accelerated and sent to the balance cage to equalize the amount of balls stored in each amusement island (equalization of the amount of balls held). The present invention relates to a ball supply device in amusement islands.
[0002]
[Prior art]
Usually, in a pachinko parlor, for example, a plurality of 15 to 20 pachinko gaming machines arranged in a straight line on one or both sides and arranged in a horizontal direction (horizontal direction) It is constructed from a plurality of rows of game islands arranged in the left-right direction in the same manner in the front-rear direction across a middle passage (a slightly wider passage) at a position facing a plurality of rows of game islands.
In amusement islands, about 150,000 shots of pachinko balls are used (held) in the case of so-called wall islands on one side, and about 300,000 shots in the case of so-called double-sided islands on both sides. Pachinko balls are replenished from the upper supply basket to each pachinko machine and each game media lending machine. In addition, the game island is provided with a ball lifting device having an upper tank and a ball storage tank for storing a large amount of pachinko balls in the island, and circulating and recirculating (system) the balls stored in the ball storage tank. It is made like this.
[0003]
In the above game island, the system for circulating and recirculating balls stored in the island is, for example, a ball storage tank having a length for storing a large amount of pachinko balls in the lower part of the game island, and ball discharge at the end of the ball storage tank. A small circulating lift provided in the section, a ball lifting device that lifts the circulating lift or pachinko balls discharged from each pachinko gaming machine into the recovery bowl while polishing upward, and an upper portion of the ball lifting device Is an upper tank for temporarily storing the pachinko balls that have been transported (storage section), and an inclined supply bowl for supplying pachinko balls to each pachinko gaming machine and each game medium lending machine from this upper tank, It is basically composed of an overflow bowl for returning the pachinko balls overflowing from the upper tank to the ball storage tank, so that the pachinko balls in the island circulate and recirculate so as not to hinder business.
[0004]
Furthermore, the amusement island provided with a system for circulating and recirculating is, for example, an island with a counter provided with a ball counter at the end of the island (also called a parent island), and is arranged adjacent to the left and right direction (both sides). Necessary by detecting an increase or decrease in the amount of balls stored on the island, with a counterless island (also called Kojima), and at least one horizontal balance rod installed in the upper tank of the ball lifting device spans the upper tank. According to each other, they supply each other.
In addition, in the pachinko amusement stores installed in the suburbs, the store scale (the number of installations for constructing amusement islands is increasing) is increasing. When introducing a system that circulates and recirculates in such a large-scale game store, the game islands that are arranged adjacent to each other in the left-right direction are provided with a horizontal balance rod provided in the upper tank of the ball lifting device. It goes without saying that the tanks are crossed over and supplied to each other, and even on amusement islands that are arranged in the front-rear direction across the passage (medium passage), a balance fence is placed between the amusement islands. It is necessary to supply and equalize the pachinko balls with each other by means of a balance rod spanned between the upper parts so that the amount of ball storage on any of the game islands does not become insufficient.
[0005]
As described above, the balance rod that is provided at the upper part of the ball lifting device and is supplied between the upper tanks and stored in each amusement island and is equalized is the two inclined transports. A cross-balance type construction that crosses the upper tanks in an X-shape and crosses the upper tanks, or at least one horizontal conveying path is passed between the upper tanks, and one is driven by a forward / reverse drive motor. There is provided a forward / reverse drive belt configuration.
[0006]
[Problems to be solved by the invention]
However, if each game island is equipped with a cross-balance system that crosses the above-described two inclined balance-balance transport paths in an X shape and supplies each pachinko ball to each other, the two inclined Is crossed in an X shape above the center or end of the amusement island, it is wide and undesirably aesthetic.
[0007]
In addition, the two conveyance paths are crossed in an X-shape, and a shutter mechanism (not shown) opens and closes as necessary to move pachinko balls in the conveyance path to the supply side on the inclined conveyance path. As a result, there is a risk that the ball pool will fall in the transport path and there will be a risk that the balance rod will fall, etc., so it is necessary to consider (strength) structurally as a fall prevention measure. The cost was up.
[0008]
On the other hand, when each game island is provided with a single forward / reverse belt system that spans one balance rod transport means by the forward / reverse drive motor, the cross balance described above is used. Although it is aesthetically pleasing compared to the system, it uses a drive motor as the drive source, and in particular uses an expensive drive motor that controls switching between forward and reverse rotation, which increases the cost and causes trouble if used for many years. .
In addition, since the above-mentioned transport means is constructed by linking a belt between pulleys, it is necessary to adjust the tension when laying the belt or installing it during periodic inspections. Work), etc., and if trouble occurs, it will become impossible to operate.
[0009]
In addition, for example, the width of the passage between adjacent islands in the left-right direction differs depending on the pachinko amusement store, and each time, the work must be cut at the site, which takes time. There were various problems such as.
[0010]
In view of the above points, the present invention bridges a balance fence between the upper parts of the game islands (in the left-right direction or the front-rear direction across the passage), and supplies the ball storage amount of each game island to each other as necessary. It is an object of the present invention to provide a ball supply device between game islands that can equalize the amount of balls stored in each game island by means of a ball supply device that includes an accelerating means that sends the balance to a balance rod.
[0011]
[Means for Solving the Problems]
The above-mentioned objects are a plurality of pachinko gaming machines and game media lending machines, a ball lifting device having an upper tank that lifts pachinko balls while polishing them, and a ball storage tank that stores a large amount of pachinko balls. The pachinko balls discharged from the ball storage tank are transported to the upper tank by the ball lifting device, and supplied to the pachinko gaming machine and the game media lending machine from the upper tank to circulate and recirculate a plurality of game islands. The upper part of the game island with multiple rows In the ball supply device on the amusement island that balances the balance 間 に between the tanks and sends out the pachinko balls stored in the upper tank to the balance 樋 to equalize the amount of balls stored in each amusement island, And a guide path provided in the guide fence to roll and convey pachinko balls. The upper tank includes a storage section and a storage section of the storage section. And a ball outflow means for releasing the storage, a drive means for driving the ball outflow means, and an acceleration means for feeding the pachinko balls flowing out from the ball outflow means when the drive means is driven to the balance rod. When the pachinko balls are supplied by the balance hoe spanned between the upper tanks of the amusement island, the drive means of the upper tank on the supply side is an actuating member that causes the conveyance path in the balance heel to be inclined. By linking operation by the swinging member outflow means, this to feed the balance trough to impart acceleration to the pachinko balls by the acceleration means Is achieved.
[0013]
The above purpose is The ball supply device for a game island according to claim 1, wherein the transfer path of the balance rod is swingable up and down like a seesaw with a fulcrum member provided at a substantially central portion inside the guide rod as a fulcrum. It is configured such that the conveying path of the balance rod is changed to an inclined posture on either side by an operating member that operates in conjunction with the swing of the ball outlet means by the swing member of the driving means. Is achieved.
[0014]
According to the above configuration, pachinko balls are supplied to each other by laying at least one horizontal balance rod on the upper tank of the game island disposed between the upper parts of the game island (in the left-right direction). By equalizing the amount, there is no loss of aesthetics compared to the two cross balance methods.
In addition, the pachinko balls are supplied to each other across at least one horizontal balance rod on the end or upper tank of the amusement island arranged between the upper parts of the amusement island (in the longitudinal direction across the middle passage), By equalizing the ball storage amount, even if it is a game island arranged in the front-rear direction across the middle passage, the aesthetic appearance is not impaired.
[0015]
In addition, at least one horizontal balance rod is bridged between the upper parts of the game island (left and right direction or front and rear direction across the passage), and the pachinko balls lifted by the ball lifting device are stored in the upper tank, The pachinko balls that are sent as needed on the supply side in the balance cage that has been laid are accelerated by the acceleration means, and are sent out to the balance cage, so that the accelerated pachinko balls are vigorously spaced between the upper parts. Will quickly roll to the upper tank of the adjacent game island.
Therefore, there is no risk that the balance rod will fall without being able to roll and the balance rod will fall, and as a result, it will not be necessary to take measures to prevent the drop and the cost will be low.
