JP3601453B2 - Moving object control device and game device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a moving object control device for controlling the movement of a moving object provided with a magnetic field generating means for generating a magnetic field having a predetermined magnetic pole, and a game device provided with the same.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as this type of moving object control device, for example, one applied to a horse racing game device is known. In the horse racing game device, for example, the player predicts the order of arrival of a model horse (moving body) imitating a racehorse that moves on a field portion (moving surface) imitating a course of a racetrack, and thereafter, predicts a plurality of model horses. Watch the race that takes place in the playfield on the field where the horse actually runs. In such a horse racing game machine, the moving body control device provided in the game machine body controls the movement of each model horse, thereby producing an effect of giving a sense of realism to a heated horse racing. In addition, the game is not limited to the horse racing game apparatus, but may be another game apparatus that moves a moving object on the field section, for example, a racing game such as a car racing game, a boat racing game, a wheel racing game, or a soccer game or an ice hockey game. In a game device that performs a competitive game such as the above, the movement control of the moving object is performed by the moving object control device provided in the game device body according to a predetermined program or based on the operation of the player.
[0003]
FIG. 12 is a schematic configuration diagram showing a moving body control device of a horse racing game device disclosed in Japanese Patent Application Laid-Open No. 8-821. In this horse racing game apparatus, a plurality of model horses 60 are arranged on a field 2 where a horse racing game is played, and each model horse 60 moves on the field surface from below the field 2 by the guidance of each guide vehicle 300. The model horse 60 is mounted on a trolley 62 having front and rear wheels, and a magnet for running guide is arranged in a lower front part of the trolley 62. The guidance vehicle 300 travels on a guidance path 301 made of a light-transmissive material provided below the field 2 at a fixed distance. A magnet (magnetic field generating means) 330 for guiding the model horse 60 is provided at an upper part of the guide car 300, and a two-dimensional position detecting element 302 is provided at a lower part.
[0004]
Further, below the guide path 301, XY optical axis drive units 320 for irradiating the two-dimensional position detecting element 302 with the spot light 303 are arranged on the base plate 16 by the number of the guide cars 300. The XY optical axis drive unit 320 includes a spot light projector 321 that irradiates the spot light 303 while swinging in the XY directions, and irradiates the spot light 303 along the moving path of the guidance vehicle 300. The guidance vehicle 300 detects the spot light 303 emitted from the spot light projector 321 by the two-dimensional position detecting element 302, is driven and controlled to follow the spot light 303, and moves along a predetermined moving path. . Then, the model horse 60 is pulled by the magnetic force of the magnet 330 of the guided vehicle 300 and moves following the guided guided vehicle 300. According to this configuration, the movement of the model horse 60 can be controlled by controlling the XY coordinates of the spot light 303 of the XY optical axis driving unit 320. In particular, if the moving body such as the model horse 60 is guided by the magnetic action, the moving body can be moved by the magnetic force, so that there is no need to provide a driving source such as a drive motor on the moving body itself. There is also an advantage.
[0005]
[Problems to be solved by the invention]
However, in the above-mentioned horse racing game machine, in order to control the movement of the model horse 60, it is necessary to arrange the guidance vehicles 300 for guiding the model horse 60 below the field 2, respectively. As described above, in the horse racing game device having a configuration in which the model horse 60 is guided by the guidance vehicle 300, there is a problem that the cost of the guidance vehicle 300 raises the cost of the entire device and adversely affects the cost reduction. The cost of the guided vehicle 300 includes, for example, the manufacturing cost of the guided vehicle 300 and the cost of providing a space for the guided vehicle 300 to travel. Further, in the horse racing game device, a power supply surface 304 is formed on the lower surface of the field 2 in order to supply power to the drive source of the guidance vehicle 300, and the pantograph 305 receiving power from the power supply surface 304 is located above the guidance vehicle 300. Is provided. When the model horse 60 is guided using the guidance vehicle 300, such a configuration is also necessary, which causes an increase in cost.
