JP5259281B2 - Game ball supply device - Google Patents

Description

  The present invention relates to a game ball supply device that is provided on a game island and supplies game balls to game machines.

  In a conventional game hall, a plurality of gaming machines are arranged along the longitudinal direction of the gaming island, and a supply device for supplying gaming balls to each gaming machine is provided at the upper part of the gaming island.

  As such a supply device, Patent Document 1 discloses that a pair of replenishment baskets inclined at an inclination angle at which a game ball can move by its own weight, and a game ball carried in from the downstream end of one supply basket are moved upward. What is provided with the ball | bowl conveyance unit moved and conveyed to the upstream edge part of the other replenishment rod is disclosed.

The ball transport unit includes a transport drum member having a plurality of fins on the outer periphery, and the fins lift the game ball along the curved surface portion when the transport drum member is rotationally driven.
JP 2008-36234 A

  Since the supply device described in Patent Document 1 conveys a game ball by a fin and a curved surface portion, there is a possibility that the game ball is caught between the fin and the curved surface portion at the entrance portion of the ball transport unit or the like. . In other words, since the game ball is transported from a wide space to a narrow space, the risk of clogging cannot be avoided.

  As a result, during game store operations, if the supply device frequently becomes clogged with game balls and a situation occurs in which game balls are not stably supplied to each gaming machine, May cause serious inconvenience or damage the amusement store.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a game ball supply device that can stably supply game balls to game machines.

According to a first aspect of the present invention, there is provided a gaming ball supply device that is provided on a gaming island in which a plurality of gaming machines are arranged, and that supplies a gaming ball to each gaming machine, and is arranged to be inclined in the longitudinal direction of the gaming island. A first replenishment rod and a slanting in the longitudinal direction of the game island, disposed on the downstream side of the first replenishment rod, the upstream end portion is provided at a position higher than the downstream end portion of the first replenishment rod a secondary supply gutter is provided along the longitudinal direction of the first supply trough and said second supply trough, the game balls that roll the first supply trough and said second supply trough to each gaming machine A plurality of replenishment chutes that are guided, and disposed between the downstream end of the first supply reed and the upstream end of the second replenishment reed, and a game ball from the first replenishment reed to the second replenishment reed and a conveying device for conveying, the conveying device is arranged at a predetermined interval a plurality of hard magnetic material in the circumferential direction on the outer peripheral edge A rotary body rotating about an axis of rotation, is adsorbed to the outer peripheral surface of the rotator game balls by the magnetic force of the hard magnetic material, that the rotary body about the rotary shaft is rotated, game adsorbed The ball is transported to the second replenishing bowl, and the rotating body includes a soft magnetic body disposed between the plurality of adjacent hard magnetic bodies .

According to a second aspect of the present invention, a soft magnetic body disposed on the outer peripheral edge of the rotating body between the hard magnetic body and the rotating shaft so as to overlap with the hard magnetic body is provided .

According to a third aspect of the present invention, the rotating body includes a base drum that rotates about the rotating shaft, and a magnet guide that is disposed along an outer periphery of the base drum and holds the hard magnetic body, The magnet guide constitutes the soft magnetic body .

According to a fourth aspect of the present invention, the hard magnetic body is disposed so that the south pole and the north pole of adjacent hard magnetic bodies are reversed, and the north pole and the south pole are magnetized in the radial direction of the rotating body. It is characterized by. According to a fifth aspect of the present invention, the hard magnetic body is disposed so that the south pole and the north pole of adjacent hard magnetic bodies are reversed, and the north pole and the south pole are magnetized in the circumferential direction of the rotating body. It is characterized by.

According to the first to third invention, the game ball is to be transported by suction to the outer peripheral surface of the rotary member by the hard magnetic material of the magnetic force is disposed on the outer periphery of the rotating body, the game ball transport path Is not structured to be transported from a wide space to a narrow space. Therefore, there is no risk of ball clogging, and game balls can be supplied to the gaming machine stably.

Further, the bead-like game ball is attracted to the outer peripheral surface of the rotating body by the hard magnetic body, the game ball adsorbed on the hard magnetic body, and the magnetic circuit formed by the soft magnetic body, so that the game ball is stably conveyed. be able to.

Further, the hard magnetic member is disposed at predetermined intervals in the circumferential direction of the rotating body, because they are not arranged on the entire periphery of the rotating body, it is possible to suppress the amount of the hard magnetic material. In this way, the cost can be reduced while improving the transport efficiency of the game balls.

