JP6261267B2 - Lifting device - Google Patents

Description

  The present invention is a round path having a substantially arc-shaped guide surface for guiding a game ball, a lifting path extending upward from one end of the round path, and rotatable to a position facing the guide surface. A rotating body provided; and a driving means for rotating the rotating body. The driving means rotates the rotating body so that the game ball between the rotating body and the guide surface is The present invention relates to a lifting device that is transported from a path to the lifting path and lifts and lifts a game ball in the lifting path.

  As this type of lifting device, a round path having a substantially arc-shaped guide surface for guiding a game ball, a lifting path extending upward from one end of the round path, and a position facing the guide surface A first sprocket (rotating body) provided so as to be rotatable is provided, and the game ball held between the first sprocket and the guide surface is lifted from the rounded passage by rotating the first sprocket. A game ball train that is transported to the passage and pushes up and lifts the game balls in the lift passage, and a second sprocket is provided separately from the first sprocket at a predetermined position of the lift passage, and is stacked in the lift passage In some cases, the load applied to the lower first sprocket is reduced by cutting off (see, for example, Patent Document 1).

JP 2011-67519 A

  The lifting device described in Patent Document 1 has a structure in which the second sprocket is disposed at a position away from the first sprocket and a game ball is also present between the first sprocket and the second sprocket. Therefore, for example, when the first sprocket rotates when a game ball is present between the first sprocket and the second sprocket, and the subsequent ball is being transported by the first sprocket, the subsequent ball is lifted. The game ball in the feeding path is pushed up, but when the succeeding ball is not transported by the first sprocket, the lowest game ball among the remaining game balls between the first sprocket and the second sprocket is always kept by its own weight. There is a problem that the first sprocket is damaged because it contacts the first sprocket.

  The present invention has been made paying attention to such problems, and an object thereof is to provide a lifting device in which a rotating body is not damaged by a game ball in a lifting passage.

In order to solve the above-mentioned problem, a lifting device according to claim 1 of the present invention is provided.
A round-shaped passage (for example, the round-shaped passage 401 / the round-shaped passage 105A) having a substantially arc-shaped guide surface (for example, the guide surface 424a / guide surface 105a) for guiding the game ball, and one end portion of the round-shaped passage ( A lifting passage (for example, the first lifting passage 402A and the second lifting passage 402B / lifting passage 358A) extending upward from the upper end), and a rotating body rotatably provided at a position facing the guide surface. (For example, sprocket 403 / conveying belt 103) and driving means for rotating the rotating body (for example, a lifting motor 404 / lifting motor 80), and the driving means rotates the rotating body. Thus, a game ball between the rotating body and the guide surface is conveyed from the rounded path to the lift path, and lifts and lifts the game ball in the lift path (for example, a lift apparatus). 25 / lifting Kiyoshi An apparatus 2500),
First backflow prevention means (for example, a lower portion of the first lifting passage 402A / a lower portion of the lifting passage 358A) provided in a predetermined position of the lifting passage to prevent the game ball from flowing backward from the predetermined position ( For example, a one-way clutch 405)
The lift that is provided on the rounded passage side of the first backflow prevention means, is separated from the guide surface of the rounded passage and is transported to the lift passage, but is not transported to the first backflow prevention means. A second backflow prevention means (for example, an elastic member 450) for preventing all game balls in the sending passage from flowing back to the rounded passage and coming into contact with the rotating body ;
It is characterized by having.
According to this feature, the game ball lifted up from the first backflow prevention unit is prevented by the first backflow prevention unit from being prevented from flowing back by the first backflow prevention unit. Is applied to the rotating body to prevent the driving means from being loaded, and a game ball that has been transported from the rounded passage to the lifting passage but has not been lifted up to the first backflow preventing means flows back to the rounded passage. This is prevented by the second backflow prevention means, so that it is possible to prevent the game ball that has not been lifted up to the first backflow prevention means from coming back into contact with the rotating body and being damaged.
The lifting device according to claim 2 of the present invention is the lifting device according to claim 1,
Provided on a gaming island comprising a plurality of gaming machines and a counting device for counting gaming media provided corresponding to each of the plurality of gaming machines.
It is characterized by that.

The lifting device of means 1 of the present invention is the lifting device according to claim 1,
The lifting passage (for example, the first lifting passage 402A and the second lifting passage 402B) is a first guide wall portion (for example, the left side wall 441) connected to the guide surface (for example, the guide surface 424a). And a second guide wall portion (for example, the right side wall 442) disposed to face the first guide wall portion,
The second backflow prevention means includes
From an urging member (for example, elastic member 450) having a backflow prevention portion (for example, elastic piece portion 450A) provided so as to be able to urge the game ball from the second guide wall portion toward the first guide wall portion. Become
When the game ball conveyed from the rounded path contacts the backflow prevention portion, the game ball passes by retreating to the second guide wall portion side against the biasing force, and the game ball has passed. After that, it is urged toward the first guide wall portion so as to protrude to a lower position of the passed game ball to prevent backflow (see FIGS. 16 and 17).
It is characterized by that.
According to this feature, the game ball transported from the rounded passage passes while being urged in the direction away from the rotating body by the backflow prevention portion, that is, after being passed by the backflow prevention portion. It is possible to make the gaming ball in which the backflow is prevented from coming into contact with the rotating body more difficult.

The lifting device of means 2 of the present invention is the lifting device according to means 1,
In the rotating body, a plurality of ball receiving portions (for example, ball receiving portions 432) are formed in the circumferential direction, and a game ball is held between the ball receiving portion and the guide surface (for example, guide surface 424a). A sprocket (for example, sprocket 403) that rotates to convey from the rounded path (for example, rounded path 401) to the lifting path (for example, first lifting path 402A and second lifting path 402B). Yes,
The sprocket has a concave groove (for example, a concave groove 433) formed continuously over the plurality of ball receiving portions,
At least the backflow prevention portion of the urging member is disposed in the concave groove (see FIG. 8).
It is characterized by that.
According to this feature, the backflow prevention portion can be arranged so as to enter the inside of the sprocket, so that not only the lifting device can be made compact, but also the game ball can be smoothly detached from the ball receiving portion. It can be conveyed to a lifting device to prevent backflow.

The lifting device of means 3 of the present invention is the lifting device according to any one of claims 1, 1, and 2,
The lifting device (for example, the lifting and cleaning device 2500 of Example 2) is:
A long plate-shaped first frame plate (for example, a frame plate 100L);
A long plate-like second frame plate (for example, a frame plate 100R) arranged apart from the first frame plate;
Two shaft members (e.g., rotating shafts 101a and 102a) installed on one end side and the other end side in the longitudinal direction between the first frame plate and the second frame plate,
Two rotating rollers (for example, an upper roller 101 and a lower roller 102) provided rotatably on each of the two shaft members;
An endless belt (for example, a conveyor belt 103) as the rotating body that is stretched over the two rotating rollers;
A cleaning member (for example, a cleaning cloth 116) disposed opposite to an outer surface (for example, the outer surface 103a) of the belt;
With
After cleaning the game ball (for example, game ball P) sandwiched between the belt and the cleaning member by driving at least one of the two rotating rollers to rotate the belt. , Transported from the rounded path to the lifting path,
Notch recesses (for example, notch recesses 150a, 150a, 150b, formed in the same position in the longitudinal direction of the long sides (for example, rear long sides 100a, 100b) facing the belt in the first frame plate and the second frame plate, respectively. 150b)
A tension roller (e.g., tension roller 108) that applies a predetermined tension to the belt by abutting and energizing the outer surface of the belt;
A support (for example, support 161) that rotatably supports the tension roller;
Further comprising
The notch recess has a size such that at least a part of the tension roller or the support can be disposed when the tension roller abuts against the outer surface of the belt and is biased (for example, the opening width L3 is the tension roller). 108 is longer than the diameter L4 (L3> L4), and the depth L3 ′ is shorter than the diameter L4 of the tension roller 108 (L3 ′ <L4).)
It is characterized by that.
According to this feature, the cutout recesses formed in the first frame plate and the second frame plate have such a size that at least a part of the tension roller or the support body can be disposed. Since at least a part of the tension roller can be arranged on the inner side of the long sides of the first frame plate and the second frame plate without being limited by the separation width from the frame plate, the cleaning device can be made compact. Can do.

The lifting device of the means 4 of the present invention is the lifting device according to any one of claims 1 and 1-3,
The rotating body (e.g., sprocket 403) removes the second backflow prevention means (e.g., elastic member 450) from the main body (e.g., the drive unit 25A) of the lifting device, so that the main body of the lifting device is removed. On the other hand, it can be removed in the axial direction (for example, the direction of the rotating shaft 430) (see FIG. 12).
It is characterized by that.
According to this feature, maintenance work and the like of the rotating body can be easily performed.

It is sectional drawing which shows the internal structure of the game island as an Example of this invention. It is AA sectional drawing of FIG. It is BB sectional drawing of FIG. It is a top view which shows the internal structure of the center lower part of amusement island. (A) is a perspective view which shows the state which looked at the drive unit of the conveying apparatus from diagonally forward, (B) is a perspective view which shows the state seen from diagonally back. It is the front view which shows a drive unit, a left view, a right view, and a top view. It is CC sectional drawing of FIG. It is DD sectional drawing of FIG. (A) is an exploded perspective view showing a passage member, (B) is a perspective view, and (C) is a front view showing an elastic member. (A) is KK sectional drawing of (B), (B) is a right view which shows a channel | path member, (C) is a top view. (A) is a perspective view which shows a sprocket, (B) is a side view which shows the principal part of a sprocket, (C) is EE sectional drawing of (B). It is a disassembled perspective view which shows a drive unit. (A) is a cross-sectional view showing a state where game balls are supplied to the rounded path, and (B) is a cross-sectional view showing a state where game balls are not supplied to the rounded path. (A) is FF sectional drawing of FIG. 13 (A), (B) is GG sectional drawing. (A) is HH sectional drawing of FIG. 13 (A), (B) is II sectional drawing, (C) is JJ sectional drawing. (A) (B) is sectional drawing which shows the condition where a game ball is conveyed from a round-shaped channel | path to a lifting channel | path. (A) (B) is sectional drawing which shows the condition where a game ball is conveyed from a round-shaped channel | path to a lifting channel | path, (C) is a top view which shows the principal part of (B). (A) is sectional drawing which shows the raising cleaning apparatus as Example 2 of this invention, (B) is sectional drawing which shows the state which moved the main body to the open position. It is sectional drawing which shows the principal part of a lift cleaning apparatus. It is a schematic sectional drawing which shows the connection structure of a pumping cleaning apparatus and a descent | fall groove | channel. It is LL sectional drawing of FIG. 18 (A). It is a side view which shows the upper part of a main body, and a tension unit. It is a top view which shows the upper part of a main body and a tension unit. It is a front view which shows a main body and a tension unit. (A) is MM sectional drawing of FIG. 22, (B) is NN sectional drawing. (A) is an exploded side view showing a main body and a tension unit, and (B) is an OO cross-sectional view of (A). It is a side view which shows the principal part of a tension unit. (A) is an enlarged view which shows the front-end | tip of a lock arm, (B) is PP sectional drawing of (A). (A) (B) is explanatory drawing which shows the attachment method of a tension unit. (A) is explanatory drawing which shows the attachment method of a tension unit, (B) is QQ sectional drawing of (A). (A) is explanatory drawing which shows an example of a circuit structure of a pumping cleaning apparatus, (B) is a pumping cleaning operation | movement, (C) is explanatory drawing which shows the setting condition of cleaning start waiting time. It is a flowchart which shows the control content of the lift cleaning process which the controller for lift cleaning control performs. (A)-(C) is explanatory drawing which shows an example of the collection | recovery state of the game ball accompanying a pumping cleaning operation | movement. (D)-(F) is explanatory drawing which shows an example of the collection | recovery state of the game ball accompanying a pumping cleaning operation | movement. (A) is a timing chart showing the start timing of the lifting and cleaning operation when the stop period is 121 seconds or more, and (B) is the start timing of the lifting and cleaning operation when the stop period is 31 to 120 seconds. It is a timing chart which shows the start timing of the raising cleaning operation in a case where a stop period is 0 to 30 seconds. It is a flowchart which shows the control content of the lifting cleaning process which the controller for lifting cleaning control as a modification performs. (A) is a front view which shows the structure of a metal box, (B) is RR sectional drawing of (A), (C) is SS sectional drawing of (A).

  Examples of the present invention will be described below.

  A game island to which the present invention is applied will be described with reference to the drawings. FIG. 1 is a cross-sectional view showing the internal structure of an amusement island to which the present invention is applied. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 3 is a cross-sectional view taken along line BB in FIG. FIG. 4 is a plan view showing the internal structure of the lower center of the game island. In the following description, for convenience of description, the front side of FIG. 1 will be described as the front side of the game island, the back side as the rear side, and the left and right direction as the left and right sides.

  As shown in FIG. 1, the gaming island 1 is formed in an elongated shape in the left-right direction, and a pachinko gaming machine 2 that is an example of a gaming machine and a pachinko gaming machine 2 on the front and rear surfaces thereof. A plurality of ball lending processors (not shown) for lending pachinko balls as game balls to be used are arranged in the longitudinal direction (left-right direction).

  An upper tank 3 in which pachinko balls are stored is provided substantially at the upper center of the game island 1, and the pachinko balls stored in the upper tank 3 are directed toward both longitudinal ends of the game island 1. It flows into the left and right supply rods 4 arranged so as to incline downward. These left and right supply rods 4 are provided with tributary rods 5 for supplying the pachinko balls flowing down to the respective pachinko gaming machines 2 on the side plates before and after the supply rods 4 (left and right toward the flow direction of the balls). A plurality of pachinko balls supplied to the tributaries 5 are supplied to a ball tank 6 provided on the back surface of each pachinko gaming machine 2.

  At the downstream end of each of the left and right supply rods 4, for example, at the time of maintenance or the like, a ball punching tube 7 is provided for allowing the pachinko balls in the supply rod 4 to flow out into flow-down grooves 9L and 9R, which will be described later. It should be noted that pachinko balls do not flow down in the ball removal tube 7 at normal times.

  Inside the amusement island 1, an out tank 8 that receives an out ball discharged from the pachinko gaming machine 2 and discharges it to the downflow grooves 9 </ b> L and 9 </ b> R, which will be described later, is an upper surface of the base plate 13 on which the pachinko gaming machine 2 is placed. A plurality of pachinko gaming machines 2 are provided correspondingly. A discharge nozzle 8a extends downward from each out tank 8, and the received sphere is discharged through the discharge nozzle 8a.

  In addition, an overflow rod 12 that guides the pachinko balls overflowed when the stored amount of pachinko balls stored in the upper tank 3 exceeds a predetermined amount from the upper tank 3 to the flow-down grooves 9L and 9R, which will be described later. The overflow pipe 18 is suspended from the downstream ends of the left and right overflow rods 12.

  The left and right downflow grooves 9L and 9R constitute a game ball flow path, and as shown in FIGS. 1 to 3, wooden side plates 9a to 9d disposed on the front, rear, left and right sides of the game island 1, respectively. The bottom plate 9e is formed in the shape of a horizontally long box whose upper surface is open, and the left and right sides thereof, that is, the game island, sandwiching the lifting device 25 and the cleaning device 30 arranged at the approximate center position in the longitudinal direction of the game island 1. 1 is arranged at the lower part of both left and right sides (both sides in the longitudinal direction).

  The front and rear side plates 9a and 9b and the bottom plate 9e in each of the downflow grooves 9L and 9R are formed horizontally long in the left-right direction of the game island 1. The bottom plate 9e is disposed so that the upper surface of the bottom plate 9e is inclined downward from the longitudinal end side of the game island 1 toward the central lifting device 25 and the cleaning device 30 side, and the pachinko ball flows down (moves) The game ball flow path is configured. Further, on the upper surface of the bottom plate 9e, a flow path protection member 50 (hereinafter referred to as a flow path protection member 50) for protecting the upper surface of the bottom plate 9e in the width direction faces the longitudinal direction of the bottom plate 9e. It is laid.

  As shown in FIGS. 2 and 3, the flow path protection member 50 is provided with a pair of side plates arranged at the side end portions in the front-rear width direction of the bottom plate 9 e, that is, at the left and right end portions in the flow-down direction of the pachinko balls. It consists of side ridges 51 and 52. The width direction of the bottom plate 9e and the side flanges 51 and 52 is a direction orthogonal to the front-rear width direction in FIG. 1, that is, the flow direction of the pachinko balls (longitudinal direction of each member).

  The pair of side flanges 51 and 52 are separately formed in a plate shape continuous in the longitudinal direction of the bottom plate 9e of the flow-down groove 9L by extruding a vinyl chloride resin material. In particular, in the side flanges 51 and 52, a so-called two-color / different material molding is used to integrally form a ball receiving portion 56 described later with a soft material, and the plate-like portion 54 and the side wall portion 55 with a hard material. The ball receiving portion 56 can absorb the impact and impact sound of the pachinko ball discharged from the out tank 8 through the discharge nozzle 8a. The material of the flow path protection member 50 is not limited to the vinyl chloride resin material, but a pachinko ball (for example, the ball tank 6 or the supply basket 4 of the pachinko game machine 2) dropped on the flow path protection member 50. Any other synthetic resin material or metal material can be used as long as it has a property capable of absorbing impact and impact sound without being damaged by an impact caused by an impact caused by an overflow ball 12 or the like. May be. Moreover, such a flow path protection member 50 is not necessarily provided.

  The side ridges 51 and 52 are provided with a plate-like portion 54 having a predetermined width dimension, a side wall portion 55 provided continuously from the outer end portion of the plate-like portion 54, and an inner portion of the side wall portion 55. And a ball receiving portion 56 projecting in the direction, and each of the ball receiving portions 56 is formed symmetrically in the flow direction of the sphere. In other words, the pair of side flanges 51 and 52 can effectively reduce the manufacturing cost because two members formed to have a predetermined length by extrusion molding may be disposed opposite to each other on the upper surface of the bottom plate 9e. Note that the upper surface of the plate-like portion 54 constituting the flow path bottom surface 54a through which the pachinko sphere flows down is formed so as to be inclined slightly downward toward the center in the width direction, and the pachinko sphere stays at the outer end. It is prevented.

  Further, a counting device 15 for counting pachinko balls acquired by the player is disposed at the left end of the game island 1, and the pachinko balls thrown into the counting device 15 are arranged in the counting device. 15 flows into the guide rod 19 provided in the flow-down groove 9L through the return path 16 provided continuously from the ball insertion port 15a provided in the guide rod 19, and is guided to the lifting device 25 side by the guide rod 19. Then, it falls into the downflow groove 9L. That is, the counted balls counted by the counting device 15 are returned to the flow-down groove 9L disposed on the left side inside the game island 1.