[0006]
Conventionally, a game device disclosed in Japanese Utility Model Laid-Open No. 6-74191 is known as a device for controlling the movement of a moving object without using the guidance vehicle 300. In this game device, as shown in FIG. 13, a plurality of sheet-like coils 430 arranged in an array along the X-axis and the Y-axis are provided on a bottom surface of an insulating base on which a model horse, which is a moving body, moves. Has been. At the lower part of the model horse, a permanent magnet (magnetic field generating means) is arranged as in the above-mentioned Japanese Patent Application Laid-Open No. 8-821. The coil ends 431 and 432 of each coil 430 are connected to a power amplifier (not shown) that drives each coil 430 via multilayer wiring. In this configuration, according to this publication, each coil 430 is excited by a drive signal from the microcomputer 402 that recognizes the position of each model horse, and the model horse is arbitrarily moved by electromagnetic action by the same well-known operation as a linear motor. The route can be moved. According to this, it is possible to realize the movement control of the model horse without using the guidance vehicle 300.
[0007]
However, since the actual configuration of exciting the respective coils 430 is not described in Japanese Utility Model Application Laid-Open No. 6-74191, the details thereof are unknown. In view of the common technical knowledge of the related art, a switching element for controlling ON / OFF of power supply to each coil 430 is provided on a power supply wiring connecting each coil 430 and a power amplifier, and the switching element and the microcontroller are connected to each other. A configuration is conceivable in which a computer 402 is connected, and the microcomputer 402 controls the excitation of each coil 430 individually. However, in the above-described game device, since a large number of coils 430 are arranged on the entire field surface on which the moving body moves, a drive signal of the microcomputer 402 is output when these coils 430 are controlled on / off independently. The output ports need to be prepared by the number of the coils 430. Such a configuration has very little practicality. Therefore, when on / off control of such a large number of coils 430 is performed, a control method for outputting a drive signal for exciting the coils 430 specified by the XY coordinates or the like from the microcomputer 402 is employed. Is practical.
[0008]
However, such a control method has a problem that it is difficult to simultaneously control the movement of a plurality of model horses because only one of the coils 430 arranged on the field surface can be excited. If the field surface is divided and the coils 430 are specified and excited for each field surface portion, it is possible to simultaneously excite a plurality of coils 430 over the entire field surface. However, in such a configuration, it is difficult to move each model horse in an area close to each other, which degrades the effect such as the realism of a horse race, and further complicates the configuration and increases costs. Also occurs.
[0009]
Further, in the case of a configuration in which the microcomputer 402 controls the excitation of each coil 430, it is necessary to transmit the drive signal from the microcomputer 402 to a switching element for controlling on / off of the power supply to each coil 430. Wiring for drive signals is required. For this reason, a switching mechanism for performing on / off control of the coil 430 is required, such as a wiring for transmitting a drive signal from the microcomputer 402 must be routed to a large number of switching elements of the coil 430 distributed over a wide range. There is also a problem that it becomes complicated and increases the manufacturing cost.
[0010]
The present invention has been made in view of the above problems, and an object of the present invention is to realize a configuration for controlling the movement of a moving body by magnetic action without the need for a guided vehicle, in a simplified manner and at low cost. It is an object of the present invention to provide a movable body control device and a game device provided with the same.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 provides a moving body having a magnetic substance.Formed by the moving surface forming memberIn a moving object control device that performs movement control for moving on a moving surface,Each otherAre arranged at predetermined intervalsReceivingLight means;Located below the moving surface andLight receiving handStepWhen receiving lightOnOn the moving surfaceMagnetic fieldRaiseMagnetismField generating means;eachA light irradiation device for irradiating light to each of the light receiving means, and a magnetic field such that the moving body moves along a moving path of the moving body determined based on predetermined movement control information.Sequentially by the above magnetic field generating meansTo generate the above light irradiation devicebyAbove light receiving meansTolightTeruShootingControlWith light irradiation control meansThen, the light receiving means are collectively arranged in a different place from the magnetic field generating means and in a smaller area than the area where the magnetic field generating means is arranged.It is characterized by the following.
According to a second aspect of the present invention, there is provided a moving body control device for performing movement control for moving a moving body having a magnetic substance on a moving surface formed by a moving surface forming member. And a magnetic field generating unit having magnetic field generating means for generating a magnetic field on the moving surface when light is received is disposed adjacent to each other, and is disposed below the moving surface at a predetermined interval from each other. A light irradiation device for irradiating light to each of the light receiving means, and a magnetic field generating means for generating a magnetic field such that the moving body moves along a moving path of the moving body determined based on predetermined movement control information. And a light irradiation control means for controlling light irradiation of the light receiving means by the light irradiation device.