According to the fourth and fifth inventions, the adjacent magnetic bodies are arranged so that the S pole and the N pole are reversed, so that the game ball can be efficiently attracted to the outer peripheral surface of the rotating body. , Game ball transport efficiency is improved.

  Embodiments of the present invention will be described below with reference to the drawings.

  First, with reference to FIG. 1, the game island 100 provided with the game ball supply device 1 according to the present embodiment will be described. FIG. 1 is a side view showing the internal structure of the game island 100.

  The amusement island 100 is installed in a game arcade, and is provided with a plurality of gaming machines (not shown) and incidental facilities.

The gaming island 100 has a plurality of gaming machine installation openings 5 arranged in two rows in the longitudinal direction (left and right direction in FIG. 1). In FIG. 1, only the row of gaming machine installation openings 5 on the front side of the gaming island 100 is illustrated, but the row of gaming machine installation openings 5 is also formed on the back side of the gaming island 100. A gaming machine is installed in the gaming machine installation opening 5. Thus, the gaming machine, while being arranged in the longitudinal direction of the game island 100, the lateral direction (direction perpendicular to the paper In its Contact 1), are arranged in a back to back state the combined respective rear.

  Below the gaming machine on the gaming island 100, a lower tank 2 for storing gaming balls used for gaming is provided. The game ball in the lower tank 2 is discharged from the lower tank 2 by the small lifting device 6, passes through the collection basket 7, and is guided to the lifting device 3 provided at approximately the longitudinal center of the gaming island 100.

  The lifting device 3 is a device that lifts the game ball upward while polishing the game ball, and the game ball lifted by the lifting device 3 is guided to the upper tank 4 installed at the upper part of the lifting device 3. It is written.

  Discharge ports 4a through which game balls are discharged are disposed on both the left and right sides of the upper tank 4, and the game balls in the upper tank 4 are attached to each game machine and the game machines attached to the game ports. A game ball supply device 1 is connected to a ball lending machine (not shown) for lending. In FIG. 1, only the game ball supply device 1 connected to one side of the upper tank 4 is shown.

  The game balls supplied from the game ball supply device 1 to the gaming machine are paid out to the player as prize balls from the gaming machine. The paid out game balls are thrown into the ball counter 8 installed on the game island 100 and collected in the lower tank 2. Note that the paid-out game balls may be used for games, and the game balls used for the game are discharged from the gaming machine, passed through the collection basket 7, and guided to the lifting device 3.

  The game balls supplied from the game ball supply device 1 to the ball lending machine are used for games in the game machine, and the game balls discharged from the game machine are guided to the lifting device 3 through the collection basket 7. It is written.

  As described above, the game balls in the game island 100 circulate in the game island 100.

  The gaming ball supply device 1 includes a first supply rod 10 having an upstream end 10 a connected to the discharge port 4 a of the upper tank 4 and inclined in the longitudinal direction of the gaming island 100, and a longitudinal direction of the gaming island 100. The second supply rod 11 is inclined in the same direction as the first supply rod 10 and is arranged in series with the first supply rod 10, the downstream end portion 10b of the first supply rod 10, and the second supply rod 11. And a transport device 12 that transports the game balls discharged from the downstream end portion 10b of the first supply rod 10 to the upstream end portion 11a of the second supply rod 11.

  The first supply rod 10 and the second supply rod 11 are formed at an inclination angle at which the game ball can roll and are fixed to the upper part of the game island 100.

  The transport device 12 is attached to the attachment portion 15 at the upper part of the game island 100, and the first supply so that the upstream end portion 11a of the second supply rod 11 is higher than the downstream end portion 10b of the first supply rod 10. The bag 10 and the second supply rod 11 are connected.

  The first supply rod 10 and the second supply rod 11 are provided with a plurality of supply chutes 13 that guide the rolling game balls to the respective gaming machines along the longitudinal direction.

  The supply chute 13 is disposed on both sides of the first supply rod 10 and the second supply rod 11, and the supply chute 13 on the front side in FIG. 1 is a gaming machine and a ball rental installed on the front side of the game island 100. The game ball is guided to the machine, and the supply chute 13 on the back side guides the game ball to the game machine and the ball lending machine installed on the back side of the game island 100.

  Next, the game ball supply device 1 will be described in detail with reference to FIGS. 2 is an exploded perspective view of the main part of the game ball supply device 1, FIG. 3 is a side view of the main part of the game ball supply device 1, and FIG.