[0016]
Moreover, at least one horizontal balance rod is bridged between the upper parts of the amusement island (left and right direction or front and rear direction across the passage), and the pachinko balls stored in the upper tank are moved by the non-drive type acceleration means. By adopting a configuration that accelerates and feeds to the balance rod, a motor as a drive source is not required compared to a single forward / reverse belt method using an expensive drive motor that controls forward / reverse switching drive, thereby reducing costs. It is possible to solve various problems due to the complicated structure such as adjustment of the tension of one forward / reverse belt of the conveying means and replacement work due to belt breakage.
[0017]
In addition, when the balance fence is bridged across the different passage widths between adjacent amusement islands on the site, there is no need to cut both ends of the balance fence or any one of the ends, so the construction time at the site can be shortened. .
[0018]
Also, balance 樋 Inside transport path Swings up and down like a seesaw with the fulcrum member in the substantially central part as a fulcrum, and the shutter member and the operating member interlock, Transport path The pachinko ball with acceleration is vigorously sent by the acceleration means to the balance 搬 送 transport path without losing momentum on the balance heel transport route inclined. Assisted, it will roll to the upper tank of the adjacent game island, and it will roll and convey to the upper tank of the adjacent (one side) game island, and supply pachinko balls I can do it. In addition, balance 樋 Inside transport path By using the mechanism in which the shutter member and the operating member are interlocked, the number of parts can be reduced, the structure can be simplified, and the cost can be further reduced.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on the embodiments shown in the drawings.
FIG. 1 shows an embodiment of a ball supply device between pachinko game islands of the present invention, and is a schematic side view illustrating only one side (substantially half) of the game islands.
As shown in FIG. 1, a gaming island 1 is provided with a plurality of pachinko gaming machines 2 and gaming medium lending machines 2a (between balls lending machine) arranged, and each component of a circulation reflux system 9 to be described later is provided. Yes. Among them, a ball amount detection device 10 to be described later is incorporated at an arbitrary position of the ball storage tank 3.
[0020]
For example, in a pachinko game shop, a plurality of 15 or 20 pachinko gaming machines 2 are arranged in a straight line on one or both sides and arranged in the left-right direction, and the plurality of rows of game islands 1 are arranged. It is constructed from a plurality of rows of game islands 1 arranged in the left-right direction in the same manner in the front-rear direction across a passage (medium passage) at a position facing the game island 1. The gaming islands arranged in the left-right direction are gaming islands that are arranged laterally on one or both sides, with a chair installed for each pachinko gaming machine and formed with a slight passage.
The middle passage is a passage formed in a slightly wider passage, and a game facility (a ball counter, a change machine, a card-issuing machine, etc.) is installed at the end of each island 1.
The game islands arranged in the front-rear direction refer to game islands arranged in the left-right direction at positions facing each other across the above-described middle passage.
Amusement islands 1 arranged in a plurality of rows in the pachinko game shop described above generally have about 150,000 shots for a so-called wall island on one side and about 300,000 for a so-called double-sided island on both sides. The pachinko balls are stored (held) in the ball storage tank 3 etc. on the island.
[0021]
First, the case where the game island 1 in which the circulation recirculation system 9 is introduced is arranged in the left-right direction will be described.
The circulating reflux system 9 uses, for example, a game island 1 having a ball counter 1a at the island end 1b as a counter-equipped island, and a game island 1 arranged adjacent to the left and right direction (both sides) as a island without a counter. Furthermore, at least one horizontal balance rod 40 provided in the upper tank 20 of the ball lifting device 6 is bridged between the upper tanks 20, and detection of increase / decrease of the ball storage amount in each game island is performed as necessary. Supplying each other.
In addition, as will be described later, any one of the game islands 1 installed in the left-right direction with the circulation reflux system 9 introduced therein, and the game island 1 arranged in the front-rear direction across the passage (medium passage). Necessary by detecting the increase or decrease in the amount of ball storage in each amusement island in the front-rear direction by bridging at least one balance ridge 40 horizontally to the end of the amusement island (local island or other island) or between the upper tanks 20 According to each other, they supply each other.
[0022]
In this way, increase / decrease in the amount of ball storage in the ball storage tank 3 in the island of each gaming island 1 arranged in a plurality of rows is detected by the ball amount detection device 10 described later, and the ball storage of any of the gaming islands 1 is performed. When it is detected that the amount is less than or greater than the required amount, the game reserves on both sides of the game island 1 are greater or less than the required amount, and it is determined whether the supply or receipt is possible. By supplying or receiving pachinko balls from the island 1 via the balance rod 40 to compensate for the insufficient amount of balls and discharging the excess amount of balls, it is possible to equalize the amount of balls stored in each amusement island. It is configured.
[0023]
Next, each structure (in the case of an island with a counter) of the circulation recirculation system 9 will be described.
A ball counter 1a is provided at the island end 1b of the amusement island 1 in which the circulating reflux system 9 is introduced. Only the right side of the amusement island 1 will be described.), A small circulation lift 4 connected to the ball discharge portion 3b at the end of the ball storage tank 3, and a pachinko lifted from the circulation lift 4. A collection basket 5 for guiding the ball to the ball lifting device 6 is provided, and a ball lifting device 6 (for example, a cloth type polishing medium) that lifts the pachinko balls rolling from the collection basket 5 while polishing them upward. The upper tank 20 is provided near the center, and an upper tank 20 is provided above the upper tank 20 for temporarily storing pachinko balls that have been lifted and polished by the ball lifting apparatus 6. Pachinko machine 2 and each game medium lending machine 2a (hereinafter, The slanted supply basket 7 for supplying pachinko balls to the ball lending machine) and the overflow basket 8 for returning the pachinko balls overflowing from the upper tank 20 to the ball storage tank 3 The pachinko balls are circulated and recirculated, and the amount of balls stored on each amusement island 1 is monitored and controlled by an unillustrated island management device (island controller, etc.) or a system management device (such as a personal computer) in the hall counter. .
Although not shown, the above-described configuration is also provided in the game island 1 of the counterless island disposed adjacent to the left and right direction (both sides), but the ball counter 1a is not provided at the island end. .
[0024]
The ball storage tank 3 provided in the amusement island 1 has a substantially rectangular shape, and the inner floor surface is gently inclined downward toward the ball discharge portion 3b. The pachinko balls in the ball storage tank 3 are It forms so that it may roll toward the ball | bowl discharge | emission part 3b according to the inclination.
The ball storage tank 3 is provided with a number of pachinko gaming machines 2 arranged on the game island 1 and having a different number of installed (at least one) and a length for storing a large amount of pachinko balls, Here, one main tank 3c on the downstream side (which is a long, substantially rectangular shape and capable of accommodating about 100,000) and a sub tank 3d (slightly shorter than the main tank) sequentially connected to the main tank 3c. Two ball storage tanks 3 having a rectangular shape and accommodating about 50,000 pieces are provided on one side (right side) (here, the other side is omitted). Although not shown, pachinko balls (out balls) discharged from each pachinko gaming machine 2 are collected by the collection baskets 5 at both ends of the ball storage tank 3 and sent to the ball lifting device 6. .
Moreover, although mentioned later, the ball quantity detection apparatus 10 (each sensor) which counts the number of balls in arbitrary positions (for example, the position immediately before and the position immediately after) of the ball storage tank 3 is provided.
[0025]
As shown in FIG. 1, the ball amount detection device 10 is discharged from the ball storage tank 3 and a first detection sensor 10 a for counting and counting the number of pachinko balls, that is, in balls supplied to the ball storage tank 3. A second detection sensor 10b for counting and counting the number of pachinko balls, that is, out balls, is provided at an arbitrary position and an arithmetic unit that performs arithmetic processing.
[0026]
The first detection sensor 10a is provided, for example, in a ball supply unit 3a which is a position immediately before being supplied to the ball storage tank 3, and is used for the pachinko balls supplied into the ball storage tank 3 via the ball supply unit 3a. The number is counted and counted.
The first detection sensor 10a outputs the count value to the calculation unit.
[0027]
The second detection sensor 10b is provided in, for example, a ball discharge portion 3b that is a position immediately after being discharged from the ball storage tank 3, and the pachinko balls discharged from the ball storage tank 3 via the ball discharge portion 3b are provided. The number is counted and counted.
The second detection sensor 10b outputs the count value to the calculation unit.