  In the present embodiment, one counting device 15 for counting the pachinko balls acquired by the player is provided at the left end of the game island 1, that is, one counting device corresponding to the plurality of pachinko gaming machines 2. However, the present invention is not limited to this, and a counting device may be provided corresponding to each pachinko gaming machine 2.

  As shown in FIGS. 1 and 3, the guide rod 19 has a horizontal plane part 19a having a predetermined front-rear width dimension and substantially horizontal in the front-rear width direction, and both end sides in the front-rear width direction of the horizontal plane part 19a. It is made of a single metal plate formed by bending inclined surface portions 19b, 19b that are continuously provided so as to incline upward from the outside toward the outside. In the position, it extends so as to incline downward from the return path 16 toward the lifting device 25 side. Note that a rubber protective sheet (not shown) is laid on the top surface of the guide rod 19 so that the pachinko ball comes into contact with the flowing down pachinko ball or falls from above the game island 1 ( For example, damage to the guide cage 19 caused by the ball tank 6 of the pachinko gaming machine 2, the supply cage 4, the overflow cage 12, etc.) is prevented.

  Further, as shown in FIG. 1, the downstream end portion of the guide rod 19 extends to a partition plate 21 erected on the lifting device 25 side inside the flow-down groove 9 </ b> L. The counting ball that flows down is dropped to the upstream side of the partition plate 21 inside the flow-down groove 9L. The counting sphere flowing down on the guide rod 19 is inclined from the horizontal surface portion 19a by colliding with a ball receiving plate (not shown) facing in the width direction provided at the downstream end or on the downstream end. It rides on the surface portion 19b and falls from the outer edge of the inclined surface portion 19b (see FIG. 4).

  The ball that has dropped to the upstream side of the partition plate 21 in the flow-down groove 9L passes through a communication port 21a (see FIG. 1) formed in the lower part of the partition plate 21 and is formed downstream of the partition plate 21. After flowing into the merging portion 22, it is supplied to the cleaning device 30 via the connecting rod 10 </ b> L and the merging passage 11, which will be described later, and then supplied to the lifting device 25.

  On both sides in the front-rear width direction of the guide rod 19, as shown in FIG. 3, a collection rod 17 that collects pachinko balls discharged from the respective out tanks 8 respectively disposed on the front and rear surfaces of the game island 1, 17 are juxtaposed. The recovery rods 17 and 17 are formed in a cage shape with a hard vinyl chloride resin, and are located slightly above the guide rod 19 inside the flow-down groove 9L, from the counting device 15 side toward the lifting device 25 side. It is arranged so as to incline downward, and its downstream end extends beyond the partition plate 21 to the junction 22.

  Thus, since the pachinko balls discharged from each pachinko gaming machine 2 through the out tank 8 flow down the recovery rods 17 and 17 and are discharged into the junction 22, the counting balls flow down the guide rod 19. It is guided to the lifting device 25 with higher priority.

  That is, the downflow grooves 9L and 9R receive the pachinko balls discharged from the respective pachinko gaming machines 2 arranged in parallel from the central lifting device 25 toward the left and right end sides through the out tank 8 in the longitudinal direction. 9L is configured so that the counted sphere counted by the counting device 15 can be received in the longitudinal direction.

  In the lower part of the left and right downflow grooves 9L, 9R, the lower part of the side plate 9c disposed on the side of the lifting device 25 communicates with a pachinko ball inlet 37 (see FIG. 4) formed in the lower part of the main body of the lifting device 25. A mouth 10a is formed. After the pachinko balls in the downflow grooves 9L and 9R flow out of the communication port 10a, they flow down through the connecting rods 10L and 10R (see FIG. 4) connected to the communication port 10a, and are merged in the merging passage 11 and cleaned. After flowing into the device 30 and being cleaned, it flows into the inside of the main body of the lifting device 25 from the inlet 37 and is transported upward by the lifting device 25.

  Although the cleaning device 30 is not particularly shown in detail, the game ball is allowed to flow into the upper surface of a cleaning member (also referred to as a polishing member) such as a cleaning cloth laid on the upper surface of a horizontally arranged swing plate, The swinging plate is swung in the horizontal direction so that the cleaning member is brought into sliding contact with the game ball to be cleaned and discharged from a predetermined outlet and supplied to the lifting device 25. The present invention is not limited to the cleaning device, and various cleaning devices can be applied. In addition, the game ball that has been cleaned and then lifted by the lifting device 25 is discharged into the upper tank 3 from a discharge port 38 (see FIG. 1) disposed in the upper portion of the upper tank 3. Yes.

  The supply rod 4, the branch flow rod 5, the overflow rod 12, the recovery rods 17, 17, the overflow tube 18, the guide tube 19, the downflow grooves 9L and 9R, the connection rods 10L and 10R, and the junction passages disposed in the game island 1 11, the cleaning device 30 and the lifting device 25 constitute a circulation path for pachinko balls in the game island 1, and among these, the supply rod 4, the branch rod 5, the overflow rod 12, the recovery rods 17, 17 and the guidance The spear 19, the downflow grooves 9L and 9R, the connecting spears 10L and 10R, and the junction passage 11 constitute a game ball passage through which the pachinko ball moves (naturally flows down in this embodiment). Of these, the recovery rods 17 and 17, the guide rod 19, the downflow grooves 9 </ b> L and 9 </ b> R, the connection rods 10 </ b> L and 10 </ b> R, the merge passage 11, and the cleaning device 30 collect the game balls discharged from the pachinko gaming machine 2. A collection passage for guiding to the lifting device 25 is configured.

  The game island 1 in the present embodiment is a so-called independent game island that uses only the game balls stored in the upper tank 3 and the flow-down grooves 9L and 9R in a controlled manner. Other game islands and upper tanks arranged side by side may be appropriately connected by a connecting rod or the like so that the amount of game balls stored can be adjusted between the other game islands. In addition, a counting device for counting game balls acquired by a player is provided for each pachinko gaming machine 2, and is a unit-type game island configured to be able to circulate and use game balls in each game island. There may be.

  Next, a detailed structure of the lifting device 25 according to the first embodiment will be described with reference to FIGS. FIG. 5A is a perspective view showing a state in which the drive unit of the lifting device is seen from an oblique front, and FIG. 5B is a perspective view showing the state seen from an oblique rear. FIG. 6 is a front view, a left side view, a right side view, and a plan view showing the drive unit. 7 is a cross-sectional view taken along the line CC of FIG. 8 is a cross-sectional view taken along the line DD of FIG. 9A is an exploded perspective view showing a passage member, FIG. 9B is a perspective view, and FIG. 9C is a front view showing an elastic member. 10A is a cross-sectional view taken along the line KK of FIG. 10B, FIG. 10B is a right side view showing the passage member, and FIG. 10C is a plan view. 11A is a perspective view showing a sprocket, FIG. 11B is a side view showing the main part of the sprocket, and FIG. 11C is an EE cross-sectional view of FIG. FIG. 12 is an exploded perspective view showing the drive unit. FIG. 13A is a cross-sectional view showing a state in which a game ball is supplied to the rounded path, and FIG. 13B is a cross-sectional view showing a state in which no game ball is supplied to the rounded path. 14A is a sectional view taken along line FF in FIG. 13A, and FIG. 14B is a sectional view taken along line GG. 15A is a cross-sectional view taken along line HH in FIG. 13A, FIG. 15B is a cross-sectional view taken along line II, and FIG. 15C is a cross-sectional view taken along line JJ. FIGS. 16A and 16B are cross-sectional views showing a situation in which the game balls are conveyed from the rounded passage to the lifting passage. FIGS. 17A and 17B are cross-sectional views showing a situation in which game balls are conveyed from the rounded passage to the lifting passage, and FIG. 17C is a plan view showing the main part of FIG.

  As shown in FIGS. 5 to 8, the lifting device 25 is mainly composed of a drive unit 25 </ b> A formed in a substantially cubic shape and a feed passage member 25 </ b> B connected to the upper left side portion of the drive unit 25 </ b> A. As shown in FIG. 1, the game unit 1 is disposed at a substantially central position in the longitudinal direction (left-right direction), the drive unit 25A is installed on the floor surface, and the feed passage member 25B It extends from the upper left side of 25A to the upper tank 3 provided on the upper part of the game island 1.

  The drive unit 25A includes a guide passage 400 (see the meshed area in FIG. 8) for guiding the game ball that has flowed out of the cleaning device 30, and a substantially arc-shaped guide surface 422a that guides the game ball guided in the guide passage 400. , 423a, 424a (see the halftone dot area in FIG. 8), a first lifting passage 402A (see the hatched area in FIG. 8) extending upward from one end of the round-shaped path 401, and a guide A sprocket 403 as a rotating body provided rotatably at a position facing the surfaces 422a, 423a, 424a, a lifting motor 404 as a driving means for rotating the sprocket 403, and a lower position of the lifting passage 402 A one-way clutch 405 provided to prevent the game ball from flowing backward from the lower position, and the rounded passage 401 side of the one-way clutch 405 Provided, the game ball that is not pumped up to the one-way clutch 405 but is transported to the first pumped passage 402A is provided with an elastic member 450 which prevents the flowing back into round shape passage 401, a.

  The guide passage 400, the rounded passage 401, the first lifting passage 402A and the second lifting passage 402B are composed of a plurality of rows (for example, five rows) of game ball passages arranged side by side in the front-rear direction. On the right side surface, an inflow port 410 into which a game ball that has flowed out of the cleaning device 30 flows is provided. The game ball that has flowed into the inflow port 410 moves through the guide passage 400, the rounded passage 401, and the first lifting passage 402A, and passes through the connection port 411 provided on the left side of the upper surface of the drive unit 25A. It flows into the second lifting passage 402B formed by the member 25B.

  The guide passage 400 is configured by a first passage member 421 formed in a square cylinder shape with a stainless material or the like, and is provided so as to be inclined downward from the inflow port 410 toward the left side. A connecting passage 30a (see FIG. 4) for guiding the game ball flowing out from the cleaning device 30 to the inlet 410 is connected to the inlet 410 at the right end.

  The rounded passage 401 includes the second passage member 422, the third passage member 423, and the lower portion of the fourth passage member 424 so that the guide passage 400 and the first lifting passage 402A are connected to each other. It is formed so as to form a substantially upward C shape in front view along the lower half of the circumferential surface. A fifth passage member 425 for guiding the game ball guided in the guide passage 400 to the round passage 401 is provided between the guide passage 400 and the round passage 401.

  As shown in FIG. 14 (A), the second passage member 422 is formed by integrating a ridge 422b having a guide surface 422a formed in a substantially arc shape when viewed from the front along the outer periphery of the sprocket 403. The guide surface 422a is provided facing the right side of the sprocket 403 so as to correspond to each game ball passage. Further, as shown in FIG. 8, the lower end of the second passage member 422 is pivotally supported by a swinging shaft 426 provided in the drive unit 25A that faces in the front-rear direction, and the guide surface 422a is sprocketed by a torsion spring (not shown). It is pressed toward the 403 side.

  As shown in FIG. 14B, the third passage member 423 is formed in a substantially arc shape when viewed from the front along the outer periphery of the sprocket 403, and extends in the front-rear direction so as to straddle each game ball passage. It has a surface 423 a and is provided facing the lower side of the sprocket 403.

  As shown in FIG. 15A, the fourth passage member 424 has a concave guide surface 424a formed in a substantially arc shape when viewed from the front along the outer periphery of the sprocket 403, and each guide surface 424a corresponds to each game. It is provided facing the left side of the sprocket 403 so as to correspond to the spherical passage. Details of the fourth passage member 424 will be described later.

  The arcuate guide surfaces 422a, 423a, and 424a of the first to fourth passage members 422, 423, and 424 are provided so as to be continuous in the circumferential direction of the sprocket 403, and the guide surfaces 422a, 423a, and 424a are provided on the guide surfaces 422a, 423a, and 424a. A sprocket 403 is rotatably provided at the facing position. In detail, the guide surface 424a has a circular arc portion from the start end adjacent to the guide surface 423a to the left side position of the rotation shaft 430 of the sprocket 403, and the first lift from the end (upper end) of the circular arc portion. It is comprised from the linear part to the starting end (lower end) of the inner surface 441a (refer FIG. 10) of the channel | path 402A. That is, the first lifting passage 402A extends substantially vertically upward in the tangential direction passing through the end (upper end) of the arcuate guide surface 424a.

  In the present embodiment, the first lifting passage 402A and the second lifting passage 402B are disposed substantially vertically. However, the present invention is not limited to this, and the lifting device 25 is viewed from the front. As long as the game ball can be transported upward as seen, it may be extended obliquely upward.

  As shown in FIG. 11, the sprocket 403 includes a rotation shaft 430 that faces in the front-rear direction, and a cylindrical member 431 that is fixed to the rotation shaft 430 around the rotation shaft 430 so as not to be relatively rotatable. ing. A plurality of substantially hemispherical concave ball receiving portions 432 capable of accommodating game balls are formed at predetermined intervals in the circumferential direction at positions corresponding to the respective game ball paths on the peripheral surface of the cylindrical member 431. As shown in FIG. 11C, each ball receiving portion 432 is formed to have a size capable of accommodating about 1/3 or more of the game ball, and the sprocket 403 faces each guide surface 422a, 423a, 424a. The game balls flowing into the rounded passage 401 are received by the respective ball receiving portions 432, and the game balls are held between the respective ball receiving portions 432 and the respective guide surfaces 422a, 423a, 424a. Can be done. Therefore, by turning the sprocket 403, the game balls held between the ball receiving portions 432 and the guide surfaces 422a, 423a, and 424a are moved along the guide surfaces 422a, 423a, and 424a.

  In addition, the plurality of ball receiving portions 432 arranged corresponding to the respective game ball passages are adjacent to each other in the axial direction of the rotation shaft 430 as indicated by a two-dot chain line in FIG. It is disposed at a position shifted in the circumferential direction with respect to 432. Specifically, a straight line passing through the center position of each ball receiving portion 432 adjacent in the axial direction of the rotation shaft 430 is disposed so as to be slightly inclined with respect to the axial center. As a result, it is avoided that all the game balls of each game ball passage guided by the guide passage 400 are accommodated in the ball receiving portion 432 at the same timing, so that the ball biting occurs simultaneously in each game ball passage. As described later, it is possible to avoid pushing up all the game balls in each game ball passage conveyed in the rounded passage 401 to the first lifting passage 402A at the same timing. It is possible to prevent the weight of the game balls in each game ball passage from being applied all at once and applying a load to the lifting motor 404.

  In addition, annular concave grooves 433 that are continuous in the circumferential direction are formed over the respective ball receiving portions 432 at the bottoms of the respective ball receiving portions 432 corresponding to the respective game ball passages. That is, each ball receiving portion 432 is formed so as to be divided in the direction of the rotation shaft 430.

  In this embodiment, a plurality of ball receiving portions 432 corresponding to the respective game ball passages are formed by being divided in the direction of the rotation shaft 430 by the concave grooves 433, but the present invention is not limited to this. Alternatively, a sprocket in which a plurality of ball receiving portions are formed on the periphery of the disk may be applied.

  As shown in FIGS. 5 and 6, the sprocket 403 configured in this manner is rotatable on a front wall 434 (see FIG. 6) in which the front end of the rotation shaft 430 is erected on the front side of the drive unit 25 </ b> A. While being pivotally supported, the rear end is pivotally supported by a rear wall 435 (see FIG. 5) which is erected on the rear side of the drive unit 25A. Further, the rear end of the rotation shaft 430 penetrates the rear wall 435 and protrudes to the back side, and the driven gear 436 is fixed to the protruded rear end.

  Further, a lifting motor 404 is fixed to the upper right side position of the sprocket 403. The lift motor 404 is provided so that the drive shaft 404a penetrates the rear wall 435 and protrudes to the back side, and a drive gear 437 is fixed to the rear end protruding to the back side. The drive gear 437 is engaged with an intermediate gear 438 that is pivotally supported by the rear wall 435, and the intermediate gear 438 is also engaged with the driven gear 436. , The rotational force is transmitted to the rotation shaft 430 through the intermediate gear 438 and the driven gear 436, and the sprocket 403 is rotated.

  As shown in FIGS. 9 and 10, the fourth passage member 424 is formed in a vertically long plate shape, and is provided in a standing posture on the left side of the drive unit 25A. A plurality of connection ports 411 corresponding to the respective game ball passages are formed on the upper surface of the fourth passage member 424, and first connection passages 402 </ b> A composed of a plurality of cylindrical game ball passages are formed from the connection ports 411. It extends to a position slightly below the center position in the vertical direction. A concave portion 440 having an arc shape when viewed from the front is formed below the first lifting passage 402A on the right side surface of the fourth passage member 424. The concave portion 440 is open to the right side. A plurality of guide surfaces 424a of the passage 401 are arranged side by side corresponding to each game ball passage.

  A vertically long insertion hole 443 is formed in the left side wall 441 at a position corresponding to the lower part of each game ball path of the first lifting path 402A, and each insertion hole 443 has a part of a one-way clutch 405 described later. Is inserted so as to protrude into the game ball passage (see FIG. 7).

  A plate-shaped guide wall 444 that protrudes to the right is formed at a position corresponding to the lower part of each game ball passage of the first lifting passage 402A on the right side wall 442. The guide wall 444 is disposed at a substantially central position in the front-rear width direction of each game ball passage of the first lifting passage 402A, and the lower surface has an arc shape in front view along an arc centering on the rotation shaft 430 of the sprocket 403. An arc surface 444a is formed, and the arc surface 444a is inclined with respect to the longitudinal direction of the first feed passage 402A. The guide wall 444 including the circular arc surface 444 a is disposed along the longitudinal direction of the first lifting passage 402 </ b> A and the rounded passage 401.

  Further, as shown in FIG. 8, the lower portion of the guide wall 444 is located at a position corresponding to the concave groove 433 in each ball receiving portion 432 of the sprocket 403, and the arc surface 444 a is more than the outer periphery of the cylindrical member 431 in the sprocket 403. By being arranged so as to enter the rotating shaft 430 side, the game balls held on the ball receiving portions 432 and the guide surfaces 424a are brought into contact with the ball receiving portions 432 to be separated from the round shape. It is possible to guide from the passage 401 to the first lifting passage 402A.