  The transport device 12 includes a rotating body 20 that rotates around a rotating shaft 20a extending in the short direction of the gaming island 100, and the game ball is transferred to the rotating body 20 by the magnetic force of the magnetic body disposed on the outer peripheral edge of the rotating body 20. It is made to adsorb | suck to the outer peripheral surface of and convey. Here, the outer peripheral edge of the rotating body 20 refers to an annular region surrounded by the outer peripheral surface of the rotating body 20 and a circle having a smaller diameter than the outer peripheral surface.

  Both ends of the rotating shaft 20a of the rotating body 20 are rotatably supported by a pair of support plates 31 attached to the attaching portion 15 of the game island 100.

  Since the outer diameter of the support plate 31 is larger than the outer diameter of the rotating body 20, the outer peripheral edge of the support plate 31 serves as a guide portion for preventing the fall of the game ball that is attracted to the outer peripheral surface of the rotating body 20 and conveyed. Function.

  A motor 32 for rotationally driving the rotating body 20 is fixed to one of the pair of support plates 31, and a pulley 33 is fixed to the output shaft of the motor 32. A pulley 34 is also fixed to the rotating shaft 20 a of the rotating body 20, and a belt 35 is wound around the pulley 33 and the pulley 34.

  When the motor 32 is driven to rotate, the rotation is transmitted to the rotating body 20 via the pulleys 33 and 34 and the belt 35, and the rotating body 20 rotates about the rotating shaft 20a.

  As shown in FIG. 4, the rotating body 20 includes a base drum 21 having a rotating shaft 20 a at the center of the shaft, and a magnet guide 22 that is disposed along the outer periphery of the base drum 21 and holds the magnetic body.

  The base drum 21 is a hollow cylindrical member in which the opening portions at both ends of the cylindrical body portion 21a are closed, and is made of a nonmagnetic material such as aluminum.

  The magnet guide 22 is an elongated sheet-like member having a long side equivalent to the outer peripheral length of the base drum 21 and having flexibility, and is wound around the outer periphery of the base drum 21. The magnet guide 22 is made of rubber and is made of a nonmagnetic material.

  The magnet guide 22 may be made of a paramagnetic metal, synthetic resin, or ceramics as long as it is a non-magnetic material. In this case, if the magnet guide 22 is not flexible, it is formed in an annular shape. The base drum 21 is inserted into the outer periphery.

  In the magnet guide 22, a plurality of holding portions 22 a that hold the hard magnetic body 23 are formed through the upper and lower surfaces. The holding portion 22 a extends in the short direction of the magnet guide 22 and is formed at a predetermined interval in the longitudinal direction of the magnet guide 22.

  A plate-like hard magnetic body 23 is fitted exactly in each holding portion 22a. When the magnet guide 22 is wound around the outer periphery of the base drum 21, each hard magnetic body 23 extends in the direction of the rotating shaft 20 a and is disposed at a predetermined interval in the circumferential direction of the rotating body 20.

  A magnet cover 26 for preventing the hard magnetic body 23 from falling off is attached to the outer periphery of the magnet guide 22. The magnet cover 26 is a thin and long film having an inner peripheral surface coated with an adhesive such as glue.

  As a means for preventing the hard magnetic body 23 from falling off, a structure for locking the hard magnetic body 23 to the magnet guide 22 without using the magnet cover 26 may be provided.

  In this specification, a hard magnetic material is a magnetic material that is difficult to magnetize even when an external magnetic field is applied, and that retains its residual magnetization strongly once magnetized, and includes a permanent magnet.

  The soft magnetic material refers to a magnetic material in which magnetization is easily aligned in the magnetic field direction with respect to an external magnetic field, and the retentive force of residual magnetization is small.

  A non-magnetic material means a material that does not interact with a magnetic field.

  The transport device 12 is arranged over the first supply rod 10 and the rotating body 20 and rolls the first supply rod 10 to guide the game ball discharged from the downstream end portion 10 b to the rotating body 20. And a discharge guide 42 that is disposed between the rotating body 20 and the second supply rod 11 and guides the game ball conveyed by the rotating body 20 to the second supply rod 11.

  The supply guide 41 is formed in a U-shape comprising a rolling surface 41a on which the game ball rolls and a guide wall 41b provided on both sides of the rolling surface 41a to prevent the game ball from falling. It is a member and is composed of a non-magnetic material.