[0028]
When the count values from the first detection sensor 10a and the second detection sensor 10b are input, the arithmetic unit receives the count value of the first detection sensor 10a, that is, the second detection sensor from the in ball. The count value of 10b, that is, the out ball is calculated (subtracted) and output to the island management device (island controller, etc.) provided for each amusement island or the system management device (computer, etc.) in the hall counter (data transmission) It is made to do.
[0029]
The first detection sensor 10a and the second detection sensor 10b are provided in the ball supply unit 3a and the ball discharge unit 3b of the ball storage tank 3, and are, for example, transmissive type on the side wall or upper part of the slats in 7 to 8 rows. Alternatively, by providing a reflective sensor, it is possible to accurately detect and count the passage of each pachinko ball and output it to the arithmetic unit. The detection is not limited to the configuration of the ball amount detection device 10, and may be detection by a touch sensor or the like disposed on the side wall of the ball storage tank 3.
[0030]
The arithmetic unit described above receives the count values from the first detection sensor 10a and the second detection sensor 10b, so that the count value of the first detection sensor 10a, that is, the second detection sensor 10b from the in ball. The count value, that is, the out ball, is calculated and output to an island management device provided for each amusement island or a system management device in the hall counter.
At this time, for example, when an increase / decrease in the amount of ball storage in the island of the game island 1 (the island with the counter) is detected by the ball amount detection device 10 and is detected to be less than the required amount, When it is determined that the ball storage amount of the island without counting machine) is larger than the required amount and can be supplied, a signal that can be supplied is transmitted, and the game island 1 that has been determined to be supplied is accelerated and sent out by the acceleration means described later. The resulting pachinko balls are supplied via a balance rod 40.
[0031]
On the contrary, when the ball amount detection device 10 detects that the ball storage amount in the island of the game island 1 (the island with the counter) is larger than the required amount, the game island in the left-right direction (both sides) (the island without the counter) ) Is less than the required amount and if it is determined that it can be received, a signal indicating that it can be received is transmitted, and the pachinko balls that have been accelerated and sent out from the game island 1 that has been determined to be received are accelerated by the acceleration means described below. It is received through the balance bag 40.
Thus, the increase / decrease of the ball storage amount in the ball storage tank 3 in the island of each gaming island 1 is detected by the ball amount detection device 10 to determine whether supply or reception is possible, and it is determined that supply or reception is possible. The pachinko balls that are accelerated from the amusement island 1 by the acceleration means are supplied or received via the balance rod 40 to compensate for the deficient amount of balls and discharge the excess amount of balls. The amount of ball storage can be kept equal.
[0032]
In the above description, the circulation recirculation system 9 has been introduced into the game island 1 and the structure for equalizing the ball storage amount in each game island 1 in the game island 1 arranged in the left-right direction has been described. The game island 1 arranged in the front-rear direction across the middle passage) and any one of the game islands 1 arranged in the left-right direction are accelerated by acceleration means, and the sent pachinko balls are made into the balance rod 40 Next, the structure that supplies each other will be described.
In pachinko amusement stores installed in the suburbs, the store size is large, and the amount of balls stored in each amusement island in the amusement island 1 arranged in the left-right direction is equalized, while on the other hand across the aisle (medium aisle) Even in the game island 1 arranged in the direction, it is necessary to bridge the balance fence 40 between the game islands. For example, if the player of the game island 1 arranged in the left-right direction moves to the game island in the front-rear direction with a pachinko ball acquired and plays a game, the ball storage amount in the game island will increase or decrease. Alternatively, if the amount of balls stored in any game island 1 arranged in the left-right direction is drastically reduced (full), it may be necessary to supply or receive from the game island in the front-rear direction.
[0033]
For example, when an increase or decrease in the amount of ball storage in the island of any one of the game islands 1 in the left-right direction is detected by the ball amount detection device 10 and is detected to be less than the required amount, the ball storage in any of the game islands in the front-rear direction is detected. When the amount is larger than the required amount and it is determined that it can be supplied, a signal indicating that supply is possible is transmitted, and the pachinko ball that is accelerated and sent out from the gaming island 1 determined to be supplied by the acceleration means described later is Supplied through a balance rod 40 that spans the passageway).
[0034]
On the contrary, when the amount of ball storage in the island of any one of the game islands 1 in the left-right direction is larger than the required amount, the ball storage amount of any of the game islands in the front-rear direction is detected. Is determined to be less than the required amount, and a signal indicating that it can be received is transmitted. From the gaming island 1 that is determined to be received, the pachinko ball that has been accelerated and sent out by the acceleration means described later is a passage (medium passage). It is received through a balance bag 40 that is bridged across.
In this way, at least one horizontal balance 樋 40 between the game island in the left-right direction and the game island 1 arranged in the front-rear direction across the passage (middle passage) The other islands) or the upper tanks 20 are crossed over each other and supplied to each other as necessary by detecting the increase or decrease in the amount of ball storage in each island in the front-rear direction.
[0035]
In the ball storage tank 3, the pachinko balls overflowing from the upper tank 20 store pachinko balls rolling on the overflow bowl 8, and a player is provided on the ball counter 1a provided on the island end 1b of the game island 1. The pachinko balls that have been inserted and discharged after detection are also sent into the ball storage tank 3 and stored.
[0036]
The upper tank 20 is provided in the upper part of the ball lifting device 6 and temporarily stores pachinko balls polished by the ball lifting device 6. Although not shown, a detection unit is provided in the upper tank 20, and when the detection unit detects a shortage, a small circulation lift 4 provided at the end of the ball storage tank 3 operates in response to this detection. The pachinko balls that are configured to roll and roll on the bottom surface of the ball storage tank 3 to take out the pachinko balls discharged from the ball discharge portion 3b, lift the pachinko balls to the collection basket 5, and guide the ball to the ball lifting device 6 for lifting. The operation is stopped when detected by the detection unit.
The pachinko balls temporarily stored in the upper tank 20 in this manner roll on the supply basket 7 inclined downward, and the pachinko balls are not affected by the pachinko gaming machines 2 and the inter-unit ball lending machines 2a. To be replenished.
The overflow basket 8 is provided to return the overflow ball of the pachinko balls when the pachinko balls are full in the upper tank 20 to the ball storage tank 3. It is gently inclined downward toward the island end 1b.
[0037]
Next, the structure of the ball supply device (acceleration means) in the pachinko game island which is the gist of the present invention will be described in detail.
As shown in FIG. 2 to FIG. 15, in a horizontal posture spanned between the upper tanks 20, 20 of the game islands 1, 1 between the upper parts of the game islands (left-right direction or front-rear direction across the passage). A ball supply device (acceleration means) for supplying pachinko balls to each other via at least one balance rod 40 is provided. Although at least one balance rod 40 is used here, depending on circumstances, two balance rods 40 may be supplied to each other.
[0038]
First, the configuration of the ball supply apparatus 100 that supplies (supply or receive) pachinko balls to each other will be described. Here, the game islands arranged in the left-right direction among the upper portions of the game islands will be described.
The ball supply device 100 is configured to supply each other by a supply means 30 (ball outflow means) provided in the upper tank 20, and this supply means 30 is provided between the game islands 1 and 1 in the left-right direction. A single balance 樋 40 in a horizontal posture, an acceleration means 50 for sending a pachinko ball into the balance heel 40, and supply or stop of the pachinko balls to the acceleration means 50, and the balance heel 40 is driven in an interlocking manner. Driving means 60 (see FIGS. 10 and 11).
[0039]
The acceleration means 50 sends out the pachinko ball with acceleration in a balance rod 40 described later. Further, the driving means 60 moves the shutter member 61 that opens and closes the supply port 22 provided in the upper tank 20 to supply the pachinko balls to the acceleration means 50 described later, and moves the balance member 40 up and down. And an actuating member 65 for inclining the conveying path 41. Here, the ball outlet means is a shutter mechanism that can be freely opened and closed.
Although not shown, the ball outflow means may be provided with a rotating roller that is rotated by a motor, and the rotation of the rotating roller may be controlled so as to act the same as the shutter mechanism. That is, normally, when the rotating roller is stopped, there is a gap through which the pachinko balls cannot pass, so that the pachinko balls are sent out by being blocked and rotated (rotary ball outflow means).
[0040]
The structure of the upper tank 20 provided in the upper part of the amusement island 1 will be described.