  An elastic member 450 formed in a plate shape with a metal material such as stainless steel is attached to the guide wall 444. As shown in FIG. 9C, the elastic member 450 extends in the front-rear direction connecting the elastic piece portion 450A arranged along the circular arc surface 444a of each guide wall 444 and the upper end of each elastic piece portion 450A. The connecting piece portion 450B is formed in a comb-like shape. A mounting piece 450C is bent toward the left from the upper part of the front and rear elastic pieces 450A, and screw holes are formed in the connecting piece 450B and the mounting piece 450C. It is fixed to the guide wall 444.

  The elastic piece portion 450A is arranged in an inclined manner so as to be bent from the lower end of the first piece 451a to the left side along the arc surface 444a by hanging downward from the connecting piece portion 450B. Two pieces 451b, a third piece 451c bent obliquely upward and leftward from the lower end of the second piece 451b, and a fourth piece 451d bent substantially horizontally from the upper end of the third piece 451c to the second piece 451b side , Is composed of. The second piece 451b is bent and inclined with respect to the first piece 451a by a predetermined angle θ1 (for example, θ1 = about 45 degrees), and the third piece 451c is formed at a predetermined angle (for example, θ2 = about 15 with respect to the perpendicular). Degrees). Thus, the lower part of the elastic piece 450A is formed in an upward hook shape. Further, bent portions 452a and 452b which are bent downward are formed at two locations of the second piece 451b.

  As shown in the enlarged view in FIG. 10A, when the elastic member 450 is fixed to the guide wall 444 with a screw (not shown), each second piece 451b is arranged along each arc surface 444a, and the bent portion 452a and 452b come into contact with the arcuate surface 444a. As described above, the elastic member 450 is a guide formed on the right side wall 442 facing the inner surface 441a continuously provided from the terminal end of the guide surface 424a among the left side wall 441 and the right side wall 442 constituting the first lifting passage 402A. Attached to the wall 444, the second piece 451b is disposed so as to be inclined downward toward the left side wall 441. In addition, the third piece 451c and the fourth piece 451d, which are the lower ends of the elastic piece portion 450A, are disposed so as to protrude from the inner surface 442a on the first lifting passage 402A side of the right side wall 442 toward the passage side.

  At this time, the third piece 451c is provided so as to incline toward the left side wall 441 toward the upper end from the lower end, that is, the direction in which the game ball is transported, and left from the bent portion of the third piece 451c and the fourth piece 451d. A separation width dimension L1 between the wall 441 and the inner surface 441a on the first lifting passage 402A side is smaller than the diameter of the game ball.

  Further, the elastic piece portion 450A is disposed at a position corresponding to the concave groove 433 in each ball receiving portion 432 of the sprocket 403 so as to enter the rotation shaft 430 side from the outer periphery of the cylindrical member 431 in the sprocket 403. Thus, the game balls transported by being held by the respective ball receiving portions 432 and the guide surface 424a collide with the third piece 451c.

  Each elastic piece portion 450A of the elastic member 450 is configured to be elastic with a strip-shaped metal piece so that the game ball conveyed through the rounded passage 401 as described above is the third piece. When it comes into contact with 451c, the game ball is detached from the ball receiving portion 432 and guided to the first lifting passage 402A, and when the guided game ball passes through the third piece 451c, the game ball is third. By pressing the piece 451c toward the right side wall 442, the third piece 451c is elastically deformed to allow the passage of the game ball, and after the game ball passes through the third piece 451c, the third piece 451c is moved to the left side by the elastic force. By returning to the wall 441 side, the passed game ball is held on the fourth piece 451d and dropped, that is, backflow is prevented.

  In this way, the elastic member 450 guides the game balls from the rounded passage 401 to the first lifting passage 402A and sends them one by one, and the gaming balls sent to the first lifting passage 402A fall downward. It holds so that it does not flow back into the rounded passage 401, and constitutes the second backflow prevention means of the present invention.

  As shown in FIG. 8, the one-way clutch 405 is a clutch mechanism that transmits rotational force only in one direction. Although not specifically illustrated, for example, between the outer ring (outer race) and the inner ring (inner race). It has a structure that incorporates a dart-shaped ring stopper called sprag, and when the outer race rotates to one side with respect to the inner race, the sprag engages and transmits torque, and when it rotates in reverse, the sprag is disengaged A sprag type one-way clutch that prevents torque from being transmitted, an outer ring and an inner ring, a roller, and a spring are provided, and a pocket having a cam surface is provided inside the outer ring or outside the inner ring. A roller is disposed inside the pocket, and is kept in contact with the cam surface of the outer ring and the outer side of the inner ring or the cam surface of the inner ring and the inner side of the outer ring by a spring. When the outer ring tries to rotate in one direction with respect to the inner ring, the contact surface pressure between the cam surface and the roller increases, and the resistance is transmitted to the inner ring. When rotating in the reverse direction, the contact surface pressure between the cam surface and the roller becomes low, and a cam-type one-way clutch that slides and cuts power transmission can be applied.

  In the one-way clutch 405 of the present embodiment, a sprocket 405A having a plurality of ball receiving portions formed on the periphery is configured as an outer ring, and the sprocket 405A corresponds to each game ball passage in the lower part of the first lifting passage 402A. A plurality of juxtapositions are provided so as to be rotatable in one direction (counterclockwise when viewed from the front) and non-rotatable in the reverse direction (clockwise when viewed from the front) around a rotation shaft 405B extending in the front-rear width direction. The rotation shaft 405B is supported by front and rear walls of a cover member 405C provided to cover the insertion hole 443 on the left side surface of the fourth passage member 424, and the plurality of sprockets 405A are covered with the cover member 405C. Yes.

  A part of the periphery of each sprocket 405A is provided so as to protrude into the first lifting passage 402A through the insertion hole 443, and holds the game ball between the ball receiving portion and the inner surface 442a of the right side wall 442. Rotate to allow upward movement. Even if the game ball held between the ball receiving portion and the inner surface 442a of the right side wall 442 cannot be pushed up by the lower succeeding ball, the game ball held by the sprocket 405A is reversed in the reverse direction (clockwise in front view). Therefore, the game ball is held in the same position to prevent backflow.

  In the present embodiment, the one-way clutch 405 is applied as the first backflow prevention means for preventing the backflow of the game ball in the first lifting passage 402A, but the present invention is not limited to this. Other than the clutch mechanism that transmits the rotational force only in one direction, if the game ball is allowed to move upward and cannot be moved downward, other members such as a backflow prevention member such as an elastic member 450 can be used. A backflow prevention means may be applied.

  As shown in FIG. 12, the drive unit 25 </ b> A configured in this manner removes the first to fifth passage members 421 to 425 constituting each game ball passage by removing the front wall 434, and thereby the fourth passage member. Since the first to third passage members 421 to 423 and the fifth passage member 425 except for 424 can be taken out forward, and the fourth passage member 424 can be taken out to the left side, the sprocket 403 has the first to fifth passage members 421. With ˜425, it can be pulled out forward in the direction of the rotation axis 430.

  As described above, since the first to fifth passage members 421 to 425 and the sprocket 403 can be easily removed by removing the front wall 434, the guide passage 400, the round passage 401, and the first lifting passage 402A are used. Maintenance work can be easily performed when a ball clogging occurs or when a foreign object such as a nail enters.

  Next, the state of transport of game balls in the drive unit 25A configured as described above will be described.

  In the lifting device 25 of the present embodiment, for example, when a game ball is detected by a sensor (not shown) provided in the inflow port 410, the connection passage 30a, etc., the sprocket 403 is rotated clockwise as viewed from the front by the lifting motor 404. When the state in which the game ball is not detected continues for a predetermined time after the sensor (not shown) no longer detects the game ball, the rotation of the sprocket 403 by the lift motor 404 is started. The movement is stopped and the lifting is stopped. In this embodiment, the sprocket 403 is rotated and the lifting of the game ball is started when the game ball flows into the inlet 410 as described above. The sprocket 403 may continue to rotate from the start to the end of the game hall regardless of the inflow situation of the game balls.

  First, as shown in FIG. 13A, when the game ball that has flowed down from the cleaning device 30 through the connection passage 30a and into the inlet 410 flows down the guide passage 400 and reaches the rounded passage 401, the sprocket 403 When the sprocket 403 rotates, the sprocket 403 rotates and is conveyed through the rounded passage 401 while being held by the guide surfaces 422a, 423a, and 424a and the ball receiver 432. Then, when reaching between the rounded passage 401 and the first lifting passage 402A, the elastic member 450 restricts the movement in the circumferential direction so as to be separated from the ball receiving portion 432 and from the downstream end portion of the guide surface 424a. Guided to the first lifting passage 402A extending upward.

  As shown in FIG. 13B, the lower part of the game ball conveyed to the first lifting passage 402A is supported by the elastic member 450, and the backflow from the first lifting passage 402A to the rounded passage 401 is prevented. As a result, it stays in the first pumping passage 402A. Each time the succeeding ball is guided to the first lifting passage 402A, the succeeding ball is pushed upward, and a plurality of game balls stay in the first lifting passage 402A in a daisy chain. In addition, when there is no following ball, the lower part of the lowest game ball P1 among the game balls in the first lifting passage 402A is supported by the elastic member 450, so that it is held in the first lifting passage 402A. This prevents backflow.

  Further, when the game ball whose lower part is supported by the fourth piece 451d of the elastic member 450 is pushed up by the succeeding ball, the sprocket 405A is rotated by contacting the peripheral edge of the sprocket 405A of the one-way clutch 405, and the sprocket 405A. Between the ball receiving portion and the inner surface 442a of the right side wall 442. Here, since the sprocket 405A is restricted from turning clockwise when viewed from the front, if the sprocket 405A is held between the ball receiving portion of the sprocket 405A and the inner surface 442a of the right side wall 442, it moves downward, that is, backflow Is blocked.

  In the present embodiment, among the game balls that have passed through the elastic member 450 and are transported to the first lifting passage 402A, the game ball P1 whose lower part is supported by the fourth piece 451d and the game ball P1 above The load of the game ball P2 acts on the elastic member 450, and the load of the upper game ball including the game ball P3 above the game ball P2 acts on the ball receiving portion of the sprocket 405A.

  That is, the loads of a plurality of game balls including the game ball P3 above the sprocket 405A of the one-way clutch 405 act on the sprocket 405A, and two game balls P1, between the sprocket 405A and the elastic member 450 The load P2 is applied to the elastic member 450.

  Further, the game ball P1 supported from below by the elastic member 450 is completely detached from the outer periphery of the sprocket 403, so that even if the rotation of the sprocket 403 is continued without the subsequent ball, it contacts the outer periphery of the sprocket 403. Thus, there is no risk of damaging the sprocket 403.

  Next, the deformation state of the elastic member 450 when the game ball is conveyed from the rounded passage 401 to the first lifting passage 402A will be described based on FIGS. 16 and 17.

  First, as shown in FIG. 16A, the game ball PA held between the ball receiving portion 432 of the sprocket 403 and the guide surface 424a is formed between the rounded passage 401 and the first lifting passage 402A. When it reaches the connecting portion (the end of the rounded passage 401), it collides with the third piece 451c of the elastic member 450. Here, if the elastic member 450 is not provided, the ball receiving portion 432 is changed to an upward posture after passing through the end portion of the rounded passage 401, so that the game ball PA is held in the ball receiving portion 432 by its own weight. Although the sprocket 403 is conveyed in the circumferential direction as it is, the elastic member 450 is arranged so as to enter the rotation shaft 430 side from the outer periphery of the sprocket 403, so that the game ball PA is moved in the circumferential direction. Movement is prevented.

  In addition, as shown in FIG. 16B, the game ball PA collides with the third piece 451c of the elastic member 450 and is prevented from moving in the circumferential direction. By being pushed upward by the lower edge of the portion 432, the second piece 451b is pushed rightward. At this time, the elastic piece 450A is biased toward the inner surface 441a by the elastic force of the elastic piece portion 450A, that is, away from the sprocket 403, so that the third piece 451c gradually moves away from the ball receiving portion 432 to the inner surface 441a. While being pressed, the third piece 451c is slidably guided upward.

  The elastic piece 450A is deformed toward the right side at the lower end side around the bent part of the first piece 451a and the second piece 451b, and moves away from the arc surface 444a along with the deformation. It is also possible to bend at the bent portions of the portions 452a and 452b or the second piece 451b and the third piece 451c, so that only the bent portion of the first piece 451a and the second piece 451b is loaded and the bent portion Is prevented from being easily broken.

  Next, as shown in FIG. 17A, when the center point P0 of the game ball is positioned above the upper end position of the third piece 451c, the predetermined portion of the lower half of the outer surface of the game ball PA faces the inner surface 411a side. Therefore, even if the game ball PA is detached from the ball receiving portion 432 and cannot be pushed up, the game ball PA is pushed up by the elastic force of the elastic piece portion 450A.

  Then, as shown in FIG. 17B, the game ball PA passes through the third piece 451c, and two points of the bent part of the third piece 451c and the fourth piece 451d and the inner surface 441a or the fourth piece 451d It is supported at two points with the inner surface 441a and held at the lower part of the first lifting passage 402A. This prevents the game ball PA from dropping downward, that is, backflow from the first lifting passage 402A to the rounded passage 401. At this time, since the game ball PA is completely detached from the ball receiving portion 432, it does not come into contact with the outer periphery of the sprocket 403. It should be noted that the game ball PA appears to be in contact with the outer periphery of the sprocket 403 in a front view, but the outer periphery of the game ball PA and the outer periphery of the sprocket 403 are in contact as shown in the plan view of FIG. Not. Therefore, when the sprocket 403 continues to rotate without the subsequent sphere being conveyed, the elastic member 450 prevents the reverse flow from being raised to the one-way clutch 405 although it is conveyed to the first lifting passage 402A. It is possible to prevent the sprocket 403 from being damaged by the game ball PA being in contact with the outer periphery of the sprocket 403.

  As described above, the lifting device 25 according to the embodiment of the present invention has a rounded path 401 having a substantially arc-shaped guide surface 424a for guiding a game ball, and extends upward from the upper end of the rounded path 401. A lifting passage 402 including a first lifting passage 402A and a second lifting passage 402B, a sprocket 403 as a rotating body rotatably provided at a position facing the guide surface 424a, and the sprocket 403 are rotated. A lifting motor 404 as a driving means, and the lifting motor 404 rotates the sprocket 403 so that a game ball between the sprocket 403 and the guide surface 424a is transferred from the rounded passage 401 to the first lifting passage. 402 is a lifting device 25 that is transported to 402A and pushes up and lifts the game balls in the first lifting passage 402A, and is provided at the lower portion of the first lifting passage 402A. A one-way clutch 405 serving as a first backflow prevention means for preventing the technical ball from flowing backward from the predetermined position, and provided on the rounded passage 401 side of the one-way clutch 405, is conveyed to the first lifting passage 402A. However, an elastic member 450 serving as second backflow prevention means for preventing the game ball that has not been lifted up to the one-way clutch 405 from flowing back into the rounded passage 401 is provided.

  By doing so, the one-way clutch 405 as the first backflow prevention means prevents the game ball that has been lifted up to the predetermined position in the first lifting passage 402A from flowing back, so that it is above the one-way clutch 405. It is possible to prevent the load of the game ball lifted on the sprocket 403 from being applied to the lift motor 404 and to lift it up to the one-way clutch 405 although it is conveyed from the rounded passage 401 to the first lift passage 402A. The game balls that have not been lifted up to the one-way clutch 405 are caused to flow backward and come into contact with the sprocket 403 by preventing the non-played game balls from flowing back to the rounded passage 401 by the elastic member 450 as the second backflow prevention means. And is prevented from being hurt.

  In the present embodiment, the second backflow prevention means is constituted by the elastic member 450 formed so as to be elastically deformable, so that it is necessary to mount a complicated mechanism such as a one-way clutch mechanism. Since the structure is simple and the sprocket 403 can be disposed closer to the right side wall 442 on the sprocket 403 side in the first lifting passage 402A, the game ball is immediately after being detached from the ball receiving portion 432. It is possible to support the lower part and prevent backflow.

  Further, in this embodiment, the elastic member 450 as the second backflow prevention means is configured to separate the game ball held in the ball receiving portion 432 and guide it to the first lifting passage 402A. Since the game ball does not directly collide with the right side wall 442 and the like, the right side wall 442 is not damaged, and the impact caused by the collision with the game ball is buffered by the elastic deformation by the elastic member 450. Generation of sound and vibration can be suppressed.

  In this embodiment, in the state where the lowest flow of the game balls transferred to the first lifting passage 402A is blocked by the elastic member 450 as the second reverse flow blocking means, The sprocket 403 is not in contact with the sprocket 403, but the present invention is not limited to this, and the gaming ball is not sprocketed as long as the entire load of the gaming ball whose backflow is prevented by the elastic member 450 is not applied. It may come into contact with 403.

  In this embodiment, two game balls are retained between the one-way clutch 405 and the elastic member 450. However, three or more game balls may be retained, or only one ball may be retained. As described above, the arrangement interval between the one-way clutch 405 and the elastic member 450 may be changed.

  Further, in this embodiment, the elastic member 450 configured to be elastically deformable with a metal piece is applied as an example of the second backflow prevention means. However, the present invention is not limited to this, and the game Other clutch mechanisms such as a one-way clutch similar to the one-way clutch 405 may be applied as long as the ball is allowed to move upward and cannot be moved downward.

  Further, the second backflow prevention means is not limited to an elastic member configured to be elastically deformable. For example, the second backflow prevention means protrudes into the first lifting passage 402A to prevent the backflow of the game ball and the first lifting A blocking member provided so as to be movable between a retracted position for retracting from the passage 402A and a biasing means such as a spring for constantly biasing the blocking member toward the blocking position are provided, so that the game ball is a round path. When moving from 401 to the first lifting passage 402A, it retreats to the retreat position against the urging force of the urging means to allow passage, and when the game ball passes, the urging force of the urging means moves from the retreat position. It may move to the blocking position and block the movement of the game ball from the first lifting passage 402A to the rounded passage 401. The blocking member urged by the urging means in this way is also included in the elastic member.

  Further, instead of a biasing means such as a spring, a driving means for driving the blocking member so as to be movable between the blocking position and the retracted position may be applied, or according to the rotation of the sprocket 403. An interlocking mechanism that interlocks the blocking member so as to reciprocate between the blocking position and the retracted position may be applied.

  Further, the shape of the elastic member 450 is not limited to the shape described in the embodiment, and can be variously modified.