  The first supply rod 10 is communicated with the supply guide 41 by inserting the downstream end 10 b into the supply guide 41.

  The rolling surface 41a of the supply guide 41 has a larger inclination than the rolling surface 10c on which the game ball of the first supply basket 10 rolls.

  The first replenishing rod 10 and the supply guide 41 are connected to each other with a step 43 having a rolling surface 10c and a rolling surface 41a equal to or more than one gaming ball. That is, a step 43 equal to or more than one game ball is provided between the downstream end portion 10 b of the first supply rod 10 and the rolling surface 41 a of the supply guide 41. As a result, the game ball discharged from the downstream end portion 10 b of the first supply rod 10 falls down the step 43 and is guided to the rolling surface 41 a of the supply guide 41.

  The downstream side of the rolling surface 41a of the supply guide 41 faces the outer peripheral surface of the rotating body 20 with a gap through which the game ball cannot pass. As a result, only foreign matters such as dust guided to the supply guide 41 pass between the rolling surface 41a and the outer peripheral surface of the rotating body 20, so that the game ball rolling on the supply guide 41 is prevented from falling. The foreign matter guided to the supply guide 41 can be collected.

  The discharge guide 42 is disposed in the guide member 44 and a U-shaped guide member 44 that is provided standing on both sides of the bottom portion 44 a and a guide wall 44 b for preventing the game ball from dropping. And a guide plate 45 that guides the game ball adsorbed on the outer peripheral surface of the rotating body 20 to the second supply rod 11. The guide member 44 and the guide plate 45 are made of a nonmagnetic material.

  The second supply rod 11 communicates with the guide member 44 by inserting the upstream end portion 11 a into the guide member 44. Further, the guide plate 45 communicates with the second supply rod 11 by inserting the downstream end portion 45 c into the second supply rod 11.

  The rolling surface 45a of the guide plate 45 is larger in inclination than the rolling surface 11c on which the game ball of the second supply basket 11 rolls.

  At the upstream end of the rolling surface 45 a of the guide plate 45, a cylindrical guide rod 45 b is formed that is engaged with the end of the bottom 44 a of the guide member 44 and that is in sliding contact with the outer peripheral surface of the rotating body 20. .

  The guide rod 45b is formed over the entire width direction of the outer peripheral surface of the rotating body 20.

  As the rotating body 20 rotates, the outer peripheral surface of the rotating body 20 and the guide rod 45b are in sliding contact with each other. However, since the outer peripheral shape of the guide rod 45b is circular, the friction generated between the two is small.

  The game balls that are attracted to and transported by the outer peripheral surface of the rotating body 20 are guided away from the outer peripheral surface of the rotating body 20 to the rolling surface 45a of the guide plate 45 by contacting the guide rod 45b. Since the outer peripheral shape of the guide rod 45b is circular, the game ball adsorbed on the outer peripheral surface of the rotating body 20 is smoothly guided to the guide plate 45 along the outer peripheral shape of the guide rod 45b.

  A downstream end 45 c of the rolling surface 45 a of the guide plate 45 is connected to the rolling surface 11 c of the second supply rod 11. For this reason, the game ball rolling on the guide plate 45 is smoothly guided to the second supply rod 11. Instead of the guide plate 45, a gum tape may be applied across the bottom 44a of the guide member 44 and the rolling surface 11c of the second supply rod 11, and both may be smoothly connected via the gum tape.

  As described above, the first supply rod 10 and the second supply rod 11 are disposed such that the upstream end portion 11a of the second supply rod 11 is higher than the downstream end portion 10b of the first supply rod 10. The game ball guided from the first supply rod 10 to the rotating body 20 through the supply guide 41 is attracted to the outer peripheral surface of the rotating body 20 by magnetic force, and is connected to the second supply rod 11 by the rotation of the rotating body 20. 42 is conveyed.