As shown in FIGS. 1 to 5, the inside of the upper tank 20 includes a storage unit (a main storage unit Tm and a sub storage unit Ts, which will be described later) that stores pachinko balls lifted by the ball lifting device 6. A transfer port 21 is provided, and a balance rod 40 (to be described later) is bridged between the upper tanks 20 and 20 of the game islands 1 and 1.
[0041]
The outside (side wall) of the upper tank 20 is provided with openings 23, 23 for bridging the balance rod 40, and the openings 23, 23 portions of the discharge port 54 at the lower end of the acceleration means 50 to be described later and the balance rod 40. Holding portions 24 and 24 are provided so that the front ends of the conveyance path 41 face each other, and the front ends of the balance rods 40 are placed and attached to the lower edges of the openings 23 and 23. In addition, the upper tank 20 is provided with an attachment portion 25 of a supply rod 7 for supplying pachinko balls to each pachinko gaming machine 2 and each inter-ball ball lending machine 2a, and the tip of the overflow rod 8 is attached. It is made up.
[0042]
FIG. 5 shows the inside of the upper tank 20, in which one supply means 30 and a partition plate (not shown) are omitted, and the inside of the upper tank 20 will be described in detail with reference to FIGS. 10 and 11 as well. . Inside the upper tank 20, the supply means 30 described above is provided in the left-right direction.
[0043]
A partition wall 26 is provided inside the upper tank 20 on the supply means 30 side, and a main storage section Tm of a storage section partitioned by the partition wall 26 is formed behind the supply means 30. An upper guide plate 27 that is received from a delivery port 21 that is opened in a rectangular shape for receiving the pachinko balls that have been lifted by the ball lifting device 6 is provided at an upper portion of the storage portion Tm with a slight inclination toward the tip. Yes.
The pachinko ball rolls on the upper guide plate 27 to the tip, and the pachinko ball is dropped and stored in the main storage portion Tm from the gap 27a formed in the upper guide plate 27 as indicated by an arrow. The leading end of 27 is connected to a sub-reservoir Ts provided at the top of the supply means 30.
Further, at the tip of the upper guide plate 27, a gap 27b is formed at a connection portion with the sub storage portion Ts, and a supply port 22 that is opened and closed by a shutter member 61 provided in the driving means 60 is provided.
[0044]
A switch for detecting the amount of pachinko balls stored is provided in the main storage section Tm. An upper limit switch St for detecting the upper limit of the storage amount is provided at the upper position, and a lower limit switch Sd for detecting the lower limit of the storage amount at the lower position.
In addition, an overflow rod 8 is connected to the lower space Td provided below the main reservoir Tm, and an overflow pipe Op that connects the upper portion of the main reservoir Tm and the lower space Td. When the pachinko ball is stored in the main storage portion Tm beyond the upper limit switch St, the pachinko ball is sent to the lower space portion Td by the overflow pipe Op, and the ball is It is configured to be supplied to the storage tank 3. Tc is an auxiliary mounting plate provided at the upper end of the overflow pipe Op.
[0045]
Furthermore, openings 23 and 23 are provided on the supply means 30 side of the upper tank 20 so as to bridge a balance rod 40 to be described later. A partition plate 28 having a gap 28a is formed below the openings 23 and 23. A rectangular conduction port 26a that is connected to the main storage portion Tm is opened and formed at the tip end portion of the guide partition plate 28 at a joint portion with the partition wall 26.
Further, a lower guide plate 29 having a gap 29a is disposed below the middle partition plate 28 so as to be inclined, and the pachinko balls supplied from the gap 28a of the middle partition plate 28 are sent to the lower space portion Pd. It is configured.
Note that the gaps 26a, 27b, 28a and 29a of the upper guide plate 27, the middle partition plate 28, and the lower guide plate 29, and the conduction port 26a are formed to be sufficiently large to allow the pachinko balls to pass through. Yes.
[0046]
Next, the configuration of the balance rod 40 of the first embodiment will be described with reference to FIG. 2 or FIG. 3 and FIGS.
The balance rod 40 is formed with a length that spans between the upper tanks 20 and 20 of the game islands 1 and 1 arranged in the left-right direction, and has a U-shaped cross section in which pachinko balls roll and are conveyed. The conveyance path 41 is configured in a double structure composed of a sheet metal material or the like of a cosmetic guide rod 42 having a substantially U-shaped cross section (see FIG. 9).
An L-shaped fulcrum member 43 is attached to the transport path 41 in the longitudinal direction of the transport path 41 and on the lower surface of the substantially central portion. The transport path 41 swings (moves up and down) around the fulcrum member 43, It is configured to incline and does not protrude from the upper surface of the makeup guide rod 42 when the conveyance path 41 is inclined.
[0047]
The L-shaped fulcrum member 43 is attached to the internal space between the lower surface of the conveyance path 41 and the upper surface of the makeup guide rod 42, and the projections 43 a and 43 a are provided on both side ends of the fulcrum member 43 so as to protrude. The projections 43a and 43a are engaged with the positioning holes 42a and 42a provided in the central portion of the 42 so that the fulcrum member 43 is not displaced. In the figure, reference numeral 44 denotes a reinforcing frame, which also serves as a reinforcing material when connecting the short conveyance paths 41 (paths) when the conveyance path 41 (path) is long. In the figure, 45 is a viewing window that is provided near the center of the balance rod 40 and has a long hole shape that allows a store clerk to visually confirm the passing situation of the pachinko balls (see FIG. 2).
[0048]
In addition, the bottom surface of the conveyance path 41 is formed with a smooth surface so that the pachinko balls that roll to make it easier to supply the pachinko balls sent out from the acceleration means described later to the adjacent upper tank 20 are easy to slip. In order to make it more slippery, the pachinko ball rolls by applying a smoothing agent or the like (for example, a coating material or the like) or by applying a device such as attaching an uneven surface or a member formed on the uneven surface. It becomes an assisting action.
In addition, a detachable lid member is mounted on the upper surface of the conveyance path 41 so that dust or the like does not adhere to the bottom surface in the conveyance path 41. The lid member is opened to periodically remove dust attached to the bottom surface of the conveyance path 41.
[0049]
Next, the structure of the acceleration means 50 is demonstrated based on FIG. 10 thru | or FIG. The accelerating means 50 is attached to both sides of the inner side wall of the upper tank 20, and as shown in the figure, is constituted by a hollow slide member 51 (slide base type) having a substantially J-shaped funnel shape.
The acceleration means 50 is provided with a receiving port 52 for receiving a pachinko ball at the upper part, and the body part 53 extends downward to form a curved discharge port 54 at the lower end. This discharge port 54 conveys the balance rod 40. The supply port 22 of the upper tank 20 can be opened and closed by a shutter member 61 of the driving means 60 described later, that is, supply of pachinko balls to the reception port 52 of the acceleration means 50 can be stopped or stopped. It is configured as follows.
[0050]
The supplied pachinko balls are accelerated from the receiving port 52 of the accelerating means 50 through the trunk portion 53 of the slide member 51 and fall by its own weight, and smoothly and vigorously along the curved surface of the curved discharge port 54. , It is sent to the conveyance path 41 of the balance fence 40 and rolls on the inclined conveyance path 41 of the balance fence 40 without losing momentum. It is configured to roll to the upper tank 20.
In the above description, the sliding member 51 of the accelerating means 50 has been described as being formed in a hollow J-shaped funnel shape. In addition, any shape or device can be used as long as the pachinko ball can be accelerated and sent out vigorously.
[0051]
Next, the structure of the drive means 60 is demonstrated based on FIG. 10 or FIG. 11 and FIG. 14 or FIG.
The driving means 60 (motor 67) is attached adjacent to the acceleration means 50 described above, and as shown in the figure, a mounting member 62 formed by bending a sheet metal in a substantially U shape is screwed into the upper tank 20. The sliding base member 51 of the acceleration means 50 is attached to the front surface of the partition plate 63 provided inside, and a swing member 64 is provided on the back side of the partition plate 63 so as to be movable up and down. The shutter member 61 is attached to the lower part, and the operation member 65 is swingably attached to the lower part.
[0052]
The swing member 64 has a second link member 66 having an upper end pivotably attached to the upper surface of the back surface by a screw 66a and a lower end pivotally supported on a rotary shaft 67a of a motor 67 attached to the rear surface of the attachment member 62. The displacement of one link member 68 is rotatably screwed 66b, and the second link member 66 is swung up and down with the rotation of the first link member 68 driven by the motor 67, that is, the shutter member 61 is moved. It is configured to move up and down (ball outflow means by opening and closing).