  Further, the first lifting passage 402A includes a left side wall 441 as a first guide wall portion provided continuously with the guide surface 424a and a right side as a second guide wall portion disposed to face the left side wall 441. A biasing member having an elastic piece portion 450A as a backflow blocking portion provided so as to bias the game ball from the right side wall 442 toward the left side wall 441. When the game ball conveyed from the rounded passage 401 comes into contact with the third piece 451c of the elastic piece 450A, the game ball is retreated against the right side wall 442 against the biasing force. After the game ball has passed, the game ball is biased toward the left side wall 441 so that it protrudes to a position below the game ball that has passed therethrough and supports the lower part of the game ball to prevent backflow.

  By doing so, the game ball conveyed from the rounded passage 401 passes while being urged in the direction away from the left side wall 441, that is, the sprocket 403 by the third piece 451c of the elastic piece 450A. It is possible to make the game ball whose backflow is prevented by the third piece 451c of the elastic piece portion 450A after passing more difficult to contact the sprocket 403.

  In addition, the rotating body has a plurality of ball receiving portions 432 formed in the circumferential direction and rotates in a state where a game ball is held between the ball receiving portion 432 and the guide surface 424a, whereby the rotating body is first moved from the rounded passage 401. The sprocket 403 is conveyed to the lifting passage 402A. The sprocket 403 has a concave groove 433 formed continuously over a plurality of ball receiving portions 432, and at least the elastic piece portion 450A of the elastic member 450 is a concave groove 433. Since the elastic piece 450A can be arranged so as to enter the inside of the sprocket 403, the drive unit 25A can be made compact, and the game ball can be removed from the ball receiver 432. Backflow can be prevented by being conveyed to the first lifting passage 402A while being smoothly separated.

  In addition, the sprocket 403 can be detached from the drive unit 25A in the direction of the rotation shaft 430 by removing the fourth passage member 424 having the elastic member 450 from the drive unit 25A that is the main body of the lifting device 25. Maintenance work and the like of the sprocket 403 can be easily performed.

  Next, a lifting and purifying apparatus 2500 as Example 2 of the present invention will be described with reference to FIGS. FIG. 18A is a cross-sectional view showing a lifting and purifying apparatus as a second embodiment of the present invention, and FIG. 18B is a cross-sectional view showing a state where the main body is moved to an open position. FIG. 19 is a cross-sectional view showing the main part of the lifting and cleaning apparatus. FIG. 20 is a schematic cross-sectional view showing a connection structure between the lifting and cleaning device and the descent groove. FIG. 21 is an LL cross-sectional view of FIG. FIG. 22 is a side view showing the upper part of the main body and the tension unit. FIG. 23 is a plan view showing the upper part of the main body and the tension unit. FIG. 24 is a front view showing the main body and the tension unit. 25A is a cross-sectional view taken along line MM in FIG. 22, and FIG. 25B is a cross-sectional view taken along line NN. 26A is an exploded side view showing the main body and the tension unit, and FIG. 26B is a cross-sectional view taken along line OO in FIG. FIG. 27 is a side view showing the main part of the tension unit. 28A is an enlarged view showing the tip of the lock arm, and FIG. 28B is a cross-sectional view taken along the line P-P in FIG. FIGS. 29A and 29B are explanatory views showing a method of attaching the tension unit. 30A is an explanatory view showing a method of attaching the tension unit, and FIG. 30B is a QQ sectional view of FIG.

  In addition, in the lifting and cleaning apparatus 2500 and the game island 1 of the second embodiment, parts similar to those of the lifting apparatus 25 and the gaming island 1 described in the first embodiment are denoted by the same reference numerals. Detailed description will be omitted. In the first embodiment, the lifting device 25 that lifts the game ball upward by rotating the sprocket 403 as a rotating body is described as an example of the lifting device, but the rotating body is limited to the sprocket 403. The conveyor belt 103 may be applied as described later.

  As shown in FIGS. 18 to 20, the lifting and purifying apparatus 2500 in the second embodiment is transported by a main body 100 provided in a cleaning member fixing housing 350 formed in a rectangular parallelepiped shape, and a transport belt 103 of the main body 100. A lifting path member 358 for forming a lifting path 358A for guiding the played game ball toward the upper tank 3 above, and a cleaning cloth 116 as a cleaning member for cleaning the game ball conveyed by the conveyor belt 103; Consists mainly of. As shown in FIG. 20, the lifting and cleaning device 2500 is disposed at a substantially central position in the longitudinal direction of the game island 1, similarly to the lifting device 25 of the first embodiment. The detailed structure of the main body 100 will be described later.

  In the cleaning member fixing housing 350, a pair of support plates 353 (see FIG. 21) are provided with a cleaning cloth 116 as a cleaning member for cleaning the game ball. Is provided. The cleaning cloth 116 is disposed upward so that the cleaning surface is inclined obliquely upward from the rear side to the front side, and is wound around a winding roller 351 that is pivotally supported by a pair of left and right support plates 353. The rotated cleaning cloth 116 can be wound by rotating a winding roller 352 pivotally supported by a pair of left and right support plates 353. In other words, the dirty cleaning cloth 116 is appropriately wound to draw out the new cleaning cloth 116.

  The main body 100 is disposed along the upper surface of the cleaning cloth 116, and a rotating shaft 102a of the lower roller 102 described later is pivotally supported at a predetermined position of the cleaning member fixing casing 350 (not shown), FIG. As shown, the conveyor belt 103 is swingably provided between a cleaning position where the conveyor belt 103 faces the upper surface of the cleaning cloth 116 and an open position where the conveyor belt 103 does not oppose the upper surface of the cleaning cloth 116. Therefore, the cleaning cloth 116 can be stably supported. Further, when performing the replacement work or the maintenance work of the cleaning cloth 116, the cleaning surface can be easily exposed by swinging the main body 100 from the cleaning position to the open position.

  Further, the main body 100 is provided with a locking portion 355 that can be locked to two locking hooks 354 provided on a support plate 353 that supports the cleaning cloth 116 and the winding roller 351 and the winding roller 352. In the clean position, the locking hook 354 is locked to the locking portion 355 to be held in the clean position. As described above, since the frame plates 100L and 100R constituting the left and right side surfaces of the main body 100 are locked to the cleaning member fixing housing 350, errors in the positional relationship between the frame plates 100L and 100R and the cleaning cloth 116 are less likely to occur. ing.

  Further, the main body 100 is provided with an engaging portion 357 that can be engaged with an engaging hook 356 attached to the cleaning member fixing housing 350, and the engaging hook 356 is engaged with the engaging portion 357 in the clean position. By stopping, it is held in the clean position. Further, the cleaning member fixing housing 350 is provided with a lifting passage member 358 for guiding the game ball P transported by the transport belt 103 upward. The frame plate 100L, 100R can be stably supported by being provided to be able to be locked to the cleaning member fixing housing 350 at the cleaning position facing the outer surface 103a of the conveyor belt 103.

  In the second embodiment, as shown in FIG. 20, the other ends of the connecting rods 10L and 10R, one end of which is connected to the communication port 10a of the flow-down grooves 9L and 9R, are formed at the lower back of the cleaning member fixing casing 350. It is connected to the junction passage 11 that communicates with the inlet 37 to the lifting and purifying device 2500. Therefore, the game balls that have flowed down in the flow-down grooves 9L and 9R and have flowed out of the communication port 10a do not go through the cleaning device 30 as in the first embodiment, but through the connection rod 10L and the merging passage 11, the inflow port 37. To be supplied.

  In the second embodiment, shutter devices 200L and 200R are provided on the connecting rods 10L and 10R. The shutter devices 200L and 200R have movable plates 201L and 201R provided so as to be movable in and out of the connection rods 10L and 10R, and an open position where the movable plates 201L and 201R are retracted upward from the connection rods 10L and 10R. The shutter motors 202L and 202R are moved between the closed positions protruding toward 10L and 10R. That is, in the shutter devices 200L and 200R, the movable plates 201L and 201R are moved to the open position to allow the game ball to flow down to the inlet 37, and the movable plates 201L and 201R are moved to the closed position to play the game. It is possible to change to a non-permitted state where the flow of the sphere to the inlet 37 is not permitted (a restricted state where flow is restricted). In addition, the shutter devices 200L and 200R are disposed at positions where the left and right movable plates 201L and 201R are separated from each other by the same predetermined distance L20 from the substantially central position in the left and right direction of the inlet 37 of the lift cleaning device 2500.

  Further, proximity sensors 210L and 210R that detect game balls that flow down in the flow-down grooves 9L and 9R and are supplied to the flow-in port 37 through the communication port 10a are provided in the flow-down grooves 9L and 9R. Proximity sensors 210L and 210R are arranged at the same predetermined distance L21 from movable plates 201L and 201R, respectively. In this embodiment, the distance L21 is longer than the distance L20, but the distance L21 may be the same as or shorter than the distance L20.

  In the present embodiment, when the shutter devices 200L and 200R are in the non-permitted state, the flow of the game ball is restricted by the movable plates 201L and 201R at the connection rods 10L and 10R, and the upstream side of the connection rods 10L and 10R. The game balls that are lifted and cleaned by the lifting and cleaning device 2500 toward the downflow grooves 9L and 9R are retained (standby). Further, when the game balls are detected continuously by the proximity sensors 210L and 210R for a predetermined time (for example, 10 seconds), the game balls to be lifted and cleaned by the lifting and cleaning device 2500 are dropped from the connection rods 10L and 10R. Assuming that a predetermined amount (for example, the number of game balls retained from the movable plates 201L and 201R to the position where the proximity sensors 210L and 210R are present) stays over 9L and 9R, a condition for starting the lifting and cleaning operation described later is established. To do.

  On the other hand, when the shutter devices 200L and 200R are in the permitted state, the proximity sensors 210L and 210R play the game ball in a state where the flow restriction of the game ball by the movable plates 201L and 201R is released by the connecting rods 10L and 10R and can flow down. Is not detected for a predetermined time (for example, 10 seconds), the game balls to be lifted and cleaned by the lifting and cleaning device 2500 are moved from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R by a predetermined amount (for example, the movable plate 201L). , 201R to the proximity sensors 210L, 210R, the number of game balls staying until a certain position) is not staying more than, the stop condition of the lifting cleaning operation described later is established.

  In the following description, the proximity sensors 210L and 210R are determined to be on when the proximity sensors 210L and 210R detect the game balls continuously for a predetermined time (for example, 10 seconds), and the proximity sensors 210L and 210R determine the game balls. Is not detected for a predetermined time (for example, 10 seconds) or longer, the proximity sensors 210L and 210R are determined to be off. If the proximity sensors 210L and 210R are determined to be on, the proximity sensors 210L and 210R are determined to be on until the proximity sensors 210L and 210R are determined to be off, and the proximity sensors 210L and 210R are determined to be on. If it is determined to be off, the proximity sensors 210L and 210R; the proximity sensors 210L and 210R are determined to be off until determined to be on.

  In this embodiment, the detecting means for determining whether or not the game balls to be lifted and cleaned by the lifting and purifying device 2500 are staying over a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. Although the proximity sensors 210L and 210R are applied, a detection switch other than the proximity sensor may be applied. In the present embodiment, the number of game balls that can stay from the movable plates 201L and 201R to the positions of the proximity sensors 210L and 210R is set in advance, and the proximity sensors 210L and 210R disposed at predetermined locations in the flow-down grooves 9L and 9R are provided. By detecting the game ball, it is determined whether or not the game ball to be lifted and cleaned by the lift and cleaning device 2500 is staying over a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. However, the present invention is not limited to this. For example, the number of game balls discharged from each pachinko gaming machine 2 or out ball tank is counted, and the lift cleaning is performed based on the counted number of game balls. It may be determined whether or not a game ball to be lifted and cleaned by the device 2500 stays more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R, It may be determined based on the weight of the game ball.

  Next, the detailed structure of the lift cleaning apparatus 2500 will be described. As shown in FIGS. 18 to 23, the lift cleaning apparatus 2500 includes a main body 100 and an upper portion of the main body 100 (downstream in the game ball transfer direction). And an upper roller 101 provided to be rotatable around a rotation shaft 101a facing in the left-right direction (horizontal direction) provided on the side and the front side, and a lower part of the main body 100 (upstream side and rear side in the game ball transfer direction). A lower roller 102 provided rotatably around a provided rotation shaft 102a facing in the left-right direction (horizontal direction), and an endless belt shape as a rotating body having a predetermined width spanned between the upper roller 101 and the lower roller 102 The linear belt is provided so as to be rotatable about the conveyance belt 103 and one side of the rear surface side of the main body 100, and extends in an obliquely upward and downward direction and is disposed to face the ascending path of the conveyance belt 103. A clean conveyance path cover 104 that forms a conveyance path 115 (see FIG. 19) and an outer circumferential surface of the upper roller 101 are arranged to face the circumferential surface of the upper roller 101 and press the game ball against the conveyance belt 103. A round-shaped passage cover 105 that forms a round-shaped passage 105 </ b> A that is formed in a substantially arcuate shape, and a lower roller that is disposed to face the peripheral surface of the lower roller 102 and presses the game ball against the conveyor belt 103. Mainly from a sphere introduction passage cover 106 that forms a sphere introduction passage 106A formed in a substantially arc shape along the outer peripheral surface of 102, and a rear passage cover 122 that is disposed to face the descending path of the conveyor belt 103. It is configured.

  As shown in FIGS. 21 to 23, the main body 100 includes a frame plate 100 </ b> L as a long plate-like first frame plate, and a long plate-like second frame plate that is arranged apart from the frame plate 100 </ b> L. Frame plate 100R, two rotating shafts 101a and 102a installed on one end side and the other end side in the longitudinal direction between the left and right frame plates 100L and 100R, and the front sides of the left and right frame plates 100L and 100R A plurality of guide shafts 109a are provided between the rotary shafts 101a and 102a at predetermined intervals so that both ends are supported by the left and right frame plates 100L and 100R, and the left and right frame plates 100L and 100R A guide shaft 107a provided at a position near the rotation shaft 102a on the side and supported at both ends by the left and right frame plates 100L and 100R; Is configured, these rotary shafts 101a, 102a, guide shafts 109a, a pair of left and right frame plates 100L by the guide shaft 107a, is 100R are integrated in a state of being spaced so as to be parallel to each other.

  In addition, notch recesses 150a and 150b having a substantially triangular shape in side view are formed between the upper roller 101 and the guide roller 107 on the rear long sides 100a and 100b of the frame plates 100L and 100R, respectively. The notch recesses 150a and 150b are formed at the same position in the longitudinal direction of the rear long sides 100a and 100b facing each other with the conveyance belt 103 sandwiched between the frame plates 100L and 100R.

  A guide roller 107 is rotatably provided on the guide shaft 107a, and a guide roller 109 is rotatably provided on each guide shaft 109a. Further, guide rollers 140 provided on the rear long sides 100a and 100b of the frame plates 100L and 100R, respectively, are provided so as to be rotatable around guide shafts 140a projecting from the rear end surfaces 100c and 100d and facing in the front-rear direction. A plurality of rear long sides 100a and 100b are provided at predetermined intervals in the longitudinal direction. As described above, the conveyor belt 103 stretched between the upper roller 101 and the lower roller 102 is guided to the inner surface 103b by the plurality of guide rollers 107 and 109, and is prevented from bending inwardly. The side end surfaces are guided by the left and right guide rollers 140 to prevent left and right meandering (see FIGS. 22 and 23).

  The rounded path cover 105 and the ball introduction path cover 106 disposed to face the outer surface 103a of the conveyor belt 103 press the game balls against the conveyor belt 103 that is circulated by the rotation of the upper roller 101 and the lower roller 102 to convey the game balls. The passage member for doing is constituted.

  The lower roller 102 is a driving roller that is driven by an unillustrated lift cleaning motor 80, and the upper roller 101 is a driven roller, and rotates in the direction of the arrow in FIG. 18 (clockwise as viewed from the right side). It has become. Further, as shown in FIG. 18, the tension of the conveyor belt 103 can be adjusted to a position near the upper portion of the lower roller 102, that is, a position corresponding to the notch recesses 150a and 150b between the upper roller 101 and the guide roller 107. A tension roller 108 is disposed, and a predetermined tension is applied to the conveyor belt 103 by abutting between the upper roller 101 and the guide roller 107 on the outer surface 103a of the conveyor belt 103 and pressing and inwardly pressing. ing.

  The clean conveyance path cover 104 is composed of a plate-like member extending in the diagonally up and down direction, and is disposed so as to straddle the upper ends of the pair of left and right support plates 353 as shown in FIGS. On the inner surface of the clean transfer path cover 104, as shown in FIG. 21 in particular, a plurality of rows of substantially hemispherical grooves 113 for forming the clean transfer path 115 extending in the vertical direction (in this embodiment, 7) The vertically long passage plates 114 formed side by side are arranged in a state of being biased toward the conveying belt 103 via a plurality of coil springs 117, and the clean conveying passage cover 104 is brought into the closed position. When positioned, a plurality of rows of clean conveyance passages 115 are formed so as to be opposed to the outer surface 103a of the conveyance belt 103 and extend obliquely in the vertical direction by the plurality of concave grooves 113.

  The game balls P in the clean conveyance passages 115 guided by the concave grooves 113 are pressed against the conveyance belt 103 by the passage plates 114, so that the inside of the passages are directed upward by the movement of the conveyance belt 103. It is moved and lifted. That is, the surface (inner surface) facing the game ball P in the passage plate 114 constitutes the transfer surface of the game ball P.

  Further, on the inner surface side of the passage plate 114, a cleaning cloth 116 as a cleaning member that cleans by sliding contact with the game ball P that is transferred in each passage is laid, so that the cleaning cloth 116 is interposed through the cleaning cloth 116. When the game ball P is pressed toward the transport belt 103 by the passage plate 114, the game ball P is transferred while being slidably contacted (contacted) with the cleaning cloth 116 due to the movement of the transport belt 103. P is cleaned (polished) as it is lifted. That is, the lifting and cleaning apparatus 2500 in the present embodiment lifts the game ball P while cleaning it.

  The cleaning cloth 116 has a belt shape and is stretched in the vertical direction (from the upstream side to the downstream side in the game ball transfer direction) along the inner surface of the passage plate 114 of the cleaning conveyance passage cover 104. The upper side of the stretched cleaning cloth 116 is folded outward and downward at the upper end portion (downstream folding portion) of the cleaning conveyance path cover 104, and is then wound around the winding roller 351. The lower side is folded outward and downward at the lower end portion (upstream side folded portion) of the clean conveyance path cover 104 and is then wound around a winding roller 352.

  In this embodiment, the cleaning cloth 116 is automatically drawn out to the cleaning section through the take-up roller or the like. However, the unused section is manually pulled out and arranged in the cleaning section. You may make it do.