  By the way, when there are few operation | movement of the game machine arrange | positioned at the game island 100, the game ball in the game ball supply apparatus 1 may increase and may become excessive. As a countermeasure, an overflow sensor 47 for detecting a state in which the second supply rod 11 is filled with game balls is disposed near the upstream end of the second supply rod 11. When the gaming machine is filled with the game ball from the downstream side of the second supply rod 11 and the game ball is filled to the position where the overflow sensor 47 is disposed, the game machine is mounted on the game island 100 from the overflow sensor 47. A signal is output to the transport control device (not shown), and the transport control device outputs a stop command to the motor 32 to stop the rotation of the rotating body 20. Thereby, since the operation of the transport device 12 is stopped, the transport of the game ball from the first supply rod 10 to the second supply rod 11 is stopped, and the game ball in the second supply rod 11 is prevented from overflowing. The

  Next, the operation of the game ball supply device 1 will be described mainly with reference to FIGS. 3 and 5 to 7. FIG. 5 is a diagram illustrating a process in which a game ball is transported by the transport device 12, FIG. 6 is a diagram illustrating a comparative example of FIG. 5, and FIG. It is a figure which shows the state currently conveyed.

  The game balls that have rolled the first supply basket 10 and have not flowed into any supply chute 13 are rotated from the first supply basket 10 through the supply guide 41 as shown in FIGS. 5 (a) and 5 (b). Guided to the body 20.

  Here, since the rolling surface 41 a of the supply guide 41 has a larger inclination than the rolling surface 10 c of the first supply rod 10, the game ball rolls vigorously on the rolling surface 41 a of the supply guide 41. . Therefore, as shown in FIG. 5 (b), even if game balls are in a continuous state on the rolling surface 41a, the game balls discharged to the supply guide 41 after that ride on the continuous game balls. Therefore, since it rolls on the game ball, it can easily reach the vicinity of the outer peripheral surface of the rotating body 20.

  On the other hand, as shown in FIG. 6A, when the inclination of the rolling surface 41a of the supply guide 41 is equal to or smaller than the inclination of the rolling surface 10c of the first supply rod 10, Since the momentum of the game balls rolling on the supply guide 41 is weak, the game balls discharged to the supply guide 41 later cannot roll on the connected game balls and are supplied to the first supply rod 10. It accumulates in the vicinity of the connecting portion of the guide 41 and hardly reaches the outer peripheral surface of the rotating body 20.

  Further, since a step 43 equal to or more than one game ball is provided between the downstream end portion 10b of the first supply rod 10 and the rolling surface 41a of the supply guide 41, as shown in FIG. Even if the game balls are connected to the rolling surface 41a, the game balls discharged to the supply guide 41 later are discharged onto the connected game balls. It is easy to reach the vicinity.

  On the other hand, as shown in FIG. 6B, there is no step between the downstream end portion 10b of the first supply rod 10 and the rolling surface 41a of the supply guide 41, and both are smoothly communicating. In such a case, it is difficult for the game balls to be stacked, so that it is difficult to reach the outer peripheral surface of the rotating body 20.

  As described above, by increasing the inclination of the supply guide 41 and providing a step between the supply guide 41 and the first supply rod 10, as shown in FIG. The sphere can be caused to flow into a region that is easily influenced by the magnetic field surrounded by the rolling surface 41 a of the supply guide 41 and the outer peripheral surface of the rotating body 20. As a result, the number of game balls in the vicinity of the outer peripheral surface of the rotator 20 increases, so that the game balls are easily attracted to the outer peripheral surface of the rotator 20 by the action of the magnetic field.

  The game ball that has reached the vicinity of the outer peripheral surface of the rotating body 20 by the supply guide 41 is attracted to the hard magnetic body 23 by the magnetic field exerted by the hard magnetic body 23 disposed on the outer peripheral edge of the rotating body 20.

  Since the game ball attracted to the hard magnetic body 23 is magnetized, another game ball is attracted and magnetized by the magnetized game ball. In this way, the game balls are adsorbed in a bead shape as shown in FIG.

  Moreover, as shown in FIG. 7, the adjacent hard magnetic material is disposed so that the S pole and the N pole face each other. Therefore, the game ball adsorbed in a bead shape with the hard magnetic body 23 as a base point is also adsorbed to the adjacent hard magnetic body 23. Thus, the game ball is adsorbed in a bead shape across the adjacent hard magnetic bodies 23, that is, along the outer peripheral surface of the rotating body.

  7 shows the hard magnetic body 23 in which the N pole and the S pole are magnetized in the circumferential direction of the rotating body 20, but as shown in FIG. 8, the N pole and the S pole are arranged in the radial direction of the rotating body 20. You may use the hard magnetic body 23 by which the pole was magnetized.