[0053]
The actuating member 65 is formed by bending a sheet metal in a U-shape, and a substantially intermediate side wall of the actuating member 65 is slidably screwed 65a at the lower front part of both side walls of the mounting member 62. The end portion is configured to be swingably screwed to the lower end side wall of the swing member 64, and the actuating member 65 swings around the screw stop 65a as the swing member 64 moves up and down.
The end of the actuating member 65 opposite to the screwing 65b is connected to the left and right side walls with a flat plate, and coincides with the inclination of the balance rod 40 when lifting the conveyance path 41 of the balance rod 40 described later. As described above, when it is formed so as to be inclined, the generated sound can be minimized, and the balance rod 40 can be reliably and stably held and can be lifted more reliably.
In the figure, reference numeral 69 denotes a transmission type sensor that operates along with the upper and lower sides of the shutter member 61, and also serves as a stop position sensor for the upper and lower sides of the shutter member 61.
[0054]
Next, the configuration of another ball supply device 100 that supplies pachinko balls to each other will be described. Here, the gaming islands arranged in the front-rear direction among the upper portions of the gaming islands will be described.
[0055]
FIG. 16 shows that in a pachinko game store, a pachinko ball is placed on a gaming island (not shown) arranged in the front-rear direction across a passage (middle passage) with any gaming island arranged in the left-right direction. An embodiment of the upper tank 200 in the case of supplying each other is shown. In addition, regarding the various configurations of the basic configuration (the upper tank 20, the acceleration unit 500, the slide member 510, the discharge port 540, the driving unit 600, and the like) in the description to be described later, the upper tank described above is used. Since it is the same structure as 20th Embodiment, description here is abbreviate | omitted.
[0056]
The difference from the upper tank 20 described above is that the length of the balance rod is somewhat longer, and the balance wall (not shown) is placed on the outer wall 201 of the upper tank 200 facing the adjacent game island. The holding portion 24 to which the tip of the supply means 30 is attached is attached to the supply means 300 which is the same as the supply means 30 described above, and a swing member (not shown) of the drive means 600 of the supply means 300 is provided. The slide base member 510 of the acceleration unit 500 is attached to the front surface of the acceleration unit 500, and the discharge port 540 at the lower end of the acceleration unit 500 and the front end of the conveyance path (none of which are shown) of the balance rod are at the holding portion 24 portion. It is comprised so that it may oppose.
That is, the upper tank 20 and the upper tank 200 differ only in the attachment position attached to the outer wall 201 by 90 degrees. In the figure, reference numeral 250 denotes a supply rod 7 that supplies pachinko balls to each pachinko gaming machine 2 and each inter-ball ball lending machine 2a on the adjacent game island in the facing direction, that is, in the front-rear direction. It is a mounting part.
[0057]
According to the above-described configuration (the embodiment of the upper tank 200), the game island disposed in the front-rear direction across the passage (the middle passage) is pachinko with any one of the game islands disposed in the left-right direction. When supplying the balls, the game islands that are arranged adjacent to each other in the front-rear direction across the passage (for example, the own islands of the wall islands or the ends of the other islands, or the upper tanks) Since pachinko balls can be supplied to each other, pachinko balls between game islands placed either in the front-rear direction of the game island across the passage from any game island placed in the left-right direction. When supplying each other, it can be done through a balanced balance.
For example, when the amount of ball storage in the island is insufficient on the island of the wall island, first determine whether the game island arranged in the left-right direction can be supplied, and if supply is not possible, then sandwich the passage In the front-rear direction, it is determined whether or not it can be supplied at the adjacent game island, and if it can be supplied, it can be supplied via a balance trough spanned across the passage.
[0058]
Next, the game island according to the embodiment of the present invention is configured as described above and operates as described below.
Pachinko balls in the ball storage tank 3 near the ball lifting device 6 provided on the island of the amusement island 1 are discharged (detected in the upper tank) as necessary, and lifted by the circulation lift 4 via the recovery basket 5 The ball is fed to the upper tank 20 while being polished by the ball lifting device 6 that is always in operation, and is supplied from the supply basket 7 to each pachinko gaming machine 2 and each inter-ball ball lending machine 2a. When the upper tank 20 becomes full, the overflowing pachinko balls are sent again into the ball storage tank 1 provided on the island by the overflow basket 8. In this way, the pachinko balls are repeatedly circulated and refluxed on the game island 1.
[0059]
As described above, pachinko balls repeatedly circulate and recirculate on amusement island 1, but on a certain amusement island, if a large number of hits of pachinko gaming machines 2 of a plurality of pachinko machines arranged in series occur ( ), The amount of pachinko balls stored in the upper tank 20 gradually decreases, the lower limit switch Sd in the upper tank 20 detects, and the circulation lift 4 operates based on this detection signal, The pachinko balls stored in the storage tank 3 are discharged, and the pachinko balls lifted by the circulation lift 4 are lifted by the ball lifting device 6 via the recovery rod 5, and an upper limit switch in the upper tank 20 The circulation lift 4 operates until it is detected at St, and the operation stops when it is detected.
The pachinko balls lifted by the ball lifting device 6 are supplied to the upper tank 20 and sent from the delivery port 21 to the upper guide plate 27, and the upper guide plate 27 is transferred to the sub-reservoir Ts. A pachinko ball rolls toward the main storage portion Tm from the gap 27a of the upper guide plate 27 together with the rolling of the pachinko ball.
[0060]
In addition, the pachinko balls sent to the sub-storage unit Ts are not in a state in which the pachinko balls can be supplied to the adjacent pachinko gaming machine 2 in such a state. The pachinko balls that are closed by the member 61 and overflow in the sub reservoir Ts also form the main reservoir Tm from the gap 27b provided at the connecting portion with the sub reservoir Ts at the tip position of the upper guide plate 27. Falls into the water and is stored.
On the other hand, since the ball feeding device 6 is always in operation when the store is opened, the pachinko balls (out balls) discharged from each pachinko machine 2 are collected in the collection baskets 5 at both ends of the ball storage tank 3. When the pachinko balls are lifted and polished to the upper tank 20 by the ball lifting device 6 and the pachinko balls are stored more than the upper limit switch St, the pachinko balls are sent from the overflow pipe Op to the lower space Td, Pachinko balls are sent to the ball storage tank 3 and stored.
[0061]
When the operation of repeatedly circulating and refluxing the pachinko balls on the amusement island 1 is repeated, the detection of the amount of balls stored in the ball storage tank 3 of the amusement island 1 is the ball amount detection device 10 of the ball storage tank 3. The detection sensor 10a and the second detection sensor 10b subtract the out ball from the in ball and determine the amount of increase / decrease in the ball storage amount in the ball storage tank 3, and temporarily When the ball storage amount is insufficient, the ball is supplied from the supplyable game island 1 adjacent in the left-right direction via the balance rod 40.
When the game island 1 has a counter 1a at the end of the island, the amount of prize balls thrown into the counter 1a is naturally the ball amount detection device 10 (the count value output from the counter itself). ) And the ball amount of the prize ball is also counted, and the pachinko balls are supplied and stored in the ball storage tank 3.
[0062]
As described above, when the ball storage amount in the ball storage tank 3 provided in the game island 1 reaches the required amount, that is, the ball storage amount in the game island 1 is detected and recognized as being larger than the required amount. In this case, a supply enable signal is transmitted to the other game islands 1 and 1 (insufficient game islands), and a pachinko ball supply ready state is entered.
[0063]
In the standby state, when a pachinko ball supply request signal is received from another adjacent game island 1 (insufficient game island), the pachinko ball supply request signal is received. In the game island 1, the motor 67 of the driving means 60 of the supply means 30 is driven to rotate by receiving a signal, and the swinging member 64 moves downward via the first link member 68 and the second link member 66. As the swinging member 64 moves downward, the operating member 65 interlocking with the swinging member 64 swings about the screwing 65a (see FIG. 14B). The tip of the actuator is lifted by the operating member 65. That is, it is lifted like a seesaw around the fulcrum member 43, the conveyance path 41 of the balance rod 40 is changed to an inclined posture, the discharge port 54 at the lower end of the sliding member 51 of the acceleration means 50, and the conveyance of the balance rod 40 The tip of the path 41 faces.