[0012]
ThisTheseIn the moving object control device, a magnetic field is generated on the moving surface to control the movement of the moving object moving on the moving surface formed by the moving surface forming member.MagnetismField generating means are provided. MagneticThe field generating means generates a magnetic field that can be guided while attracting a moving body having a magnetic material such as iron or a magnet having magnetism in a magnetic field. still, MagneticThe field generating means may be provided integrally with the moving surface forming member or may be provided separately. Further, if each magnetic field generating means is provided so that a magnetic field is generated at a regular position over the entire moving surface, the moving body can be freely controlled on the moving surface, but a part of the moving surface can be controlled. May be provided so that a magnetic field is generated only at In this case, the movable range of the moving body is limited to a part of the moving surface, but the number of magnetic field generating means can be reduced, so that the cost can be reduced. By sequentially generating a magnetic field by each magnetic field generating means, a magnetic force for attracting the moving body is sequentially generated, and the moving body can be moved.
[0013]
Here, each magnetic field generating means in the moving object control device according to the present invention generates a magnetic field when the corresponding light receiving means receives light. Thus, by individually irradiating the light receiving device corresponding to each magnetic field generating means with light from the light irradiation device, each magnetic field generating means can generate a magnetic field. Therefore, when the moving body is moved along the moving path of the moving body determined based on the predetermined movement control information, the moving body is moved using the light irradiation device under the control of the light irradiation control means. By sequentially irradiating light to light receiving means corresponding to each magnetic field generating means for generating a magnetic field for moving along the moving path, it is possible to perform movement control for moving the moving body along the moving path. The predetermined movement control information may be predetermined as determined by a computer program or the like, but may be determined as needed, such as operation information of a player of a game device to which the mobile control device is applied. There may be.
[0014]
As described above, in the moving body control device according to the present invention, by irradiating each light receiving unit with light, a magnetic field is generated by the magnetic field generating unit corresponding to the light receiving unit that has received the light, and the moving body is controlled to move. can do. With such a configuration, it is possible to control the movement of the moving body without using the guidance vehicle required for the horse racing game apparatus disclosed in Japanese Patent Application Laid-Open No. 8-821.
Further, in the moving body control device according to the present invention, the switching mechanism for controlling on / off of the magnetic field for moving the moving body includes the light receiving means and the light irradiation device. In the game device disclosed in Japanese Utility Model Laid-Open No. 6-74191, it is considered that wiring for connecting a microcomputer for controlling on / off of a magnetic field and a switching element for turning on / off a coil as a magnetic field generating means is necessary. In the mobile object control device, such wiring is unnecessary. Therefore, the switching mechanism for performing the movement control is simplified.
Further, in the moving object control device according to the present invention, a predetermined magnetic field generating unit generates a magnetic field by specifying a position of the light irradiation unit and a direction of the light irradiation by the light irradiation control unit. Let it. With this configuration, the problem in the game apparatus disclosed in Japanese Utility Model Laid-Open No. 6-74191, that is, when a microcomputer directly controls all of the switching elements, the movement of a plurality of moving bodies is simultaneously controlled from the viewpoint of practicality. It is possible to solve a problem that is difficult, a problem that it is difficult to move a plurality of moving objects in regions close to each other, and the like.
[0016]
Also,For example, when the magnetic field generating means is composed of a coil, the light receiving means uses a photodiode functioning as a switching element for turning on / off the power supply to the coil, or a photovoltaic cell or a solar cell supplying power to the coil. Can be. When the magnetic field generating means is constituted by a coil, the coil needs to be arranged below the moving surface, but each light receiving means does not necessarily have to be arranged near each coil.No. Therefore, in the moving object control device of the first aspect,,Each light receiving meansPut them together in a different place from each coilIs.This movement control deviceAccording to the method described above, the irradiation area of the light from the light irradiation device can be kept within a narrow range, and the swing width of the light irradiation direction by the light irradiation device and the moving distance of the light irradiation device are reduced, thereby realizing quick movement control. can do.