  Here, if the supply guide 41 is a soft magnetic body, when the game ball in the supply guide 41 is attracted to the hard magnetic body 23, the hard magnetic body 23, the game ball in the supply guide 41, and the supply The guide 41 constitutes a magnetic circuit. For this reason, as shown in FIG. 6C, the game balls are connected over the hard magnetic body 23 and the supply guide 41, and the game balls are not efficiently attracted to the outer peripheral surface of the rotating body 20. For this reason, the supply guide 41 being a non-magnetic material is a requirement for efficiently transporting game balls. The supply guide 41 is made of, for example, austenitic stainless steel such as SUS304.

  If the supply guide 41 is made of a non-magnetic material, the rotating body 20 and the first supply rod 10 are separated by the non-magnetic material, so that a magnetic field is applied to the game ball rolling on the first supply rod 10. And it becomes a difficult structure. Therefore, the first replenishing rod 10 has no restrictions on material selection and can be freely selected from the viewpoint of cost. For example, it is cheaper than SUS304, and can also be composed of SUS430, which is a soft magnetic material.

  The game balls adsorbed in a rosary shape on the outer peripheral surface of the rotating body 20 are conveyed along with the rotation of the rotating body 20, and as shown in FIG. By coming into contact with the guide rod 45 b, it is guided away from the outer peripheral surface of the rotating body 20 to the rolling surface 45 a of the guide plate 45 and flows into the second supply rod 11. In this way, the game balls discharged from the downstream end portion 10 b of the first supply rod 10 are conveyed to the upstream end portion 11 a of the second supply rod 11.

  According to the above embodiment, the following operational effects are obtained.

  Since the game ball supply device 1 is configured to attract and transport the game ball to the outer peripheral surface of the rotating body 20 by the magnetic force of the magnetic body disposed on the outer peripheral edge of the rotating body 20, the transport path of the game ball is The structure is not transported from a wide space to a narrow space. Moreover, it is not necessary to provide the rotating body 20 with a member for transporting the game ball. Therefore, there is no risk of ball clogging, and game balls can be supplied to the gaming machine stably. Moreover, the rotary body 20 can be made into a simple structure.

  In addition, the hard magnetic body 23 is disposed at a predetermined interval in the circumferential direction of the rotating body, and the adjacent hard magnetic body 23 is disposed so that the S pole and the N pole face each other. It adsorbs in a bead shape over the matching hard magnetic material 23. Further, since the hard magnetic body 23 is not disposed on the entire outer periphery of the rotating body 20, the usage amount of the hard magnetic body 23 can be suppressed. In this way, the cost can be reduced while improving the transport efficiency of the game balls.

  Next, another embodiment of the present embodiment will be described.

(1) You may comprise the trunk | drum 21a which is an outer peripheral part of the base drum 21 with soft magnetic bodies, such as SUS304. As a result, the base drum 21 of the soft magnetic body faces between the adjacent hard magnetic bodies 23 through the rubber magnet guide 22, and the hard magnetic body 23 and the soft magnetic body rotate on the outer peripheral edge of the rotating body 20. The body 20 is alternately arranged in the circumferential direction.

  By disposing the hard magnetic body 23 and the soft magnetic body in this way, the trunk portion 21a of the base drum 21 that is a soft magnetic body at the ground of the game ball adsorbed in a rosary shape with the hard magnetic body 23 as a starting point can be obtained. Magnetized. As a result, the game balls adsorbed in a bead shape are attracted to the body portion 21 a of the base drum 21 with the magnet guide 22 and the magnet cover 26 therebetween. Thus, a magnetic circuit is formed on the outer periphery of the rotating body 20 by the hard magnetic body 23, the game ball adsorbed in a bead shape, and the body portion 21 a of the soft magnetic body, and the bead-like game ball is the rotating body 20. Adsorb to the outer peripheral surface of Therefore, the game ball adsorbed on the outer peripheral surface of the rotating body 20 is not easily dropped, and is stably conveyed as the rotating body 20 rotates.

(2) Instead of the above (1), as shown in FIG. 9, the magnet guide 22 itself is made of an annular soft magnetic material, and the magnet guide 22 is inserted into the outer periphery of the base drum 21 to You may make it comprise integrally.

  If comprised in this way, since the hard magnetic body 23 and the soft magnetic body will be alternately arrange | positioned by the circumferential direction on the outer peripheral surface of the magnet guide 22, it will become easy for the magnetic force of a soft magnetic body to act on a game ball, and a game The sphere is easily adsorbed by the outer peripheral surface of the rotating body 20.