[0064]
At the same time, as the swinging member 64 moves downward, the shutter member 61 attached to the upper portion of the swinging member 64 opens the supply port 22 of the upper tank 20, that is, the sub reservoir Ts. Pachinko balls are supplied to the receiving port 52 of the slide member 51, and the supplied pachinko balls are accelerated from the receiving port 52 of the accelerating means 50 through the trunk portion 53 of the slide member 51 by its own weight drop, and are curved discharge ports. 54 is smoothly and vigorously sent along the curved surface 54 to the conveyance path 41 of the balance rod 40, and rolls on the conveyance path 41 of the balance rod 40 in an inclined posture without being lost. The pachinko ball rolls to the upper tank 20 of the adjacent game island over which the balance rod 40 is bridged, is transported, and is quickly supplied to the game island on the side receiving the supply of the pachinko ball.
[0065]
In this case, in the supply means 30 on the game island side that receives the supply of the pachinko balls, the tip of the transport path 41 of the balance rod 40 of the supply means 30 is the drive means 60 provided in the supply means 30 of the upper tank 20. The transport path 41 of the balance rod 40 swings like a seesaw around the fulcrum member 43, and the tip of the transport path 41 of the balance rod 40 is Then, it is placed and held on the holding portion 24 of the game island on the side receiving the supply of pachinko balls.
[0066]
As described above, in the supply means 30 on the side of the game island that receives the supply of pachinko balls, the pachinko balls rolling on the conveyance path 41 of the balance rod 40 are transferred from the opening 23 of the upper tank 20 to the upper tank. 20 and a part thereof is sent from the gap 28a of the middle partition plate 28 to the lower guide plate 29, while passing through the conduction port 26a along the inclination of the middle partition plate 28 and into the main storage portion Tm. It is sent.
When the sent pachinko ball exceeds the lower limit switch Sd in the main storage portion Tm, the pachinko ball is blocked by the stored pachinko ball and further passes through the conduction port 26a and puts the pachinko ball into the main storage portion Tm. Since it cannot be supplied, the pachinko balls on the middle partition plate 28 are sent from the gap 28a through the lower guide plate 29 to the lower space portion Td, and then sent to the ball storage portion 3 through the overflow basket 8. , Stored.
[0067]
In this way, the supply of pachinko balls is continued, and the first detection sensor 10a and the second detection sensor 10b of the ball amount detection device 10 of the ball storage tank 3 subtract the out balls from the in balls in the calculation unit. When it is determined that the ball storage amount in the ball storage tank 3 has reached the required amount, when the motor 67 of the driving means 60 on the side supplying the pachinko balls receives the signal and rotates, On the contrary, the swinging member 64 moves upward via the first link member 68 and the second link member 66, and moves upward on the swinging member 64 as the swinging member 64 moves upward. The attached shutter member 61 closes the supply port 22 of the upper tank 20, and the supply of the pachinko balls to the receiving port 52 of the acceleration means 50 is stopped.
[0068]
At this time, in the supply means 30 in the upper part 20 of the game island 1 on the side where the pachinko balls are supplied, the swinging member 64 moves upward via the first link member 68 and the second link member 66. As the swinging member 64 moves upward, the actuating member 65 interlocking with the swinging member 64 swings around the screw stop 65a (see FIG. 15B), and the conveying path 41 of the balance rod 40 is moved. The tip is separated from the actuating member 65 and is freely opened, and the supply means 30 of the game island 1 on the side supplying the pachinko balls is in a standby state.
In this state, the game island 1 that supplies the pachinko balls and the game island 1 that receives the supply are supplied from the main reservoirs Tm and Tm of the supply means 30 and 30 of the upper tanks 20 and 20, respectively. The pachinko balls are constantly supplied to each pachinko gaming machine 2 through each of the pachinko machines, and each ball lifting device 6 is always operated during the opening, so that each pachinko on the adjacent left and right gaming islands 1 and 1 The game by the player on the gaming machine 2 is continued without any trouble.
[0069]
According to the above-described embodiment, the pachinko balls 1 are provided in the gaming island 1 provided with a plurality of pachinko gaming machines 2 and inter-ball ball lending machines 2 a, and the pachinko balls are lifted from the ball storage tank 3 to the upper tank 20. The game island 1 that is circulated and returned to the pachinko gaming machine 2 and each inter-ball ball lending machine 2a and the ball storage tank 3 from the upper tank 20 and the left and right direction (back and forth across the passage) The game islands 1 and 1 arranged adjacent to each other in the direction) are bridged with at least one horizontal balance rod 40 and 40 between the upper tanks 20 and 20 of the respective game islands 1 and 1. Since pachinko balls are supplied to each other and the amount of ball storage is equalized, there is no loss of aesthetics compared to the two cross balance methods.
[0070]
Further, at least one horizontal balance rod 40 is bridged between the upper parts of the game island 1 (left and right direction or front-rear direction across the passage), and the pachinko balls lifted by the ball lifting device 6 are placed in the upper tank 20. Stored in the balance 貯 留 40 Transport path 41 The pachinko balls sent as required on the supply side are accelerated by the acceleration means 50, and the balance 樋 40 Transport path 41 As a result, the accelerated pachinko balls are quickly rolled to the upper tank 20 of the adjacent game island 1 disposed between the upper portions. Therefore, the balance rod 40 does not roll and the balance rod 40 does not cause a pool of balls. Transport path 41 There is no danger of falling, and as a result, it is not necessary to take measures to prevent the drop and the cost is reduced.
[0071]
Moreover, at least one horizontal balance rod 40 is bridged between the upper parts of the game island 1 (in the left-right direction or the front-rear direction across the passage), and the pachinko balls stored in the upper tank 20 are driven without acceleration 50 Accelerate the pachinko ball and balance 樋 40 Transport path 41 Compared with a single forward / reverse belt system that uses an expensive drive motor that controls switching between forward and reverse rotation, the motor as a drive source is no longer necessary, and the cost can be reduced. Various problems due to the complicated structure, such as adjustment of the tension of one forward / reverse belt of the conveying means and replacement work due to belt breakage, can be solved.
[0072]
In addition, when the balance fence 40 is bridged across different passage widths between adjacent amusement islands on the site, there is no need to cut both ends or either one of the balance fences, so the construction time at the site is short. Yes.
[0073]
Further, since the shutter member 61 for opening and closing the supply port 22 of the pachinko balls in the upper tank 20 supplied to the acceleration means 50 is provided, more pachinko balls than necessary are supplied corresponding to the required amount of stored balls. In addition, the supply of pachinko balls can be stopped in the event of an unexpected failure.
[0074]
Further, the balance rod 40 is configured to swing up and down like a seesaw with the central portion thereof as a fulcrum and to tilt the balance rod 40 in conjunction with the shutter member 61. The pachinko balls with acceleration are vigorously sent out to the conveyance path 41 of the balance fence 40, and without being lost on the conveyance path 41 of the inclined balance fence 40, the upper part of the adjacent game island is supported. It will roll to the tank 20, and it can roll and convey reliably to the upper tank 20 of an adjacent game island, and can supply a pachinko ball. Further, since the balance rod 40 and the shutter member 61 are interlocked, the number of parts can be reduced, the structure can be simplified, and the cost can be further reduced.
[0075]
Further, the supply means 30 provided in the upper tank 20 includes a balance rod 40 extending between adjacent game islands 1 and 1, an acceleration device 50 for accelerating the balance rod 40 and sending out pachinko balls, and an acceleration device. And a driving means 60 that inclines the balance rod 40 and includes a shutter member 61 that opens and closes the opening 22 of the upper tank 20 that is fed to 50, and the driving means 60 attaches the acceleration means 50 and swings the member. 64 is swingably mounted, and the shutter member 61 is provided above the swing member 64, and the operation member 65 that tilts the balance rod 40 is provided at the lower part, and each is configured in conjunction with each other. The system is designed to be linked to each other, so that the number of parts can be reduced and the structure can be simplified without causing a failure. That.