However, when each light receiving means is arranged at a position distant from the magnetic field generating means as described above, the wiring connecting the light receiving means and the magnetic field generating means becomes longer and more complicated, so that the configuration is complicated and the cost is increased. Therefore,Request2In the mobile control device of, ReceivingLight meansWhenMagnetic field generating meansAnd each otherPlace nearbyInto a magnetic field generating unitIt has a configuration. According to this configuration, the light receiving unit and the magnetic field generating unit form one set, and the configuration is simplified. Note that the swing width in the light irradiation direction by the light irradiation device and the moving distance of the light irradiation device are large, but when the movement of a moving object on a relatively narrow moving surface is controlled, or when the moving object moves at a relatively low speed, In the case of performing movement control, it is possible to realize sufficiently satisfactory movement control.
[0017]
The invention according to claim 3 is the mobile object control device according to claim 1 or 2,The light irradiation control means,A plurality of moving objects moving on the moving surfaceIrradiating the light receiving means with the light irradiating device so that the magnetic field generating means sequentially generates a magnetic field such that each moving body moves along each moving path of the light receiving means.ToSystemThe light irradiation device includes the plurality of moving objects.AboutPart ofEveryToSettingIt is characterized in that
[0018]
In this moving object control device, a plurality of moving objects are collectively moved. When the movement of a plurality of moving bodies is controlled in this way, each moving body moves on a separate moving path, and it is necessary to generate an individual magnetic field for each moving body. Therefore, when movement control is performed using a single light irradiation device, the light irradiation control unit causes the light irradiated from the light irradiation device to light each light receiving unit corresponding to the movement control of all moving objects in a short time. It is necessary to control it so that it goes around. In this case, a light irradiation device or the like that can change the light irradiation position, the light irradiation direction, and the like at a high speed is required.ToTherefore, a very expensive light irradiation device is required, and the cost is increased. Therefore, in the moving object control device according to the present invention, the light irradiation device is connected to the plurality of moving objects.AboutPart ofEveryProvided. This makes it possible to reduce the number of moving objects to be moved and controlled by the light irradiation device, as compared with the case where a single light irradiation device is used. Therefore, even in the case of a light irradiation device or the like having a relatively low ability to change the light irradiation position, the light irradiation direction, and the like, it is possible to sufficiently control the movement of a plurality of moving objects collectively. In particular, if a light irradiation device is provided for each moving object, a light irradiation device having a very simple configuration can be used.
[0019]
According to a fourth aspect of the present invention, in the moving body control device according to the first, second, or third aspect,Magnetic recordingField generating meansOr the above magnetic field generating unitToUpIt has a moving means for moving in response to the movement of the moving object.
[0020]
When moving control is performed so that the moving body freely moves on a relatively wide moving surface, a very large number of magnetic field generating means is used so that a magnetic field can be generated on the entire moving surface.Or magnetic field generating unitNeed to be provided. In this case, the magnetic field generating meansAnd magnetic field generating unitThe cost of the parts and the like constituting the device is increased, and the manufacturing cost of the mobile object control device increases. On the other hand, the magnetic field that is moving the moving body that is moving is generated only in the peripheral part of the moving body, so that the other parts are not involved. Therefore, in the moving object control device according to the present invention, the moving means, MagneticField generating meansOr magnetic field generating unitIs moved in accordance with the movement of the moving object. Thus, the magnetic field generating meansOr magnetic field generating unitMoving the magnetic field, compared to generating a magnetic field on the entire moving surface,Or magnetic field generating unitCan be reduced.
[0021]
According to a fifth aspect of the present invention, in the mobile object control device of the fourth aspect,Magnetic recordingField generating meansOr magnetic field generating unitAnd the respective magnetic fields generated on the moving surface areEach otherA supporting member that supports the moving surface forming member so as to be substantially parallel to the moving surface; And a support member moving means for moving the support member.
[0022]
In this moving object control device, the magnetic field generating meansOr magnetic field generating unitIs supported by a support member such that the respective magnetic fields generated on the moving surface are substantially parallel, and the support member is moved by the support member moving means. This support member moving means generates each magnetic field.meansThe supporting member is moved on the side opposite to the moving surface of the moving surface forming member so that the magnetic field generated by the moving surface penetrates the moving surface at a substantially right angle. With such a configuration, the effect of claim 4 can be obtained relatively inexpensively.
[0023]
According to a sixth aspect of the present invention, in the moving body control device according to the first, second, third, fourth, or fifth aspect, the light is controlled according to a position of a light receiving unit to be irradiated with light under the control of the light irradiation control unit. It has light irradiation device moving means for moving the irradiation device.