(3) If the hard magnetic bodies 23 adjacent to each other satisfy the condition that the S pole and the N pole are disposed facing each other, the hard magnetic bodies 23 are disposed at a predetermined interval in the circumferential direction of the rotating body 20. Instead, the hard magnetic body 23 may be disposed in the circumferential direction of the rotating body 20 without a gap. In this case, the game balls are adsorbed in a rosary shape on the boundary portion between the adjacent hard magnetic bodies 23. Therefore, as the number of the hard magnetic bodies 23 increases, the number of portions to which the game balls are attracted increases, and the transport efficiency of the game balls improves. It will be.

  The present invention is not limited to the above-described embodiment, and it is obvious that various modifications can be made within the scope of the technical idea.

  The game ball supply device of the present invention can be applied as a device for supplying game balls to game machines. Note that the gaming machine is not limited to the pachinko gaming machine as shown in the above embodiment, and for example, other pachinko gaming machines, arrange ball gaming machines, sparrow ball gaming machines, slot machines and the like. It is applicable to all gaming machines that use

It is a side view which shows the internal structure of amusement island. It is a principal part exploded perspective view of the game ball supply device concerning an embodiment of the invention. It is a principal part side view of the game ball supply apparatus which concerns on embodiment of this invention. It is a disassembled perspective view of the conveyance apparatus in the game ball supply apparatus which concerns on embodiment of this invention. It is a figure which shows the process in which a game ball is conveyed by the conveying apparatus. It is a figure which shows the comparative example of FIG. It is a figure which shows the state in which the game ball is adsorb | sucked and conveyed by the outer peripheral surface of a rotary body. It is a figure which shows the other form of a hard magnetic body. It is a figure which shows the other form of the game ball supply apparatus which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Game ball supply apparatus 4 Upper tank 10 1st supply rod 10b Downstream end part 10c Rolling surface 11 Second supply rod 11a Upstream end part 11c Rolling surface 12 Conveying device 13 Supply chute 20 Rotating body 20a Rotating shaft 21 Base drum 21a Body 22 Magnet guide 22a Holding portion 23 Hard magnetic body 26 Magnet cover 41 Supply guide 41a Rolling surface 42 Discharge guide 43 Step 44 Guide member 45 Guide plate 45a Rolling surface 45b Guide rod 100 Amusement Island

Claims (5)

In a gaming ball supply device that is provided on a gaming island where a plurality of gaming machines are arranged and that supplies gaming balls to each gaming machine,
A first replenishment rod disposed inclined in the longitudinal direction of the game island;
A second supply rod that is inclined in the longitudinal direction of the game island and is disposed on the downstream side of the first supply rod, the upstream end portion of which is higher than the downstream end portion of the first supply rod;
Arranged along the longitudinal direction of the first supply trough and said second supply trough, a plurality of supply chute for guiding the game ball rolling on the said first supply trough and said second supply trough and said each game machine When,
A transfer device disposed between a downstream end portion of the first supply rod and an upstream end portion of the second supply rod to convey a game ball from the first supply rod to the second supply rod; Prepared,
The transfer device
A plurality of hard magnetic bodies are arranged on the outer peripheral edge at a predetermined interval in the circumferential direction, and include a rotating body that rotates around a rotation axis,
Adsorbed game balls on the outer circumferential surface of the rotating body by the magnetic force of the hard magnetic material, that the rotary body about the rotary shaft rotates, carries the adsorbed game balls to said second supply trough,
The game ball supply device , wherein the rotating body includes a soft magnetic body disposed between the plurality of adjacent hard magnetic bodies . 2. The game ball according to claim 1, further comprising a soft magnetic body disposed on the outer peripheral edge of the rotating body between the hard magnetic body and the rotating shaft so as to overlap with the hard magnetic body. Feeding device. The rotating body is
A base drum that rotates about the rotation axis;
A magnet guide disposed along the outer periphery of the base drum and holding the hard magnetic body,
The game ball supply device according to claim 1, wherein the magnet guide constitutes the soft magnetic body. The hard magnetic body is disposed so that the south pole and the north pole of adjacent hard magnetic bodies are reversed, and the north pole and the south pole are magnetized in the radial direction of the rotating body. The game ball supply device according to any one of 1 to 3. The hard magnetic body is disposed so that the south pole and the north pole of adjacent hard magnetic bodies are reversed, and the north pole and the south pole are magnetized in the circumferential direction of the rotating body. The game ball supply device according to any one of 1 to 4.

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