  As shown in FIG. 18, the clean conveyance path 115 formed by the clean conveyance path cover 104 is formed on the lower side of the main body 100, that is, on the ascending side of the conveyance belt 103 from the rotation shaft 101a to the rotation shaft 102a. Yes. Then, the game ball P transferred upward in the clean transfer passage 115 is transferred from the rounded passage 105A to the lifting passage 358A and finally discharged into the upper tank 3.

  As shown in FIG. 19, the rounded path 105 </ b> A (see the halftone dot area in FIG. 19) has a substantially arc-shaped guide surface 105 a that guides the game ball transported in the clean transport path 115. The passage 358A (see the hatched area in FIG. 19) is provided so as to extend upward from the upper end portion of the rounded passage 105A. Further, the conveyor belt 103 as a rotating body is rotatably provided at a position facing the guide surface 105a, and is pressed toward the guide surface 105a by the upper roller 101, whereby the outer surface 103a of the conveyor belt 103 is provided. And the guide surface 105a. Therefore, the lower roller 102 is rotationally driven by a lifting and cleaning motor 80 (not shown), and the upper belt 101 and the lower belt 102 are made to circulate. The game ball P pressed against the guide surface 105 a by the outer surface 103 a is conveyed while rolling along the guide surface 105 a by the movement of the conveyance belt 103.

  Also, a one-way clutch 405 that is provided at a lower position of the lifting passage 358A and prevents the game ball from flowing backward from the lower position, and is provided closer to the rounded passage 401 than the one-way clutch 405, the first lifting And an elastic member 450 that prevents a game ball that has been transported to the passage 402A but not transferred to the one-way clutch 405 from flowing back into the rounded passage 401.

  In the second embodiment, the one-way clutch 405 and the elastic member 450 are provided on the front wall 358C of the lifting passage member 358. The elastic member 450 is attached so that the tip protrudes into the lifting passage 358A through a hole 358E formed in the front wall 358C, and the game ball conveyed from the rounded passage 105A is the third piece 451c ( When the game ball passes through (see FIG. 10), the third ball 451c is elastically deformed by pressing the third piece 451c toward the front wall 358C, thereby allowing the game ball to pass. After passing through the piece 451c, the third piece 451c returns to the rear wall 358D side due to the elastic force, so that the passed game ball is held on the fourth piece 451d (see FIG. 10) and dropped, that is, backflow is caused. It comes to stop.

  Further, when the elastic member 450 is provided on the front wall 358C side in this way, the third piece 451c and the fourth piece 451d in the elastic member 450 are placed on the lower side of the game ball conveyed to the lifting passage 358A. If the game ball is supported by being in contact with and supported by the rear wall 358D from the center, the game ball can be held close to the front wall 358C, that is, the opposite side of the upper roller 101. Contact can be avoided.

  Thus, the elastic member 450 is not limited to that attached to the rear wall 358D on the rotating body (upper roller 101) side in the lifting passage 358A as in the first embodiment. It may be provided on either the front wall 358C or the left and right side walls, which are the walls facing the roller 101).

  The second backflow prevention means is not limited to an elastic member configured to be elastically deformable. For example, the second backflow prevention means protrudes into the first lifting passage 402A to prevent the backflow of the game ball and the first lifting A blocking member provided so as to be movable between a retracted position for retracting from the passage 402A and a biasing means such as a spring for constantly biasing the blocking member toward the blocking position are provided, so that the game ball is a round path. When moving from 401 to the first lifting passage 402A, it retreats to the retreat position against the urging force of the urging means to allow passage, and when the game ball passes, the urging force of the urging means moves from the retreat position It may move to the blocking position and block the movement of the game ball from the first lifting passage 402A to the rounded passage 401. The blocking member urged by the urging means in this way is also included in the elastic member.

  When the blocking member is in the blocking position, the lower part of the game ball that has passed through the blocking member and moved to the first lifting passage 402A is supported by the blocking member, but the upper surface of the blocking member (supporting game ball) Is formed so as to incline downward toward the front wall 358C, so that the game ball can be held close to the front wall 358C, that is, the opposite side of the upper roller 101. Can be avoided.

  In addition, the elastic member 450 guides the game balls from the rounded passage 105A to the lifting passage 358A and sends them one by one, and the gaming balls sent to the lifting passage 358A fall downward and enter the rounded passage 105A. The second backflow prevention means of the present invention is configured to hold the backflow so as not to flow back.

  In the second embodiment, as shown in FIG. 19, the game ball that has flowed into the inflow port 37 is guided from the ball introduction passage 106 </ b> A to the clean transfer passage 115, and slides on the clean cloth 116 on the way up the clean transfer passage 115. After being cleaned by contact, when reaching the rounded path 105A, the rounded path 105A is conveyed while being sandwiched between the outer surface 103a of the transport belt 103 and the guide surface 105a. Then, when reaching between the rounded path 105A and the lifting path 358A, the movement in the circumferential direction is restricted by the rear wall 358D and guided to the lifting path 358A extending upward from the downstream end of the guide surface 105a. The

  The lower part of the game ball conveyed to the lifting path 358A is supported by the elastic member 450, and the backflow from the lifting path 358A to the round path 105A is prevented, so that the game ball stays in the lifting path 358A. Each time the succeeding ball is guided to the lifting passage 358A, it is pushed upward, and a plurality of game balls stay in the lifting passage 358A in a daisy chain. Further, when there is no following ball, the lower part of the lowest game ball among the game balls in the lifting passage 358A is supported by the elastic member 450, so that the backflow is prevented by being held in the lifting passage 358A. The

  Further, when the game ball whose lower part is supported by the fourth piece 451d (see FIG. 10) of the elastic member 450 is pushed up by the succeeding ball, it contacts the periphery of the sprocket 405A of the one-way clutch 405 and rotates the sprocket 405A. And is held between the ball receiving portion of the sprocket 405A and the inner surface of the rear wall 358D. Here, since the sprocket 405A is restricted from turning clockwise when viewed from the front, if the sprocket 405A is held between the ball receiving portion of the sprocket 405A and the inner surface of the rear wall 358D, the downward movement, that is, the backflow is not generated. Be blocked.

  In the present embodiment, among the game balls that have passed through the elastic member 450 and are transported to the lifting passage 358A, the game ball whose lower part is supported by the fourth piece 451d and the four games above the game ball. The load of the ball acts on the elastic member 450, and the load of the game ball above the fifth game ball acts on the ball receiving portion of the sprocket 405A.

  That is, the load of a plurality of game balls including the game ball P3 above the sprocket 405A of the one-way clutch 405 acts on the sprocket 405A, and the load of the four game balls between the sprocket 405A and the elastic member 450 Acts on the elastic member 450.

  Further, since the game ball supported from below by the elastic member 450 is completely detached from the outer surface 103a of the transport belt 103, even if the rotation of the transport belt 103 is continued without the subsequent ball, There is no risk of damaging the conveyor belt 103 in contact with the outer surface 103a.

  A sphere introduction passage 106A formed by the sphere introduction passage cover 106 described above is formed below the cleaning conveyance passage 115, that is, upstream, from an inlet 37 provided at the lower back of the cleaning member fixing housing 350. The inflowing game ball is guided toward the upper clean conveyance path 115.

  Next, details of the main body 100 will be described with reference to FIGS. As shown in FIGS. 21 to 26, the main body 100 includes a rotating shaft 101 a having one frame plate 100 </ b> L and the other frame plate 100 </ b> R arranged so as to be substantially parallel to the frame plate 100 </ b> L. , 102a, the guide shaft 109a, and the guide shaft 107a constitute a single structure. In this embodiment, the frame plates 100L and 100R are integrated by the rotation shafts 101a and 102a, the guide shaft 109a, and the guide shaft 107a, but may be integrated by a connecting frame other than these shaft members. .

  As shown in FIG. 26, the cutout recesses 150a and 150b are formed in a substantially triangular shape in a side view opened to the rear side, and at least the opening width L3 is longer than the diameter L4 of the tension roller 108 (L3> L4). The depth L3 ′ is shorter than the diameter L4 of the tension roller 108 (L3 ′ <L4). The depth L3 'may be the same dimension (L3' = L4) as the diameter L4 of the tension roller 108 or a long dimension (L3 '> L4). In the present embodiment, as will be described later, in a state where the conveying belt 103 is pressed and urged, the front half of the tension roller 108, more specifically, the rotation shaft is arranged to the front of the rear long sides 100a and 100b. It has a possible depth L3 ′, and is formed at the same position in the longitudinal direction of the rear long sides 100a and 100b facing each other with the conveying belt 103 sandwiched between the left and right frame plates 100L and 100R.

  The conveyor belt 103 has a left-right width dimension L2 that is smaller than the separation width dimension L1 between the left and right frame plates 100L, 100R, and the upper roller 101, so as to go outside the peripheral edges of the frame plates 100L, 100R. It is stretched over the lower roller 102, guide rollers 107 and 109, and tension roller 108. The upper roller 101, the lower roller 102, and the guide rollers 107 and 109, excluding the tension roller 108, are disposed inside the endless conveyance belt 103 and are in contact with the inner surface of the conveyance belt 103. The tension roller 108 The outer surface 103a of the conveyor belt 103 is disposed outside the endless conveyor belt 103 and abuts between the upper roller 101 and the guide roller 107 so that the outer surface 103a of the conveyor belt 103 is depressed inward. To do. Thereby, the conveyance belt 103 moves up and down along the edges of the notch recesses 150a and 150b when it reaches the notch recesses 150a and 150b.

  Next, the tension unit 160 including the tension roller 108 will be described. The tension unit 160 includes a tension roller 108 and a support 161 that supports the tension roller 108. The support 161 has a substantially upward U-shape in plan view by a pair of left and right support arms 162a and 162b fixed to the outer surfaces of the frame plates 100L and 100R and a connecting piece 162c that connects the upper ends of the pair of left and right support arms 162a and 162b. An arm member 162, a guide member 163 having a U-shaped side-view forwardly attached to the connecting piece 162c with a screw, and a bearing having a front-right-side U-shape provided so as to be movable obliquely back and forth with respect to the guide member 163. Mainly composed of a member 164 and a lock member 165 attached to the arm member 162 for maintaining the state in which the arm member 162 is locked to the outer surface of each of the frame plates 100L and 100R.

  As shown in FIG. 26 (A), shaft support grooves 170a and 170b extending toward the connecting piece 162c are formed on the lower ends of the support arms 162a and 162b, respectively, on the outer side surfaces of the frame plates 100L and 100R. It can be pivotally supported by the projecting pivotal support member 180. As shown in FIG. 26 (B), the shaft support member 180 includes a shaft support portion 180a and a head portion 180b having a larger diameter than the shaft support portion 180a formed at the tip of the shaft support portion 180a. By inserting the shaft support grooves 170a and 170b into the shaft support portion 180a, the support arms 162a and 162b can be supported so as to be able to swing while the movement in the axial direction is restricted.

  Further, locking grooves 171a and 171b extending toward the rear long side are formed at predetermined positions on the front long side of the support arms 162a and 162b, respectively, and protruded from the outer surfaces of the frame plates 100L and 100R. The locking member 190 can be locked. As shown in FIG. 26B, the locking member 190 includes a locking portion 190a and a head 190b having a larger diameter than the locking portion 190a formed at the tip of the locking portion 190a. By inserting the locking grooves 171a and 171b into the locking portion 190a, the movement and swinging of the support arms 162a and 162b in the axial direction can be restricted.

  The length L10 of the shaft support portion 180a is slightly longer than the thickness of the support arms 162a and 162b, and the length L11 of the locking portion 190a is longer than the thickness of the support arms 162a and 162b. The length is slightly shorter than the sum of the thickness of the support arms 162a and 162b and the thickness of the lock piece 178 described later, and the locking grooves 171a and 171b are locked to the locking portion 190a as described later. In this state, a lock piece 178 described later can be press-fitted.

  Shaft holes 172a and 172b for pivotally supporting the lock member 165 are formed at positions separated rearward from the locking grooves 171a and 171b. In addition, guide rollers 195 for guiding the left and right side surfaces of the conveyor belt 103 are rotatably supported via shaft members 196 that are inclined in the vertical direction at positions near the shaft holes 172a and 172b on the inner surfaces of the support arms 162a and 162b. Has been.

  As described above, the arm member 162 is supported to be swingable with respect to the frame plates 100L and 100R by inserting the shaft support grooves 170a and 170b into the shaft support member 180. Specifically, at least a part of the tension roller 108 and the bearing member 164 is a first position (see FIG. 29B) where at least a part of the tension roller 108 and the bearing member 164 is disposed in the notch recesses 150a and 150b. Is supported so as to be able to swing between the second position (see FIG. 29A) where the notch recesses 150a and 150b are not disposed, and the locking grooves 171a and 171b are engaged with the locking member 190 at the first position. Locked to the stop 190a.

  As shown in FIG. 22, the diameter L7 of the upper roller 101 and the lower roller 102 is longer than the short width dimension L8 orthogonal to the rear long sides 100a, 100b of the frame plates 100L, 100R (L7> L8). ) The left and right width dimension L2 (see FIG. 23) of the conveyor belt 103 is smaller than the separation width dimension L1 (see FIG. 23) of the frame plates 100L and 100R (L2 <L1), and the frame plates 100L and 100R, respectively. Guide rollers 140 and 195 as guide portions for guiding the left and right side surfaces of the conveyor belt 103 are provided on the inner surfaces of the rear end surfaces 100c and 100d and the support arms 162a and 162b, which are part of the peripheral end surface of The conveyor belt 103 is outside the rear end faces 100c, 100d of the frame plates 100L, 100R, and the frame plates 100L, 1 Since the guide rollers 140 and 195 can be disposed on the rear end surfaces 100c and 100d of the frame plates 100L and 100R by orbiting between 0R, the guide rollers 140 and 195 are disposed between the frame plates 100L and 100R. In addition to making the separation width dimension L1 of the frame plates 100L and 100R shorter than the case, the guide rollers 140 and 195 are provided on the support arms 162a and 162b, so that the positions near the notch recesses 150a and 150b. Also, the guide roller 195 can be disposed.

  The lock member 165 includes a pair of left and right lock arms 175a and 175b disposed on the outer surface sides of the support arms 162a and 162b, and a connecting piece 175c that connects one side of the lock arms 175a and 175b. Shaft holes 176a and 176b are formed in the lock arms 175a and 175b, and the shaft holes 172a and 172b and the shaft holes 176a and 176b are formed in a state where the lock arms 175a and 175b are arranged outside the support arms 162a and 162b. By matching and inserting the shaft members 177a and 177b (see FIG. 23) from the outside, the arm member 162 is provided with a lock member 165 that can swing around the shaft members 177a and 177b.

  Specifically, as shown in FIG. 27, the lock member 165 has a lock position (solid line position in FIG. 27) in which the lower side of the connecting piece 175c is close to the rear side of the support arms 162a and 162b with respect to the arm member 162. The upper end of the connecting piece 175c is pivotally supported between the unlocking position (the two-dot chain line position in FIG. 27) in contact with the rear side of the support arms 162a and 162b, and is always locked by a coil spring (not shown). It is urged to rotate toward the position side.

  As shown in FIGS. 27 and 28A, lock pieces 178 are formed at the tips of the lock arms 175a and 175b, respectively. The lock piece 178 is disposed along one edge side of the locking grooves 171a and 171b at the locking position, and a locking projection 178a is formed on the locking grooves 171a and 171b side. Further, as shown in FIG. 28 (B), the lock piece 178 has a predetermined plate thickness, and the outer surface thereof has a tapered surface inclined toward the support arms 162a and 162b toward the locking grooves 171a and 171b. 178b is formed, and is formed in a substantially wedge shape in cross section so that the plate thickness gradually becomes thinner toward the locking grooves 171a and 171b.

  As shown in FIG. 25, the guide member 163 is composed of a metal plate having a generally U-shaped side view extending along the tension roller 108, and the connection plate 163c is attached to the coupling piece 162c with screws. ing. Through holes 300a and 300b are formed in the front plate 163a, and through holes 301a and 301b are formed at positions corresponding to the through holes 300a and 300b in the rear plate 163b.

  The bearing member 164 has a generally U-shaped shape when viewed from the front by a long plate 164a extending along the tension roller 108 and bearing plates 164b and 164c bent forward from the left and right ends of the long plate 164a. It is composed of a formed metal plate. The left and right ends of the rotation shaft 108a of the tension roller 108 are rotatably supported by the bearing plates 164b and 164c. In addition, guide shafts 302a and 302b project from the rear surface of the long plate 164a, and the guide shafts 302a and 302b are inserted into the through holes 300a, 300b, 301a and 301b of the guide member 163, thereby The member 164 and the tension roller 108 are supported so as to be movable in an oblique front-rear direction with respect to the guide member 163.

  As shown in FIGS. 24 and 25, a support piece 303 is extended upward from the left position of the front side of the long plate 164a. The support piece 303 is connected to the left guide shaft 302a. The mounted fixing member 304 is supported. Further, between the fixing member 304 and the rear plate 163b of the guide shaft 302a, the compression coil spring 305 biases the bearing member 164 and the tension roller 108 away from the guide member 163, that is, toward the conveying belt 103. The urging force against the conveyor belt 103 can be finely adjusted. A stopper 302c is provided at the tip of the guide shafts 302a and 302b, and deviation of the guide shafts 302a and 302b from the through holes 300a, 300b, 301a and 301b is restricted.

  In this embodiment, the compression coil spring 305 that urges the tension roller 108 is provided only on one of the left and right guide shafts 302a. However, the compression coil spring 305 may be provided on the other guide shaft 302b. . In particular, the compression coil spring 305 may not be provided.

  Further, as shown in FIG. 26A, the support 161 configured in this manner is a pivot that supports the arm member 162 having a pair of left and right support arms 162a and 162b and the tension roller 108 in a pivotable manner. A guide member 163 as a support arm and a bearing member 164 are provided, and the guide member 163 and the bearing member 164 as a rotation support arm have a support arm 162a with respect to an arm member 162 having a pair of left and right support arms 162a and 162b. , 162b is attached at an acute angle (for example, angle θ = about 45 degrees) toward the base end side (the shaft support grooves 170a, 170b side) of the arm member 162 as a guide member serving as a rotation support arm. The tension roller 108 is connected to the swing axis of the arm member 162 rather than the case where the 163 and the bearing member 164 are attached at an obtuse angle. It can be arranged close to the shaft support 180a that, the mounting strength of the guide member 163 and the bearing member 164 is improved with respect to the arm member 162.