[0024]
When using a fixedly arranged light irradiation device having a function of changing the light irradiation direction and irradiating a large number of light receiving means arranged at predetermined intervals with light, the light irradiation device is located far from the position of the light irradiation device When irradiating light to the light receiving means, the angle of incidence of light on the light receiving surface of the light receiving means increases. Since the distance between these light receiving means and the light irradiation device is relatively short due to the space of the device, the number of light receiving means is large, and the larger the deflection angle of the light irradiation direction of the light irradiation device becomes, the larger the incident angle becomes. Also increases. As described above, when the incident angle increases, the spot of light received by the light receiving unit located far from the position of the light irradiation device increases. As a result, for example, the light is also irradiated to the light receiving means adjacent to the aimed light receiving means, and the movement control may become unstable. Also, light energy received by the light receiving means is reduced. As a result, when a photovoltaic cell, a photodiode, or the like is used as the light receiving means, sufficient light energy to generate a magnetic field in the magnetic field generating means cannot be obtained, and Control may become unstable. Therefore, in the moving object control device according to the present invention, the light irradiation device is moved by the light irradiation device moving device according to the position of the light receiving device to be irradiated with light under the control of the light irradiation control device. Therefore, the deflection angle of the light emitted from the light irradiation device in the irradiation direction can be reduced, the incident angle of the light incident on the light receiving unit can be reduced, and stable movement control can be performed. If the light irradiation device moving means is provided as in the present moving body control device, the light irradiation device moving means is controlled to change the light irradiation position of the light irradiation device in which the light irradiation direction is fixed. Alternatively, a configuration may be adopted in which light is irradiated to a predetermined light receiving unit.
[0025]
According to a seventh aspect of the present invention, in the moving body control device of the sixth aspect, the light irradiation device moving means includes a mounting table for mounting the light irradiation device, and a mounting table moving means for moving the mounting table. Which is characterized by having
[0026]
In this moving body control device, the light irradiation device is mounted on a mounting table, and the mounting table is moved by the mounting table moving means. With such a configuration, the effect of claim 6 can be obtained relatively inexpensively.
[0027]
Further, according to an eighth aspect of the present invention, in the game device comprising a moving body moving on a predetermined moving surface, and moving body control means for controlling movement of the moving body, the moving body includes a magnetic substance. And the moving body control means is constituted by the moving body control device according to the first, second, third, fourth, fifth, sixth or seventh aspect.
[0028]
In this game apparatus, the moving body control means for controlling the movement of the moving body provided with the magnetic substance is constituted by the moving body control device according to claim 1, 2, 3, 4, 5, 6, or 7. Therefore, the movement of the moving object can be controlled with the effect of these moving object control devices. Since the moving body is moved by the magnetic action, it is not necessary to provide a driving source such as a drive motor on the moving body itself.
[0029]
Further, according to a ninth aspect of the present invention, there is provided a game apparatus comprising: a plurality of moving bodies that move on a moving course on a moving surface, and a moving body control unit that controls movement of the plurality of moving bodies. In the above, the moving body control means is located below a moving surface corresponding to the traveling course,Each otherAt predetermined intervals, they are arranged along the running course.ReceivingLight means and aboveRecordingRespectively arranged near the light means,The receivingWhen each of the light means receives light,UpOn the moving surfaceMagnetic fieldRaiseMagnetismField generating means, provided separately for the plurality of moving bodies,RecordingA plurality of light irradiation devices that individually irradiate light to the light means, and a plurality of moving devices that individually mount the plurality of light irradiation devices and move around the traveling course. is there.
[0030]
In this game device, it is possible to inexpensively configure the movement control means for stably controlling the movement of each moving object with a game device such as a horse racing game machine in which a plurality of moving objects move on a predetermined traveling course. it can.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a horse racing game machine that is a game device will be described. In the horse racing game machine according to the present embodiment, one or more players predict the order of arrival of the horse racing race performed by the horse racing game machine, and if the prediction is successful, a medal corresponding to the odds of the order of arrival. Can be paid out.
[0032]
FIG. 2 is an external view illustrating an example of the horse racing game machine 1. The horse racing game machine 1 includes a field section 2 provided at a central portion, and a plurality of stations 10 provided so as to surround the field section 2. The field portion 2 is provided with a field surface 4 which is a moving surface simulating a racetrack on which a horse race gate 3 which is a model is placed. The race is developed by the horse running. Around the field section 2, a plurality of speakers 5 for broadcasting live races and cheers are arranged. Above the field unit 2, a display unit 6 for displaying a game name and the like and a lighting device 7 for illuminating the field unit 2 are arranged. The display unit 6 and the lighting device 7 are supported by support columns 8.