[0076]
Further, according to the embodiment of the present invention, the partition wall 26 is provided inside the upper tank 20 on the supply means 30 side to form the main reservoir Tm in the upper tank 20, and the lower portion of the supply means 30 is provided. The opening 23 facing the tip of the balance rod 40, which is located between adjacent game islands, is located, and the partition plate 28 having the gap 28a is inclined and arranged below the opening 23. An attachment portion 25 for forming a conduction port 26a communicating with the main storage portion Tm at the front end portion of the inner partition plate 28 and connecting to the partition wall 26, and attaching the front end of the supply rod 7 to the main storage portion Tm. Since it is provided, the pachinko balls supplied from the balance basket 40 are sent from the partition plate 28 through the conduction port 26a to the main storage portion Tm, and each pachinko gaming machine is supplied by the supply basket 7 Since the ball feeding device 6 that is always operating on the amusement island 1 breaks down, each pachinko gaming machine 2 and each vehicle are also supplied in the event of an emergency. Pachinko balls can be supplied to the space ball lending machine 2a, and as a result, it is possible to continue operating without trouble for players in each pachinko gaming machine 2.
[0077]
Next, the structure of the balance bag 400 of 2nd embodiment is demonstrated.
The balance bag 400 of the second embodiment is different in the points described below, but the other configurations are the same as those of the first embodiment described above.
In the figure, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0078]
As shown in FIG. 17, the balance basket 400 is bridged between the upper tanks 20, 20 of the game islands 1, 1, and the conveyance path 410 on which the pachinko balls roll and are conveyed, and the makeup guide basket 420 , Is composed of.
A longitudinal direction of the transport path 410, which is divided into a supply side transport path 410 a and a transport path 410 b on the supply side with a substantially central portion as a center, and is configured in a longitudinal direction of the transport path 410. The fulcrum member 430 is attached to the central portion, and the tip of the supply side conveyance path 410a of the conveyance path 410 of the balance rod 400 is lifted by the actuating member 68 of the driving means 60 provided in the supply means 30 around the fulcrum member 430. It is configured to swing and change to an inclined posture, and is bent in a split seesaw manner around the fulcrum member 430, and protrudes from the makeup guide rod 420 when the conveyance path 410 is inclined. Is configured to not.
[0079]
The conveyance path 410b on the side opposite to the supply-side conveyance path 410a of the inclined conveyance path 410 around the fulcrum member 430, that is, on the side receiving the supply of the balance rod 400 on the side to receive the supply of the pachinko balls is It is in a substantially horizontal state without swinging, and passes over the conveyance path 410 of the balance basket 400 near the rear end of the conveyance path 410b on the side receiving the supply of the pachinko balls. For example, a reflective sensor 460 for detecting a pachinko ball is provided, and an auxiliary acceleration device 470 such as a blower or a rotating roller is provided above the conveyance path 410b on the side receiving the supply near the reflective sensor 460. The pachinko ball 460 rolls on the conveyance path 410 of the balance rod 400, and the pachinko ball that is likely to stop is conveyed on the side where the auxiliary acceleration device 470 is operated to receive the supply. Pachinko balls to the further transfer of the 410b, is configured so as to quickly forward the pachinko balls into the upper tank 20 of the side game island 1 is going to receive the supply of pachinko balls.
[0080]
In the drawing, the right side is inclined. However, when the left side is supplied with the supply side and the right side is supplied with the pachinko balls, the oscillating member 430 is swung around the fulcrum member 430 contrary to the above description. Configured to tilt.
[0081]
The balance bag 400 described above is configured as described above, and operates in the same manner as in the first embodiment, and has the same effects as in the first embodiment.
Further, the conveyance path 410 is divided into a supply-side conveyance path 410a and a supply-side conveyance path 410b centering on the central portion of the conveyance path 410, and a fulcrum member 430 is formed at the longitudinal center part of the conveyance path 410. The tip of the supply side conveyance path 410a of the conveyance path 410 of the balance rod 400 is lifted by the actuating member 68 of the driving means 60 provided in the supply means 30 around the fulcrum member 430, and swings and tilts. The pachinko balls that are fed with acceleration by the acceleration means 50 attached to the front surface of the drive means 60 provided in the supply means 30 are given momentum by the inclination of the supply-side conveyance path 410a of the conveyance path 410. Further amplified, the pachinko balls roll on the supply side conveyance path 410a of the conveyance path 410, take over the momentum, and the conveyance path 410b on the side receiving the supply is Not moving, but has a substantially horizontal state, it is possible to reliably transfer the pachinko ball to the upper tank 20 of the game island 1 side is going to receive the supply of pachinko balls.
[0082]
Further, even if there is a pachinko ball that rolls on the conveyance path 410b on the receiving side of the conveyance path 410 and is likely to stop, the supply is received near the rear end of the conveyance path 410b on the receiving side. A reflection type sensor 460 that detects pachinko balls passing on the side conveyance path 410b is provided, and an auxiliary acceleration device such as a blower or a rotating roller is provided above the conveyance path 410b on the side receiving the supply near the reflection type sensor 460. 470 is provided, the pachinko ball that rolls on the conveyance path 410b on the side where the reflective sensor 460 receives supply and is likely to be stopped is operated on the side where the auxiliary acceleration device 470 operates to receive the supply. The pachinko balls on the transport path 410b can be further transferred, and the pachinko balls can be reliably transferred to the upper tank 20 of the game island 1 on the side where the supply of the pachinko balls is to be received. .
[0083]
Furthermore, a fulcrum member 430 is attached to the longitudinal center of the conveyance path 410 of the balance rod 400, and the tip of the supply-side conveyance path 410a of the conveyance path 410 is lifted, swings and tilts around the fulcrum member 430. Since the posture is variable, the inclination angle is changed compared to the case of swinging and tilting with respect to the rear end of the conveyance path 410 of the balance rod 400 on the side to receive the supply of pachinko balls. Not only can it be increased, but the width (height) of the balance bag 400 can be reduced, and the aesthetics are not further impaired.
[0084]
Next, the configuration of the balance bar 401 according to the third embodiment will be described.
The balance rod 401 of the third embodiment here is different in the points described below, but the other configurations are the same as those of the first and second embodiments described above.
In the figure, the same parts as those in the first and second embodiments are denoted by the same reference numerals, and the description thereof is omitted.
[0085]
As shown in FIG. 18, the balance basket 401 is bridged between the upper tanks 20, 20 of the game islands 1, 1, and a conveyance path 411 on which pachinko balls roll and are conveyed, and a makeup guide basket 421. , Is composed of.
The conveyance path 411 is divided into a supply-side conveyance path 411a and a supply-side conveyance path 411b centering on the central portion, and is divided into two (half-half length). The center of the conveyance path 411 in the longitudinal direction A fulcrum member 431 is attached to the portion, and the supply side conveyance path 411 a and the supply side conveyance path 411 b are alternately inclined in an eight-character shape around the fulcrum member 431, and are provided in the supply means 30. The leading end of the supply side conveyance path 411a of the conveyance path 411 is lifted by the actuating member 68 of the driving means 60, swings about the fulcrum member 431, is lifted to a substantially horizontal state, and is opposite to the supply side conveyance path 411a. The conveying path 411b on the supply receiving side is variable in an inclined posture so as to become lower toward the rear end, and is bent in a split seesaw type centering on the fulcrum member 431. And with which is configured so as not to protrude from the cosmetic guide trough 421.
[0086]
In the drawing, the right side is swung and lifted to a substantially horizontal state. However, when the left side is supplied with a supply side and the right side is supplied with a pachinko ball, the fulcrum is opposite to the above description. With the member 431 as the center, the left side is configured to swing and be lifted to a substantially horizontal state.
[0087]
The balance rod 401 described above is configured as described above, and operates in the same manner as in the first and second embodiments, and has the same effects as in the first and second embodiments.