  Further, when the conveyor belt 103 rotates, the tension roller 108 disposed on the descending path side of the conveyor belt 103 is applied with a backward force, that is, a force in a direction in which the tension roller 108 is separated from the arm member 162. 162 is arranged so that one end is pivotally supported on the outer surface of the left and right frame plates 100L and 100R and the other end is inclined outward so that the other end is arranged outside the conveying belt 103. On the other hand, since the guide member 163 and the bearing member 164 as the rotation support arm are attached at an acute angle, the tension roller 108 is disposed so as to be sandwiched between the conveyance belt 103 and the arm member 162, and thus the arm member 162. Thus, the tension roller 108 can be strongly pressed against the conveyor belt 103. Further, the tension roller 108 can be pressed and urged in a direction substantially orthogonal to the outer surface 103 a of the conveyor belt 103.

  Further, as shown in FIG. 23, the left-right width dimension L5 of the tension roller 108 and the left-right width dimension L6 of the rotation shaft 108a and the bearing member 164 that rotatably support the left-right side portions of the tension roller 108 are Although the frame plates 100L and 100R are longer than the separation width L1 (L5, L6> L1), at least a part of the tension roller 108 and the bearing member 164 can be arranged on the frame plates 100L and 100R. By forming the notch recesses 150a and 150b having a large size, the front portions of the tension roller 108 and the bearing member 164 are arranged in front of the rear long sides 100a and 100b without contacting the frame plates 100L and 100R. It is possible to do.

  Next, how the tension unit 160 configured as described above is attached to the frame plates 100L and 100R will be described with reference to FIGS.

  First, as shown in FIG. 29A, the left and right support arms 162a and 162b are arranged on the outer surfaces of the frame plates 100L and 100R, and the support arms 162a and 162b are substantially orthogonal to the longitudinal direction of the frame plates 100L and 100R. In such a posture, the shaft supporting grooves 170a and 170b are inserted into the shaft supporting portion 180a of the shaft supporting member 180. At this time, the tension roller 108 is disposed at a position away from the guide member 163 by the urging force of the compression coil spring 305.

  Next, as shown in FIG. 29B, the support arms 162a and 162b are rotated counterclockwise as viewed from the right side from the second position where the support arms 162a and 162b are supported by the shaft support portion 180a, and the tension roller 108 is moved to the outer surface of the conveyor belt 103. After abutting against 103a, the outer surface 103a of the conveyor belt 103 is further rotated to press and moved to the first position, and the locking grooves 171a and 171b are locked to the locking portion 190a. When the outer surface 103a of the conveyor belt 103 is pressed, the shaft support grooves 170a and 170b at the upper ends of the support arms 162a and 162b are supported by the shaft support portion 180a, so that the shaft support grooves 170a and 170b of the tension unit 160 are supported. By simply rotating the support arms 162a and 162b so that the end on the opposite side is pressed against the conveyor belt 103, the tension unit 160 can be strongly pressed against the conveyor belt 103, and the tension roller 108 can be pressed against the notch recess 150a. , 150b can be easily arranged. At this time, the tension roller 108 approaches the guide member 163 against the urging force of the compression coil spring 305.

  Next, as shown in FIG. 30 (A), when the support arms 162a and 162b are in the first position, they are rotated clockwise as viewed from the right side so as to push up the upper side of the connecting piece 175c of the lock member 165. The lock member 165 is moved from the unlock position to the lock position. Here, as shown in FIG. 30B, the thin portion on the tapered surface 178b side of the lock piece 178 of the lock member 165 enters between the outer surface of the support arms 162a and 162b and the head portion 180b. Then, by further pushing up the lower side of the connecting piece 175c of the lock member 165, the thin part on the tapered surface 178b side of the lock piece 178 is sandwiched between the outer surface of the support arms 162a and 162b and the head 180b. The inner surfaces of the support arms 162a and 162b are strongly pressed against the outer surfaces of the frame plates 100L and 100R, and the friction resistance exceeds the tension of the conveyor belt 103, whereby the support arms 162a and 162b are pushed back to the second position side. Is prevented and locked (maintained) at the second position.

  In addition, in a state where the support arms 162a and 162b are maintained at the first position by the lock member 165, if a force that pushes the support arms 162a and 162b back to the second position due to the tension of the conveyance belt 103 is applied, the lock member 165 is locked. Since the thin portion on the tapered surface 178b side of the piece 178 enters deeper between the outer surface of the support arms 162a and 162b and the head 180b, the force for locking (maintaining) the support arms 162a and 162b in the second position is increased. It becomes difficult to rotate from the second position.

  Further, since the locking projection 178a is disposed on the opening side of the locking grooves 171a and 171b, the support arms 162a and 162b are likely to be returned from the first position to the second position side by the elastic force of the transport belt 103. When the locking portion 190a comes into contact with the locking projection 178a, the movement from the first position to the second position side is restricted.

  As described above, in a state where the support arms 162a and 162b are maintained at the first position, the tension roller 108 presses and urges the space between the upper roller 101 and the guide roller 107 on the outer surface 103a of the conveyance belt 103 to the front side (inner side). It is recessed so as to form a substantially triangular shape when viewed from the side along the edges of the cutout recesses 150a and 150b. As a result, a predetermined tension is applied to the conveyor belt 103 that is stretched between the upper roller 101 and the lower roller 102.

  The tension roller 108 is disposed on the outer side (rear side) of the descending path on the outer surface 103 a of the conveying belt 103 that is stretched between the upper roller 101 and the lower roller 102, and between the upper roller 101 and the guide roller 107. A predetermined tension is generated in the conveyor belt 103 by pressing a part of the linear portion so as to be recessed toward the frame plates 100L and 100R, but notches 150a and 150b are formed in the frame plates 100L and 100R. Thus, the left and right frame plates 100L and 100R are larger than the left and right width dimension L5 of the tension roller 108 and the right and left width dimension L6 of the rotation shaft 108a and the bearing member 164 that rotatably support the left and right side portions of the tension roller 108. Even if the distance L1 between the two is not long, the tension roller 108, the rotation shaft 108a, Without bringing the receiving member 164 into contact with the frame plates 100L and 100R, the tension roller 108, the rotating shaft 108a, and a part of the bearing member 164 are positioned in front of the rear long sides 100a and 100b of the frame plates 100L and 100R. In other words, since the tension roller 108, the rotation shaft 108a, and a part of the bearing member 164 can be disposed in the notch recesses 150a and 150b, the main body 100 is made with the separation width dimension L1 of the frame plates 100L and 100R as short as possible. Can be miniaturized.

  As a result, the tension unit 160 is prevented from greatly bulging outward, and the separation width dimension L1 of the frame plates 100L and 100R is set to the lateral width dimension L5 of the tension roller 108, the rotary shaft 108a, and the bearing member 164. Since it is not necessary to make it longer than the left and right width dimension L6, the left and right width can be made as compact as possible. Therefore, it is necessary to install the lifting and cleaning device 2500 without securing a large installation space inside the amusement island 1. Is possible.

  In addition, as shown in FIG. 30A, the support arms 162a and 162b are maintained at the first position where the locking grooves 171a and 171b are locked to the locking portions 190a, and the frame plates 100L and 100R are maintained. And a rotation support arm composed of a bearing member 164 and a guide member 163 is provided at an acute angle with respect to the arm member 162, and the guide shafts 302a and 302b of the rotation support arm are conveyed. Since the tension roller 108 is arranged to be urged in a direction substantially orthogonal to the outer surface 103a of the belt 103, the conveying belt 103 can be urged suitably.

  As described above, in the lifting and purifying apparatus 2500 as an embodiment of the present invention, the rounded path 105A having the substantially arc-shaped guide surface 105a for guiding the game ball, and the upper end of the rounded path 105A A feed passage 358 </ b> A extending upward from the guide belt 105, a conveyor belt 103 as a rotating body rotatably provided at a position facing the guide surface 105 a, and a lift cleaning motor 80 as a driving means for rotating the conveyor belt 103. And the lift cleaning motor 80 drives the lower roller 102 to rotate the transport belt 103, whereby the game ball between the transport belt 103 and the guide surface 105a is transported from the rounded path 105A. A lifting and purifying device 2500 that is transported to the passage 358A and pushes up and lifts the game balls in the lifting passage 358A, and is provided at the lower portion of the lifting passage 358A. A one-way clutch 405 serving as a first backflow prevention means for preventing a reverse flow from the lower position downward, and a one-way clutch 405 that is provided closer to the rounded path 105A than the one-way clutch 405 and is conveyed to the lifting path 358A And an elastic member 450 as a second backflow prevention means for preventing a game ball which has not been lifted from flowing back into the rounded path 105A, so that the game ball has been lifted to a predetermined position in the lift path 358A. Is prevented by the one-way clutch 405, the load of the game ball lifted above the one-way clutch 405 is applied to the conveyor belt 103, and the load is applied to the lift cleaning motor 80 via the lower roller 102. This can be prevented and carried from the rounded path 105A to the lifting path 358A. However, the elastic ball 450 prevents the game ball that has been lifted up to the one-way clutch 405 from flowing back into the rounded path 105A, so that the game ball that has not been lifted up to the one-way clutch 405 flows backward. The contact with 103 is prevented from being damaged.

  In this embodiment, as an example of the lifting device, a game ball sandwiched between a conveying belt 103 as a rotating body and a guide surface is conveyed by the rotation of the conveying belt 103, and the clean conveying path 115 is used. However, the present invention is not limited to this, and for example, such a clean transfer passage 115 is not necessarily provided. For example, the cleaning cloth 116 may not be laid in the cleaning conveyance path 115 and may function as a path for simply feeding.

  Further, the rotating body is not limited to the sprocket 403 of the first embodiment and the conveyor belt 103 of the second embodiment. For example, instead of the sprocket 403 of the first embodiment, the upper roller of the second embodiment. 101 or the like may be applied, and in this case, a game ball may be sandwiched and conveyed between the outer peripheral surface of the pulley and the guide surface 105a.

  Also, a frame plate 100L as a long plate-like first frame plate, a frame plate 100R as a long plate-like second frame plate arranged apart from the frame plate 100L, a frame plate 100L, and a frame plate Rotating shafts 101a and 102a as two shaft members installed on one end side and the other end side in the longitudinal direction between the two rotating shafts 101a and 102a. The upper roller 101 and the lower roller 102 as two rotating rollers, the endless belt-like conveyance belt 103 stretched between the upper roller 101 and the lower roller 102, and the outer surface 103a of the conveyance belt 103 are arranged to face each other. Cleaning cloth 116 as a cleaning member, and driving the lower roller 102 to rotate the conveyor belt 103 to convey the conveyor In the lifting and purifying apparatus 2500 that cleans the game balls P sandwiched between the belt 103 and the cleaning cloth 116 while transporting them, the frame plates 100L and 100R have rear long sides 100a and 100b facing each other with the transport belt 103 interposed therebetween. Notched recesses 150a and 150b formed at the same position in the longitudinal direction, a tension roller 108 that applies a predetermined tension to the conveyor belt 103 by being abutted and urged against the outer surface 103a of the conveyor belt 103, and a tension roller 108 And the notch recess 150a has a size that allows the tension roller 108 or at least a part of the support 161 to be disposed, so that the tension roller 108 can be conveyed by the conveyor belt 103. The frame plates 100L and 100R are separated from each other when urged against the outer surface 103a. Without being limited to the width dimension L1, at least a part of the tension roller 108 can be disposed on the inner side of the rear long sides 100a, 100b of the frame plates 100L, 100R. Can do.

  The support 161 has two support arms 162a and 162b supported by the frame plate 100L and the frame plate 100R, respectively, so that the left and right ends of the tension roller 108 are supported by the frame plates 100L and 100R, respectively. It can support stably via the two support arms 162a and 162b.

  In this embodiment, the support 161 is attached by being locked to the frame plates 100L and 100R. However, the present invention is not limited to this and is attached to a place other than the main body 100. Also good. Further, although the left and right end portions of the rotation shaft 108a are supported by the separate frame plates 100L and 100R, they may be supported by either the left or right frame plate.

  Further, the frame plates 100L and 100R are configured so that the support arms 162a and 162b and the tension roller 108 or at least a part of the support 161 are disposed at the notch recesses 150a and 150b in a first position (for example, shown in FIG. 30A). Position) and a second supporting position (for example, the position shown in FIG. 29A) in which at least a part of the tension roller 108 or the support 161 is not disposed in the notch recesses 150a and 150b. 180a and a locking portion 190a to which the locking grooves 171a and 171b provided in the support arms 162a and 162b are locked, respectively. The locking grooves 171a and 171b are locked at the first position in the locking portion 190a. (See, for example, FIG. 29B), the support arms 162a and 162b are pivoted at the second position at the shaft support portion 180. The locking grooves 171a and 171b can be easily locked to the locking portion 190a by swinging (turning) to the first position while being supported and positioned on the tension roller 108 or the support body. At least a part of 161 can be easily arranged in the notch recesses 150a and 150b.

  Further, the shaft support member 180 that supports the support member 161 that supports the tension roller 108 so as to be swingable (turnable) is provided on the frame plate 100L and the frame plate 100R that support the rotation of the transport belt 103. Thus, since the relative position of the tension roller 108 with respect to the transport belt 103 does not change, for example, even when the main body 100 is provided so as to be swingable (movable) (see FIG. 18), the tension roller 108 is always used. Can be pressed at the same position.

  In addition, the support member 161 includes a lock member 165 having a lock piece 178 as a maintenance portion that maintains the engagement state between the engagement portion 190a and the engagement grooves 171a and 171b, and the lock member 165 includes a lock member 165. A maintenance position (for example, the position shown in FIG. 30A) where the piece 178 is press-fitted between the locking portion 190a and the locking grooves 171a and 171b to maintain the locked state, and the lock piece 178 is the locking portion. It is possible to move between a release position (for example, the position shown in FIG. 29A) that is released from between 190a and the locking grooves 171a and 171b and is released from the locked state. By simply moving the lock member 165 relative to the support 161, the locked state between the locking portion 190a and the locking grooves 171a and 171b can be easily maintained or released.

  In the present embodiment, the lock member 165 having the lock piece 178 as a maintaining portion for maintaining the locked state between the locking portion 190a and the locking grooves 171a and 171b is provided. There is no need to provide a maintenance member for maintaining the locked state between the locked portion and the locked portion. Further, the maintaining portion is not limited to the one that maintains the locked state by sandwiching the locking portion and the locked portion, but is moved relative to the locking portion and the locked portion. It may be one that regulates.

  The diameter L7 of the upper roller 101 and the lower roller 102 is longer than the short width dimension L8 orthogonal to the rear long sides 100a and 100b of the frame plates 100L and 100R (L7> L8). The left and right width dimension L2 is smaller than the separation width dimension L1 of the frame plates 100L and 100R (L2 <L1), and the rear end surfaces 100c and 100d of the frame plates 100L and 100R and the inner surfaces of the support arms 162a and 162b, respectively. Is provided with guide rollers 140 and 195 for guiding both side surfaces of the conveyance belt 103 in the width direction, so that the conveyance belt 103 is outside the rear end surfaces 100c and 100d of the frame plates 100L and 100R and the frame plate. By rotating between 100L and 100R, the guide portion is positioned at the rear end of the frame plates 100L and 100R. Since the guide rollers 140 and 195 can be disposed between the frame plates 100L and 100R, the distance L1 between the frame plates 100L and 100R can be made shorter than that when the guide rollers 140 and 195 are disposed between the frame plates 100L and 100R. In addition, since the guide rollers 195 are provided on the support arms 162a and 162b, the guide rollers 195 can be disposed in the vicinity of the notch recesses 150a and 150.

  The support body 161 includes support arms 162a and 162b, and a guide member 163 and a bearing member 164 that rotatably support the tension roller 108. The guide member 163 and the bearing member 164 are attached to the support arms 162a and 162b. On the other hand, the guide member 163 and the bearing member 164 as the rotation support arm are attached to the arm member 162 at an obtuse angle by being attached at an acute angle (for example, about 45 degrees) toward the base end side of the support arms 162a and 162b. As compared with the case, the tension roller 108 can be disposed closer to the shaft support portion 180a serving as the pivot axis of the arm member 162, so that the mounting strength of the guide member 163 and the bearing member 164 with respect to the support arms 162a and 162b is improved.

  In the second embodiment, the tension roller 108 is disposed in the vicinity of the upper roller 101. However, the position of the tension roller 108 is not limited to the position described in the first embodiment. For example, you may arrange | position in the vicinity position of the lower roller 102 in the downward path on the opposite side to the cleaning cloth 116 in the conveyance belt 103.

  FIG. 31 (A) shows an example of the circuit configuration of the lifting and purifying device 2500. 31A is an explanatory diagram showing an example of the circuit configuration of the lift cleaning device, FIG. 31B is a lift cleaning operation, and FIG. 31C is an explanatory diagram showing the setting status of the cleaning start waiting time.

  The lift cleaning apparatus 2500 is equipped with various circuits for controlling the drive of the lift cleaning apparatus 2500. The lift cleaning substrate 221 takes in detection signals from, for example, a lift cleaning control controller 220 for controlling the driving of the lift cleaning apparatus 2500 and proximity sensors 210L and 210R for detecting a game ball. A switch circuit 223 that transmits to the controller 220 for control, an output circuit 224 that transmits a motor drive signal from the controller 220 for lifting and cleaning control to the shutter motors 202L and 202R, and the lifting and cleaning motor 80 are mounted.

  The controller 220 for lifting and cleaning control includes a ROM (ReadOnlyMemory) 230 that stores a program for lifting and cleaning control, a RAM (RandomAccessMemory) 231 that provides a work area for lifting and cleaning control, and a controller for lifting and cleaning control. And a CPU (Central Processing Unit) 232 that executes a control operation and an I / O (Input / Output port) 233.

  Power is supplied to the lifting and cleaning control controller 220 via an inverter 240 for converting power to be supplied to the lifting and cleaning device 2500 from DC power to AC power. Further, as shown in FIGS. 20 and 38, the inverter 240 is housed in a state covered with a metal box 241, and the inverter 240 can be turned on at high speed so that the inverter 240 can freely generate the necessary frequency and voltage. , It is possible to avoid affecting peripheral devices due to noise generated by turning OFF. In addition, the lifting and cleaning control controller 220 is connected to an island controller 250 that is installed on the game island 1 and connected to various devices (for example, the counting device 15 and the like) in the game island 1.

  As shown in FIG. 38, the metal box 241 is composed of a box-shaped main body having an upper surface opened and a lid (not shown) that can open and close the upper surface opening of the main body. Prevents malfunction caused by noise entering from the inverter 240, the lifting and cleaning substrate 221, the power line, etc., and the noise generated in the inverter 240 leaks to the power line, the controller 220 for lifting and cleaning control, etc. A noise filter 243 and a current sensor 242 are provided to prevent leakage of the electronic device, and the upper surface opening is closed with a lid (not shown) so that the periphery of each electronic device is a metal plate. It is to be covered with. Moreover, you may enable it to suppress noise leakage by arrange | positioning a ferrite coil (magnetic material) to wiring.

  As shown in the explanatory diagram of FIG. 31 (B), the controller for lifting and cleaning control 220 uses the lifting and cleaning motor 80 and the shutter of the lifting and cleaning apparatus 2500 based on the detection results of the game balls by the proximity sensors 210L and 210R. Drive control of the motors 202L and 202R is performed. Specifically, the lifting and cleaning control controller 220 sets the shutter devices 200 </ b> L and 200 </ b> R to the non-permitted state in the initial driving state of the lifting and cleaning device 2500. Then, when it is determined that the game ball to be lifted and cleaned by the lifting and cleaning device 2500 from the connecting rods 10L and 10R toward the flow-down grooves 9L and 9R stays and is one of the proximity sensors 210L and 210R; (Proximity sensors 210L, 210R; on), the game balls to be lifted and cleaned by the lifting and cleaning device 2500 are retained for a predetermined amount or more from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. Assuming that the operation start condition is satisfied, the movable plates 201L and 201R are closed by the shutter motors 202L and 202R on the side corresponding to the proximity sensor determined to be on when the set cleaning start waiting time (ta) has elapsed. To the open position to bring the shutter devices 200L and 200R into an allowable state and drive the lift cleaning motor 80 to perform the lift cleaning operation. To start.

  In addition, when it is determined that any of the proximity sensors 210L and 210R; off after starting the lifting and cleaning operation (proximity sensors 210L and 210R; off), the game to be cleaned by the lifting and cleaning device 2500 The shutter motor 202L on the side corresponding to the proximity sensor determined to be off is determined that the ball has not accumulated more than a predetermined amount from the connecting rods 10L, 10R to the flow-down grooves 9L, 9R. , 202R to move the movable plates 201L, 201R from the open position to the closed position and put the shutter devices 200L, 200R into the non-permitted state, and then when the predetermined cleaning stop waiting time (tb) has passed, the pump is cleaned. The driving of the motor 80 is stopped, and the lifting and cleaning operation is stopped.

  This cleaning stop waiting time (tb) is set to the time required for all the game balls that have already passed through the movable plates 201L and 201R to be lifted when the inflow of the game balls to the lift cleaning device 2500 is restricted. It is preferable to do. Specifically, when the movable plates 201L and 201R move to the closed position, in addition to the game balls remaining in the lifting and purifying device 2500, that is, the clean transfer passage 115 and the ball introduction passage 106A, The game balls on the downstream side of 201R, that is, as shown in FIG. 20, all the game balls staying between the movable plates 201L, 201R and the distance L20 from the inlet 37 are supplied into the lift cleaning device 2500. It is the time required for discharging from the discharge port 38. Therefore, when it is determined that the proximity sensors 210L and 210R are off (proximity sensors 210L and 210R; off) and the cleaning stop waiting time (tb) has elapsed, the lifting and cleaning drive of the lifting and cleaning device 2500 is stopped. As a result, all the game balls remaining in the lifting and cleaning device 2500, the joining passage 11 and the gaming balls in the connecting rods 10L and 10R are lifted, and at least the inside of the lifting and cleaning device 2500, that is, the cleaning transport passage 115 and the balls. The lift and clean drive can be stopped after the game ball does not remain in the introduction passage 106A.

  In this way, when the lifting and cleaning drive is performed intermittently, when the lifting drive is stopped, the game ball does not remain in the lifting path (for example, the cleaning conveyance path 115 and the ball introduction path 106A). When the lifting and cleaning drive is resumed, the driving of the lifting and cleaning motor 80 can be started in a state where no load is applied by the game ball (the load applied at the initial driving time can be reduced). Further, since a large load is not applied to the conveyance belt 103 described later at the start of driving, the conveyance belt 103 can be prevented from being damaged.

  It should be noted that when the predetermined cleaning stop waiting time (tb) elapses from when the stop condition for the lift cleaning operation is established in this way, the lift cleaning drive is not stopped, but, for example, the lift cleaning apparatus 2500. A game ball detection sensor or the like is provided at the discharge port 38 (see FIG. 1) to restrict the flow of the game ball into the lifting and purifying device 2500, and within a predetermined time after the detection sensor detects the game ball. The lift cleaning drive may be stopped on condition that a new game ball is no longer detected.

  Further, when carrying out maintenance work or the like of the lifting and cleaning device 2500, the lifting drive of the lifting and cleaning device 2500 can be manually stopped by performing a specific stop operation. However, even in this case, after restricting the flow of the game ball into the lifting and cleaning device 2500 by the shutter devices 200L and 200R, the lifting and cleaning drive of the lifting and cleaning device 2500 is stopped when a predetermined period has elapsed.

  Further, the controller 220 for lifting and cleaning control starts measuring time by the stop period timer from when the proximity sensors 210L and 210R determine that the game balls are not detected for a predetermined time (for example, 10 seconds) and the proximity sensors 210L and 210R; off. The next time until the proximity sensor 210L, 210R continuously detects the game ball for a predetermined time (for example, 10 seconds) and determines that the proximity sensor 210L, 210R; on, that is, the lifting and cleaning operation is stopped. The current stop period (tc) is counted.

  And as shown in FIG.31 (C), when the controller 220 for a lift cleaning control determines with proximity sensor 210L, 210R; on, the time (stop period: tc) time-measured by the stop period timer, When it is within the range of 0 to 30 seconds, it is a cleaning stop waiting time to be described later, and the movable plates 201L and 201R are in the closed position, but the lift cleaning motor 80 is driven, that is, lift cleaning. Since the operation is being executed, the cleaning start waiting time (ta) is not set (ta = 0 seconds), and the movable plate is moved via the shutter motors 202L and 202R on the side corresponding to the proximity sensor that immediately detects the game ball. 201L and 201R are moved from the closed position to the open position to place the shutter devices 200L and 200R in an allowable state, and the feeding and cleaning operation is continued.

  In this embodiment, although not shown in detail in detail, the lifting and cleaning control controller 220 is a predetermined time (for example, 30 seconds) as a cleaning start waiting time (ta) in the startup process of the lifting and cleaning apparatus 2500. Therefore, when the proximity sensors 210L and 210R are first determined to be on after activation, when the cleaning start waiting time (ta) 30 seconds elapses, the shutter on the side corresponding to the proximity sensor is set. The movable plates 201L and 201R are moved from the closed position to the open position via the motors 202L and 202R to place the shutter devices 200L and 200R in an allowable state, and the feeding and cleaning operation is started.

  When the stop period (tc) is within the range of 31 to 120 seconds, 120 seconds are set as the cleaning start waiting time (ta), and 120 seconds have elapsed since the proximity sensors 210L and 210R; At this time, the movable plates 201L and 201R are moved from the closed position to the open position via the shutter motors 202L and 202R on the side corresponding to the proximity sensor that has detected the game ball, so that the shutter devices 200L and 200R are allowed. When the stop period (tc) is 121 seconds or longer, 180 seconds is set as the cleaning start waiting time (ta), and when 180 seconds have elapsed since the proximity sensors 210L and 210R; The movable plates 201L and 201R are moved from the closed position to the open position via the shutter motors 202L and 202R on the side corresponding to the proximity sensor that has detected the game ball, and the shutter devices 200L and 200R are allowed.

  That is, in this embodiment, when the start condition for the lift cleaning operation is established, the lift cleaning operation is started based on the elapse of a predetermined cleaning start waiting time (ta). ta) is changed according to the time from when the previous pump cleaning operation is stopped until a new pump cleaning start condition is satisfied, that is, a different cleaning start waiting time is set according to the stop period. The

  For example, if the time from when the lifting and cleaning operation is stopped until a predetermined amount or more of the game balls stay in the collection passage is short, that is, when there are many pachinko gaming machines 2 that are operating, the upper tank 3 is stored. A short time is set as the cleaning start waiting time so that the supply of gaming balls to the pachinko gaming machine 2 is not interrupted due to a decrease in the amount, so that the cleaning operation is started early. On the other hand, when the time from when the lifting and cleaning operation is stopped until a predetermined amount or more of the game balls stay in the collection passage, that is, when there are few pachinko gaming machines 2 in operation, the upper tank 3 is stored. The supply of gaming balls to the pachinko gaming machine 2 is not immediately interrupted and the cleaning start waiting time is set as a long time, so that the cleaning operation is started with a margin. It becomes possible to perform a clean operation efficiently according to the operating status.

  In this embodiment, when the stop period (tc) is within the range of 31 to 120 seconds, the cleaning start waiting time (ta) is changed (set) to 120 seconds and the stop period (tc) is 121 seconds. In the case of the above, the cleaning start waiting time (ta) is changed (set) to 180 seconds, but the present invention is not limited to this, and the stop period (tc) and the stop The cleaning start waiting time (ta) set according to the period (tc) may be set to a time other than the above.

  In this embodiment, the cleaning start waiting time (ta) is changed (set) to 120 seconds or 180 seconds according to the stop period (tc). It may be possible to change (set) to ta).

  In this embodiment, the timing of changing the shutter devices 200L and 200R corresponding to the proximity sensors 210L and 210R; off to the non-permissible state is the upstream side of the shutter devices 200L and 200R from the inflow port 37. The game ball is in a state of staying until. Specifically, when it is determined that the proximity sensors 210L and 210R are off, the proximity sensors 210L and 210R are movable so that the game balls are retained from the inlet 37 to the upstream side of the shutter devices 200L and 200R. The plates 201L and 201R are arranged at locations separated from the upstream side by the same distance L21.

  That is, after the driving of the lifting and cleaning device 2500 is started, the collected game balls are not newly added, and the game balls staying from the inlet 37 to the proximity sensors 210L and 210R are stored in the shutter devices 200L and 200R. The time required to decrease to the vicinity of the upstream side is about 10 seconds or more, that is, the time required for the proximity sensors 210L and 210R to be determined to be off after the game balls are not detected by the proximity sensors 210L and 210R. It is sufficient that the distance L21 is a time longer than a second. In this way, when the movable plates 201L and 201R move from the open position to the closed position, game balls exist on the upstream side of the movable plates 201L and 201R. It can be prevented from colliding with 201R and being damaged.

  Next, the lifting and cleaning process executed by the lifting and cleaning control controller 220 will be described based on the flowchart of FIG. FIG. 32 is a flowchart showing the control content of the lifting and cleaning process executed by the lifting and cleaning control controller. The lift cleaning process is a process executed in the timer interruption process after the start-up process of the lift cleaning apparatus.

  First, the controller 220 for lifting and cleaning control determines whether or not a cleaning flag indicating that the lifting and cleaning operation of the lifting and cleaning motor 80 of the lifting and cleaning device 2500 is being performed is set in the RAM 231. Is determined (step S101). If the cleaning flag is not set (step S101; No), the cleaning start waiting time (ta) from when it is determined that the start condition for the lift cleaning operation is satisfied until the lift cleaning operation is performed is determined. It is determined whether or not the cleaning start waiting flag shown is set (step S102).

  When the cleaning start waiting flag is not set (step S102; No), whether or not the proximity sensors 210L and 210R are on, that is, the game balls are continuously played for 10 seconds by the proximity sensors 210L and 210R. It is determined whether or not it has been detected (step S103). If the proximity sensors 210L and 210R are not on, it is assumed that the game balls to be lifted and cleaned by the lifting and purifying device 2500 are not staying more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. finish. Further, when the proximity sensors 210L and 210R are on, that is, when the game balls to be lifted and cleaned by the lift and cleaning device 2500 are staying more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. (Step S103; Yes), the count value of the stop period timer is confirmed, and it is determined whether or not the value of the stop period timer is in the range of 31 to 120 seconds (step S104). When the value of the stop period timer is in the range of 31 to 120 seconds (step S104; Yes), a value corresponding to 120 seconds is set in the cleaning start waiting timer (step S105). If the value of the stop period timer is not in the range of 31 to 120 seconds (step S104; No), a value corresponding to 180 seconds is set in the cleaning start waiting timer (step S107). Then, after step S105 or step S107, a cleaning start waiting flag is set (step S106), and the process ends. When the value of the stop period timer is within 30 seconds, the cleaning stop waiting time described later is set and the cleaning flag is set, so that the processing of steps S128 to S130 described later is performed.

  When the cleaning start waiting flag is set (step S102; Yes), the cleaning start timer value is decremented by 1 (step S108), and whether the timer value of the cleaning start waiting timer has become 0, that is, proximity It is determined whether or not the time set in step S105 or step S107 has elapsed since it was determined that the sensors 210L and 210R; off (step S109). When the timer value of the cleaning start waiting timer is not 0 (step S109; No), it is determined that it is the cleaning start waiting time, and the process is ended as it is. When the timer value of the cleaning start waiting timer is 0 (step S109; Yes), the movable plates 201L and 201R are moved from the closed position to the open position (step S110), and the lift cleaning motor 80 is moved. It is driven to start the lifting and cleaning operation (step S111). Then, the cleaning start waiting flag is cleared (step S112), the cleaning flag is set (step S113), and the process ends.

  In addition, when the cleaning flag is set in step S101 (step S101; Yes), the cleaning stop waiting time from when it is determined that the stop condition for the pump cleaning operation is satisfied until the pump cleaning operation is stopped. It is determined whether or not a clean stop waiting flag indicating that it is (tb) is set (step S120). When the clean stop waiting flag is not set (step S120; No), whether or not the proximity sensors 210L and 210R are off, that is, the proximity balls 210L and 210R do not detect a game ball for 10 seconds, which is a predetermined time. If it is not the proximity sensors 210L and 210R; off (step S121; No), the process is terminated as it is. When the proximity sensors 210L and 210R are off (step S121; Yes), the game balls to be lifted and cleaned by the lift and cleaning device 2500 are more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. The moving plates 201L and 201R are moved from the open position to the closed position assuming that they are not staying (step S122), and a value corresponding to 30 seconds, which is the clean stop waiting time, is set in the clean stop waiting timer value (step S123). ) After setting the clean stop waiting flag (step S124), the timer of the stop period timer is started (step S125), and the process ends.

  When the clean stop wait flag is set (step S120; Yes), the timer value of the clean stop wait timer is decremented by 1 (step S126), and it is determined whether the timer value of the clean stop wait timer has become 0. (Step S127). If the timer value of the clean stop waiting timer is not 0 (step S127; No), whether or not the proximity sensors 210L and 210R are on, that is, the proximity sensors 210L and 210R indicate that the game ball is a predetermined time 10 It is determined whether or not it has been detected continuously for a second (step S128). When the proximity sensors 210L and 210R are not on (step S128; No), a game ball to be lifted and cleaned by the lifting and cleaning device 2500 is connected. The processing is terminated as it is, assuming that no more than a predetermined amount has accumulated from the troughs 10L, 10R to the downflow grooves 9L, 9R. Further, when the proximity sensors 210L and 210R are on, that is, when the game balls to be lifted and cleaned by the lift and cleaning device 2500 are staying more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. (Step S128; Yes), since the cleaning stop waiting time is in progress, the value of the stop period timer is in the range of 0 to 30 seconds. Therefore, the movable plate can be moved without setting a predetermined time in the cleaning start waiting timer. 201L and 201R are moved from the closed position to the open position (step S129), the clean stop waiting flag is cleared (step S130), and the process ends. That is, in this case, the lifting and cleaning operation is continuously executed.

  Further, when the timer value of the cleaning stop waiting timer becomes 0 (step S127; Yes), the driving of the lifting cleaning motor 80 is stopped (step S131), and the lifting stop waiting flag and the cleaning flag are cleared. (Step S132), the process ends.

  Next, based on FIG. 33 and FIG. 34, an example of the collection state of game balls accompanying the lifting and cleaning operation will be described. FIGS. 33A to 33C are explanatory views showing an example of the collection state of game balls accompanying the lifting and cleaning operation. 34 (D) to (F) are explanatory views showing an example of the collection state of game balls accompanying the lifting and cleaning operation. Here, the operation statuses of the lift cleaning device 2500, the right shutter device 200R, and the proximity sensor 210R will be described.

  As shown in FIG. 33 (A), when the shutter device 200R is in the non-permitted state, the game balls discharged from each pachinko gaming machine 2 fall into the flow down groove 9R, and from the flow down groove 9R. It flows down toward the connecting rod 10R and is collected. And in the connecting rod 10R, the flow down is restricted by the movable plate 201R in the closed position, so that the game balls to be lifted and cleaned by the lifting and purifying device 2500 are moved from the movable plate 201R of the connecting rod 10R to the flow down groove 9R. It stays (waits) towards.

  As shown in FIG. 33 (B), the game balls newly discharged from the pachinko gaming machine 2 stay one after another at the end of the game ball group. Then, when the tail of the staying game ball group reaches the vicinity of the proximity sensor 210R and the proximity sensor 210R determines that the game ball is detected continuously for a predetermined time of 10 seconds (proximity sensor 210R; on ), Assuming that a predetermined amount or more of the game ball to be lifted and cleaned by the lifting and purifying device 2500 is accumulated from the connecting rod 10R to the flow-down groove 9R, the proximity sensor 210R; When the time (ta) has elapsed, the movable plate 201R is moved from the closed position to the open position, and the lift cleaning motor 80 is driven to start the lift cleaning operation. Thereby, the game ball regulated and retained by the movable plate 201R is guided to the inflow port 37, and flows into the lifting and cleaning device 2500 (see FIG. 33C).

  Further, by performing the lifting and cleaning operation, as shown in FIG. 34 (D), the game ball staying from the inlet 37 toward the flow-down groove 9R through the junction passage 11 and the connecting rod 10R is lifted. On the other hand, if there is a game ball that is discharged and collected from each pachinko machine 2 while being reduced by the feeding and cleaning device 2500, if there is a game ball that is collected from the inflow port 37, it flows into the flow-down groove 9R via the junction passage 11 and the connecting rod 10R. The situation where the game ball is staying towards continues. When the number of game balls taken into the lifting and cleaning device 2500 exceeds the number of game balls discharged and collected from each pachinko gaming machine 2, the number of staying game balls decreases. If the number of game balls taken into the lifting and purifying device 2500 exceeds the number of game balls discharged from each pachinko gaming machine 2 and collected, the staying game balls are maintained or increased.