Further, the conveyance path 411 is divided into a supply-side conveyance path 411a and a supply-side conveyance path 411b centering on the central portion of the conveyance path 411, and a fulcrum member 431 is formed at the central portion of the conveyance path 411 in the longitudinal direction. The supply side conveyance path 411a and the supply side conveyance path 411b are alternately inclined in the shape of an eight character around the fulcrum member 431, and the supply means is centered on the fulcrum member 431. 30, the leading end of the supply side conveyance path 410 a of the conveyance path 411 of the balance rod 401 is lifted by the actuating member 68 of the driving means 60 provided on the oscillating member 401, swings about the fulcrum member 431, and is lifted to a substantially horizontal state Since the conveyance path 411b on the side opposite to the conveyance path 411a that receives supply is varied in an inclined posture so as to become lower toward the rear end, the drive provided in the supply means 30 The pachinko balls that are accelerated and sent by the acceleration means 50 attached to the front surface of the step 60 roll on the substantially horizontal supply-side conveyance path 411a of the conveyance path 411, and the longitudinal direction of the conveyance path 411 The pachinko ball rolls on the inclined surface of the conveyance path 411b on the side of receiving the supply that is inclined so as to become lower toward the rear end beyond the center portion. The pachinko balls can be reliably transferred to the upper tank 20 of the game island 1 on the side where the supply of the pachinko balls is to be received.
[0088]
Further, a fulcrum member 431 is attached to the longitudinal direction and central portion of the conveyance path 411 of the balance rod 401, and the supply side conveyance path 411a and the conveyance path 411b on the supply side are centered on the fulcrum member 431. In contrast to the case of swinging and tilting with respect to the rear end of the conveyance path 411 of the balance rod 401 on the side to receive the supply of pachinko balls, the tilt angle is In addition to being able to be increased, the width (height) of the balance rod 401 can be reduced, and the aesthetic appearance is not further impaired.
[0089]
【The invention's effect】
As apparent from the above description, according to the configuration of the present invention, at least one horizontal balance rod is bridged between the upper tanks of the game island disposed between the upper parts of the game island (left and right direction). By mutually supplying each other and equalizing the ball storage amount, there is no loss of aesthetics compared to the two cross balance methods.
In addition, the pachinko balls are supplied to each other across at least one horizontal balance rod on the end or upper tank of the amusement island arranged between the upper parts of the amusement island (in the longitudinal direction across the middle passage), By equalizing the ball storage amount, even if it is an amusement island arranged in the front-rear direction across the passage (middle passage), the aesthetic appearance is not impaired.
[0090]
In addition, a balance fence was bridged between the upper parts of the amusement island (left-right direction or front-rear direction across the passage), and the pachinko balls lifted by the ball lifting device were stored in the upper tank and were horizontally bridged. In the balance basket, the pachinko balls sent as needed on the supply side are accelerated by the acceleration means and are sent out to the balance basket. It will roll quickly to the upper tank of the game island placed in the front-rear direction across the passage.
Therefore, there is no risk that the balance rod will fall without being able to roll and the balance rod will fall, and as a result, it will not be necessary to take measures to prevent the drop and the cost will be low.
[0091]
In addition, one balance rod is bridged between the upper parts of the game island (left and right direction or front and rear direction across the passage), and the pachinko balls stored in the upper tank are accelerated by non-drive type acceleration means. Since it is configured to feed the balance, the cost of the motor can be reduced because it eliminates the need for a motor as the drive source compared to a single forward / reverse belt system that uses an expensive drive motor that controls forward / reverse switching. It is possible to solve various problems due to the complicated structure, such as adjustment of the tension of one forward / reverse belt of the conveying means and replacement work due to belt breakage.
[0092]
In addition, when the balance fence is bridged across the different passage widths between adjacent amusement islands on the site, there is no need to cut both ends of the balance fence or any one of the ends, so the construction time at the site can be shortened. .
[0093]
In addition, the balance rod is configured to swing up and down like a seesaw with the fulcrum member at the substantially central portion thereof as a fulcrum, and the balance member can be changed to an inclined posture in conjunction with the shutter member and the operating member. By the acceleration means, the pachinko balls with acceleration are vigorously sent out to the balance 搬 送 conveyance path, and are supported without losing momentum on the balance heel conveyance path, and the upper part of the adjacent game island It will roll to the tank, and it can roll and convey reliably to the upper tank of the adjacent (one side) game island and supply pachinko balls.
Furthermore, by employing a mechanism in which the balance rod, the shutter member, and the operating member are interlocked, the number of parts can be reduced, the structure can be simplified, and the cost can be reduced.
[0094]
Thus, according to the present invention, the ball storage amount in each gaming island can be maintained evenly by mutually supplying the ball storage amount in each gaming island arranged in a plurality of rows. There will be no hindrance to your business.
[Brief description of the drawings]
FIG. 1 is a schematic side view showing a configuration of an embodiment of a ball supply device for game islands of the present invention.
FIG. 2 is a perspective view showing a connection state between upper tanks between islands of the game island of FIG. 1 according to the present invention;
FIG. 3 is a schematic perspective view showing a relationship between one upper tank and a balance rod in FIG. 2;
4 is a schematic perspective view showing the upper tank of FIG. 2;
5 is a schematic perspective view showing the inner side on the back side of the upper tank of FIG. 4. FIG.
6 is a schematic front view of FIG. 2, in which one upper tank is shown broken away.
FIG. 7 is a schematic enlarged perspective view of the balance rod of FIG. 2;
FIG. 8 is a schematic enlarged cross-sectional view of the balance rod of FIG.
9 is a schematic enlarged longitudinal sectional view of the balance rod of FIG.
10 is a schematic enlarged longitudinal sectional view of the upper tank of FIG. 2. FIG.
11 is a schematic enlarged vertical sectional view further enlarging FIG. 10;
12 is a perspective view of the supply means of FIG.
13 is a perspective view of the acceleration means of FIG.
14 shows the driving means of FIG. 12, (A) is a front view, and (B) is a sectional view taken along line XX of (A).
FIGS. 15A and 15B show an operation state of the driving unit of FIG. 12, in which FIG. 15A is a front view and FIG. 15B is a cross-sectional view along line YY in FIG.
16 is a schematic perspective view showing a second embodiment of the upper tank of FIG. 2. FIG.
17 shows a second embodiment of the balance rod of FIG. 8, (A) is a schematic sectional view, and (B) is a schematic sectional view showing an operation state of (A).
18 shows a third embodiment of the balance rod of FIG. 8, (A) is a schematic sectional view, and (B) is a schematic sectional view showing an operation state of (A).
[Explanation of symbols]
3 Ball storage tank
6 Ball lifting device
9 Circulation reflux (system)
10 Ball detection device
20 Upper tank
200 Upper tank
30 Supply means (ball outflow means)
40 Balance 樋 (first embodiment)
400 Balance 樋 (second embodiment)
401 Balance 樋 (third embodiment)
43 fulcrum member
50 Acceleration means
51 Slide member
60 Drive means
61 Shutter member (ball outflow means)
64 Oscillating member
65 Actuating member

Claims (2)

A plurality of pachinko machines and game media lending machines arranged in a row, a ball lifting device having an upper tank that lifts and pachinko balls are polished, and a ball storage tank that stores a large amount of pachinko balls. The pachinko balls discharged from the storage tank are pumped up to the upper tank by the ball lifting device, and supplied to the pachinko gaming machine and the game medium lending machine from the upper tank, and a plurality of rows of game islands arranged to circulate and recirculate are arranged. At the same time, a balance fence is bridged between the upper tanks of the game islands arranged in multiple rows, and the pachinko balls stored in the upper tank are sent to the balance fence to equalize the amount of balls stored in each game island. In the device
The balance cage is composed of one guide rod horizontally spanned between the upper tanks, and a conveyance path that rolls and conveys pachinko balls provided in the guide rod,
The upper tank includes a storage unit, a ball outflow unit that stores and releases the storage unit, a drive unit that drives the ball outflow unit, and a pachinko that flows out from the ball outflow unit when the drive unit is driven. Consists of acceleration means for feeding the balls to the balance cage,
When the pachinko balls are supplied by the balance jar spanned between the upper tanks of the amusement island, the drive means of the upper tank on the supply side swings the actuating member and the ball outflow means that make the conveying path in the balance basin an inclined posture. A ball supply device on an amusement island, wherein a link operation is performed by a member, acceleration is given to a pachinko ball by an accelerating means, and the pachinko ball is sent out to a balance basket. The balance rod transport path is swingable up and down like a seesaw with a fulcrum member provided at a substantially central portion inside the guide rod as a fulcrum. 2. The ball supply device in the game island according to claim 1, wherein an operation member that operates in conjunction with the movement mechanism is configured to change the conveyance path of the balance rod to an inclined posture on either side.

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