  Then, when the number of staying game balls decreases and the last of the staying game ball group moves away from the proximity sensor 210R, the proximity sensors 210L and 210R do not detect the game ball for a predetermined time of 10 seconds. As shown in FIG. 34 (E), it is assumed that the game balls to be lifted and cleaned by the lifting and cleaning device 2500 are not retained more than a predetermined amount from the connecting rods 10L and 10R to the flow-down grooves 9L and 9R. 201R is moved from the open position to the closed position.

  As described above, the movable plate 201R is opened by setting the distance L21 so that the movable plate 201R is moved from the open position to the closed position with the game ball on the upstream side of the shutter device 200R. Since there is no situation where there is no game ball on the upstream side when moving from the position to the closed position, the game ball flowing down the connecting rod 10R is prevented from directly colliding with the movable plate 201R.

  Then, if the proximity sensor 210R is determined to be off and the movable plate 201R is moved from the open position to the closed position, the proximity sensor 210R is not turned on again until 30 seconds, which is a cleaning stop waiting time, elapses. The drive of the lift cleaning motor 80 is stopped. Thereafter, the state returns to the state of FIG.

  Next, based on FIG. 35 and FIG. 36, an example of the start and stop status of the lifting and cleaning operation will be described. FIGS. 35A and 35B are timing charts showing the start timing of the lifting and cleaning operation when the stop period is 121 seconds or longer and FIG. 35B is the stop period of 30 to 120 seconds. FIG. 36 is a timing chart showing the start timing of the lifting and cleaning operation when the stop period is 0 to 30 seconds.

  As shown in FIG. 35A, for example, when it is determined that the proximity sensor 210R; on, counting by the cleaning start waiting timer is started from that point, and 30 seconds is set as the cleaning start waiting time (ta1). If the 30 seconds have elapsed, the movable plate 201R moves from the closed position to the open position, and the lift cleaning motor 80 is driven to start the lift cleaning operation.

  When it is determined that the proximity sensor 210R is off during the lifting and cleaning operation, the count by the clean stop waiting timer is started and the count (time count) by the stop period timer is started. Then, when 30 seconds, which is the cleaning stop waiting time (tb), has elapsed, the driving of the lifting and cleaning motor 80 is stopped, and the lifting and cleaning operation ends.

  Next, after it is determined that the proximity sensor 210R; off, and when it is determined that the proximity sensor 210R; on, the value of the stop period timer at that time is 121 seconds or more, that is, the previous proximity sensor 210R; off. 180 seconds are set as the cleaning start waiting time (ta2) when the time of 121 seconds or longer has elapsed since the determination was made. Therefore, when 180 seconds have passed since the proximity sensor 210R; on was determined, the movable plate 201R moves from the closed position to the open position, and the lift cleaning motor 80 is driven to start the lift cleaning operation. Is done.

  Further, as shown in FIG. 35 (B), when it is determined that the proximity sensor 210R; off is determined again after the proximity sensor 210R; off during the lifting and cleaning operation, the value of the stop period timer at that time is determined again. Is 31 seconds to 120 seconds, that is, when the time within 31 seconds to 120 seconds has elapsed since the time when the proximity sensor 210R; was determined to be off, the cleaning start waiting time (ta3) 120 seconds is set. Therefore, when 120 seconds have elapsed since it was determined that the proximity sensor 210R; on, the movable plate 201R moves from the closed position to the open position, and the lift cleaning motor 80 is driven to start the lift cleaning operation. Is done.

  In addition, as shown in FIG. 36A, when the lifting and cleaning operation is executed based on the determination that the proximity sensor 210R on the right side is on, for example, the pachinko gaming machine 2 on the left side of the game island 1 When the number of game balls collected from the vehicle increases and it is determined that the left proximity sensor 210L; on, the value of the stop period timer at that time is within 30 seconds, that is, the previous proximity sensor 210R; off If the time within 30 seconds has elapsed from the time when it is determined, the right proximity sensor 210R; within the cleaning stop waiting time based on the determination that it is off, the right movable plate 201R is in the closed position. However, since the lift cleaning operation by the lift cleaning motor 80 is being executed, the cleaning start waiting time (ta4) is not set, and the left movable plate 201L moves from the closed position to the open position. Rutotomoni, pumped cleaning operation by the pumped cleaning motor 80 is continued.

  As described above, when it is determined that the proximity sensors 210L and 210R; on within the cleaning stop waiting time, that is, when the value of the stop period timer is within 30 seconds, the movable plates 201L and 201R in the closed position are moved. By moving immediately to the open position and continuing the lifting and cleaning operation, it is not necessary to perform useless control such as starting immediately after stopping the lifting and cleaning operation, Since it can be transported to the tank 3, it can be avoided that supply of game balls to the pachinko gaming machine 2 is interrupted.

  In this embodiment, as described above, when it is determined that the proximity sensors 210L and 210R; on within the clean stop waiting time, that is, when the value of the stop period timer is within 30 seconds, the closed position The movable plates 201L and 201R are immediately moved to the open position to continue the cleaning operation. However, a predetermined time (for example, 60 seconds) is set as a cleaning start waiting time, After stopping the feeding and cleaning operation, the lifting and cleaning operation may be newly started after the cleaning start waiting time elapses.

  As described above, in the gaming island 1 as an embodiment of the present invention, the collection baskets 17, 17 as the collection passages for collecting the gaming balls discharged from the plurality of pachinko gaming machines 2 installed, the guide basket 19, the downflow grooves 9L and 9R, the connecting rods 10L and 10R, the merging passage 11, and the lift cleaning device 2500 for cleaning the game balls collected in these recovery passages. 32, whether or not the proximity sensors 210L and 210R are turned on in step S103 in the lifting and cleaning process shown in FIG. 32, that is, the game balls to be lifted and cleaned by the lifting and cleaning device 2500 flow down from the connection rods 10L and 10R. It is determined whether or not a predetermined amount or more is accumulated over the grooves 9L and 9R, and the proximity sensors 210L and 210R are determined in step S103 in the lifting and cleaning process shown in FIG. After determining that it has turned on, when it is determined in step S109 that the timer value of the cleaning start waiting timer has reached 0, the movable plates 201L and 201R are moved to the open position to drive the lifting and cleaning motor. After determining that the proximity sensors 210L and 210R are turned off in S121, when it is determined in step S127 that the timer value of the cleaning stop waiting timer has become 0, the movable plates 201L and 201R are moved to the closed position to be lifted and cleaned. Stop the motor. Further, when it is determined that the proximity sensors 210L and 210R; are turned off in step S121 in the lifting and cleaning process shown in FIG. 32, the lifting and cleaning control controller 220 starts the stop period timer in step S125 and measures the time. When it is determined that the proximity sensors 210L and 210R; are turned on in step S103 in the lift cleaning process shown in FIG. 32, step S105 is performed when the value of the stop period timer is between 31 and 120 seconds in step S104. At 120, the cleaning start waiting timer is set to 120 seconds. When the stop period timer value is not between 31 to 120 seconds at step S104, the cleaning start waiting timer is set to 180 seconds at step S107, and at step S128. Proximity sensors 210L, 210R; When was boss moves the movable plate 201L without setting a value to the cleaning start wait timer, the 201R in an open position.

  In this way, when it is determined that a predetermined amount or more of game balls are staying in the collection passage, the lifting and cleaning operation is started, and it is determined that a predetermined amount or more of game balls is not staying in the collection passage. The lifting and cleaning operation is stopped when the operation is performed, that is, the lifting and cleaning device 2500 can be intermittently driven. Execution is prevented.

  In addition, when the time from when the lifting and cleaning operation is stopped to when a predetermined amount or more of the game balls stay in the collection passage is short, that is, when there are many pachinko gaming machines 2 that are operating, the lifting and cleaning operation is performed faster. The pachinko gaming machine is started, and when the time until a predetermined amount or more of the game balls stay in the collecting passage is long, that is, when there are few pachinko gaming machines 2 in operation, the lifting and cleaning operation is started with a margin. It is possible to efficiently perform the lifting and cleaning operation according to the operation status of 2.

  Further, in the present embodiment, proximity sensors 210L and 210R as detection means for detecting the falling balls 9L and 9R, the connecting rods 10L and 10R, and the game balls staying in the junction passage 11, and the lifting and purifying device 2500 are in proximity. Shutter devices 200L and 200R, which are provided between the sensors 210L and 210R, and are movable means capable of changing between an allowable state allowing the inflow of game balls to the lifting and purifying device 2500 and a non-permissible state not allowed. The controller 220 for lifting and cleaning control determines whether or not the proximity sensors 210L and 210R are turned on in step S103 in the lifting and cleaning process shown in FIG. 32, and the proximity sensors 210L and 210R are turned on in step S121. When it is determined that the shutter has been turned off, the shutter devices 200L and 200R are not allowed in step S122. In step S123, when a value corresponding to 30 seconds is set in the cleaning stop waiting timer in step S123, and then it is determined in step S127 that the value of the cleaning stop waiting timer has become 0, in step S131 The lifting and cleaning motor 80 is stopped.

  In this way, it is possible to prevent the lifting and cleaning operation from being stopped in a state where the game ball remains in the lifting and cleaning device 2500, and the gaming ball can be moved when the shutter devices 200L and 200R are in the non-permitted state. Direct collision with the movable plates 201L and 201R of the shutter devices 200L and 200R can be prevented.

  Further, in this embodiment, by including an inverter 240 for converting the power to be supplied to the lifting and purifying device 2500 from DC power to AC power, and a metal metal box 241 surrounding the inverter 240, It can be avoided that noise generated by using the inverter 240 affects peripheral devices (for example, the controller 220 for lifting and cleaning control, proximity sensors 210L and 210R, various electronic devices of the pachinko gaming machine 2, and the like).

  In the present embodiment, as an example of the cleaning device of the present invention, a lifting and cleaning device 2500 that cleans the game balls collected in the lower part of the game island 1 while pumping them to the upper tank 3 on the upper side of the game island 1. However, the present invention is not limited to this, and the present invention may be applied to a cleaning device having only a cleaning function without transporting the game ball to the upper part of the game island 1. Specifically, for example, a cleaning device to which the present invention is applied may be disposed in a part of the game ball flow path disposed in the game island 1 separately from the lifting device. Further, the cleaning device is not limited to the one provided on the game island 1, and may be used alone at a place other than the game island 1.

  In the present embodiment, when it is determined that the proximity sensors 210L and 210R are off, the driving of the lift cleaning motor 80 is stopped after a predetermined cleaning stop waiting time has elapsed. Is not limited to this, and when it is determined that the proximity sensors 210L and 210R; off, the driving of the lift cleaning motor 80 is immediately stopped without waiting for the elapse of a predetermined cleaning stop waiting time. May be.

  Further, in this embodiment, after the lift cleaning operation is started based on the determination that the proximity sensors 210L and 210R; on, the lift cleaning is performed based on the determination that the proximity sensors 210L and 210R; off. Although the operation stop condition is established, the present invention is not limited to this, and the condition for stopping the lift cleaning operation is established after a predetermined time has elapsed since the start of the lift cleaning operation. It may be.

  Further, in this embodiment, in the lifting and cleaning process shown in FIG. 32, based on the determination that the proximity sensors 210L and 210R; off in step S121, the time measurement by the stop period timer is started in step S125. However, the present invention is not limited to this, and when it is determined in step S121 that the proximity sensors 210L and 210R; off, only the processing of steps S122 to S124 is executed, and in step S131. Based on the fact that the driving of the lift cleaning motor 80 is stopped, the time measurement by the stop period timer may be started.

  FIG. 37 shows an example of the lifting and cleaning process as a modification of the present invention.

  In the above-described embodiment, based on the determination that the proximity sensors 210L, 210R; off in step S121 in the lifting and cleaning process shown in FIG. 32, the time measurement by the stop period timer is started in step S125. However, the present invention is not limited to this, and as shown in FIG. 37, when it is determined in step S103 that the proximity sensors 210L and 210R; on, the processing of steps S104 to 107 is executed. In step S106a, the cleaning start waiting time setting timer may be reset, and the time measurement by the cleaning start waiting time setting timer may be started. In this case, in step S104a, it may be determined whether or not the timer value of the cleaning start waiting time setting timer is 200 to 300 seconds.

  In such a case, based on the determination that the proximity sensors 210L and 210R; on in step S103, the lift cleaning operation is started in step S111, and after the lift cleaning operation is stopped, Next time, when it is determined in step S103 that the proximity sensors 210L and 210R; on, the time from when the previous proximity sensors 210L and 210R; on are determined until the current proximity sensors 210L and 210R; on is determined. Accordingly, the cleaning start waiting time is set (changed) in step S105 or step S107.

  That is, according to the present invention, the time from when it is determined that the proximity sensors 210L and 210R; off to the next time when the proximity sensors 210L and 210R; The present invention is not limited to setting (changing) the cleaning start waiting time according to the stopped time. As in the present modification, the proximity sensor 210L, 210R; 210L, 210R; time until it is determined to be on, that is, the cleaning start waiting time according to the sum of the period in which the previous pump cleaning operation was executed and the period in which the pump cleaning operation was stopped thereafter May be set (changed).

  Also, in the case of this modification, when it is determined in step S103 that the proximity sensors 210L and 210R are on, the time measurement by the cleaning start waiting time setting timer is newly started in step S106a. In step S103, it is determined that the proximity sensors 210L and 210R are turned on, and based on the fact that the driving of the lift cleaning motor 80 is started in step S111, the time measurement by the cleaning start waiting time setting timer is started. You may make it do.

  In the present embodiment, the shutters 200L and 200R are provided on the connecting rods 10L and 10R. However, the present invention is not limited to this, and the connecting rods 10L and 10R are not limited to this, and are arranged in other collection passages such as the downflow grooves 9L and 9R. Such shutter devices 200L and 200R may not be provided. Further, like the shutter devices 200L and 200R of the present embodiment, the shutter devices are not limited to those provided at two positions corresponding to the connecting rods 10L and 10R, but before the inlet 37 in the merging passage 11. Only one may be provided.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

  For example, the lifting and purifying device 2500 of the second embodiment is stretched between an upper roller 101 and a lower roller 102 provided above and below the main body 100, and circulates by the rotation of the upper roller 101 and the lower roller 102. And a lifting and cleaning motor 80 for driving the lower roller 102, and driving the lifting and cleaning motor 80 to rotate the lower roller 102 and rotate the transport belt 103 to lift the game ball. Although the cleaning device 2500 is applied, for example, the conveying belt 103 may be rotated by driving the lift cleaning motor 80 to rotate the upper roller 101.

  In the embodiment, the gaming island 1 is a gaming island on which the pachinko gaming machine 2 can be installed. However, the present invention is not limited to this, and it is possible to collect the gaming balls discharged from the gaming machine. In addition to a normal pachinko gaming machine (the pachinko gaming machine 2 described in the above embodiment) as a first gaming machine that requires a special collection path, for example, a predetermined number of gaming balls circulate inside the gaming machine. The number of loaned balls that are enclosed in a possible manner and loaned in response to a player's loan request, or the number of prize balls given in response to winnings, is added, while the number of game balls used in the game is subtracted and stored. The game can be started by setting a predetermined number of bets for one game using the enclosed pachinko gaming machine (not shown) or the gaming value, and a plurality of types of each of which can be identified Display on a variable display device that can display symbols in a variable manner One game is completed when the result is derived, and a plurality of types of gaming machines are installed including a slot machine (not shown) that can generate a prize according to the display result derived on the variable display device. It may be possible.

  Although not particularly illustrated, for example, a plurality of support members standing at predetermined intervals, and a long plate-like installation plate that is installed at an upper position above the lower end of the support member between the plurality of support members. And a gaming board in which a gaming machine is installed along the longitudinal direction of the installation plate, the installation plate is provided below the installation plate along the longitudinal direction of the installation plate. A first gaming machine that requires related equipment related to the gaming machine disposed on the back side of the waist plate when viewed from the player side that plays a game on the gaming machine, and a second game that does not require the related equipment A plurality of types of gaming machines including a machine, and a mode when the first gaming machine is installed on the installation board, and between the plurality of supports below the installation board by the waist board A first mode in which no player side space is formed, and the second gaming machine is mounted on the installation plate At least a second aspect the player side space at the bottom is formed, may be changed to any of between the plurality of supports in the lower of the mounting plate a manner as it is location.

  As described above, the pachinko gaming machine 2 described in the above embodiment requires related equipment installed in connection with the gaming machine such as a collection passage and a lifting device that can collect the gaming balls discharged from the gaming machine. For example, when a gaming machine installed on the gaming island 1 is changed to a gaming machine that does not require related equipment such as the above-mentioned enclosed pachinko gaming machine (not shown) or slot machine, 2500 becomes unnecessary, and the space for installing the lifting and purifying device 2500 cannot be used effectively. Therefore, as described above, the main body 100 is made as compact as possible, so that it is possible to prevent the cleaning device from interfering as much as possible when installing a gaming machine that does not require related equipment.

DESCRIPTION OF SYMBOLS 1 Game island 2 Pachinko machine 25 Lifting apparatus 25A Drive unit 25B Lifting passage member 401 Earl-shaped passage 402 Lifting passage 403 Sprocket 404 Lifting motor 405 One-way clutch 405A Sprocket 424a Guide surface 430 Rotating shaft 431 Cylindrical member 432 Ball receiving portion 433 Concave groove 441 Left side wall 442 Right side wall 450 Elastic member 450A Elastic piece portion 450B Connecting piece portion 450C Mounting piece portion

Claims (2)

A round-shaped passage having a substantially arc-shaped guide surface for guiding the game ball, a lifting passage extending upward from one end of the round-shaped passage, and a turn rotatably provided at a position facing the guide surface. A moving body, and a driving means for rotating the rotating body, and the driving means rotates the rotating body so that a game ball between the rotating body and the guide surface is removed from the rounded path. A lifting device that is transported to a lifting passage and lifts and lifts a game ball in the lifting passage,
First backflow prevention means provided at a predetermined position of the lifting passage to prevent the game ball from flowing backward from the predetermined position;
The lift that is provided on the rounded passage side of the first backflow prevention means, is separated from the guide surface of the rounded passage and is transported to the lift passage, but is not transported to the first backflow prevention means. Second backflow prevention means for preventing all game balls in the sending passage from flowing back to the rounded passage and coming into contact with the rotating body ;
A lifting device characterized by comprising: Provided on a gaming island comprising a plurality of gaming machines and a counting device for counting gaming media provided corresponding to each of the plurality of gaming machines.
The lifting device according to claim 1.

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