[0033]
The station 10 is provided with a display 11 for displaying a game screen according to the progress of the game, and a touch panel 12 superimposed on a display surface of the display 11. When the player touches a predetermined position on the game screen displayed on the display 11 according to the instruction on the game screen, the touch panel 12 detects the position, and the operation content of the player is recognized in the horse racing game machine 1 body. Also, in the station 10, a medal insertion unit 13 into which medals are inserted by the player, a medal payout unit 14 from which medals are paid out to the player, and a magnetic card for recording data necessary for restarting the game are inserted. The magnetic card insertion slot 15 is provided.
[0034]
In the horse racing game machine 1, a race having the same name as the actual central horse racing is sequentially held according to a predetermined cycle. Approximately 60 races are prepared for one year, and for each race, the time for betting medals, that is, the time for purchasing a betting ticket, the time for racing with a model horse, and the race result are displayed. Time is secured. The player can predict the finishing order for each race and freely purchase a betting ticket. This betting ticket is purchased by betting medals, and if the purchased betting ticket matches the result of the race, the number of medals according to the number of medals bet and the odds is paid out as a payout.
[0035]
In the horse racing game machine 1 according to the present embodiment, the field portion 2 is a moving surface forming member and forms the field surface 2. The field surface 2 is provided with a model such as an artificial turf imitating an actual riding ground, a horse run gate 3 and the like, and a model horse as a moving body runs on the field surface 4.
[0036]
FIG. 3 is a control block diagram showing a main control unit for integrally controlling the operation of the horse racing game machine 1, and FIG. 4 is a control block diagram showing a station control unit provided for each of the stations 10. It is.
[0037]
As shown in FIG. 3, the main control unit 100 disposed on the field unit side includes a main control device 101 and a mobile unit control device as a mobile unit control unit for controlling the running of the model horse in the field unit 2. A traveling control device 102 as a light irradiation control unit to be configured, a lighting control device 103 for controlling the lighting device 7, an acoustic control device 104 for controlling cheering, live commentary, and the like flowing through the speaker 5, and processing of a main control device An SRAM 105 and a flash memory 106 for temporarily recording data to be played, and a ROM 107 in which programs required for the game and various databases are stored. The main control device 101 is connected to the travel control device 102, the lighting control device 103, the acoustic control device 104, the SRAM 105, the flash memory 106, and the ROM 107, respectively. The ROM 107 stores a movement control program that is movement control information of each model horse, a database of various data on each horse used in the race, a race schedule, and the like.
[0038]
As shown in FIG. 4, a station control unit 200 provided in each station 10 temporarily records a station control device 201, a medal management device 202 that manages payout of medals and the like, and various data of players. A RAM 203, a magnetic information reader 204 for reading magnetic information of a magnetic card inserted into the magnetic card slot 15, and a magnetic information writer 205 for writing various information such as an ID code on the magnetic card are provided. The station control device 201 is connected to the medal management device 202, the RAM 203, the magnetic information reading device 204, and the magnetic information writing device 205, respectively. Further, the station control device 201 includes a medal insertion sensor (not shown) for detecting a medal inserted through the display 11 and the touch panel 12 and the medal insertion slot 14 shown in FIG. It is also connected to each unit such as a magnetic card driving device (not shown) for driving the magnetic card inserted into the opening 15.
[0039]
As shown in FIGS. 3 and 4, the station control device 201 of each station 10 is connected to the main control device 101 of the field unit 2 so that necessary communication can be performed between them. I have.
[0040]
In the present embodiment, the main control device 101 of the main control unit performs each model according to various data such as parameters of each horse in order to realistically reproduce an actual horse race when a race is held. The movement control of the horse is changed. The contents of the movement control are determined before the start of the race, and the running of the model horse is controlled according to the contents of the movement control. Specifically, the main control device 101 executes a movement control content determination program stored in the ROM 107, and determines the movement control content of each model horse based on various data. The movement control information indicating the contents of the movement control is sent from the main control device 101 to the travel control device 102.
[0041]
Hereinafter, the configuration and operation of a portion that controls the movement of each model horse, which is a characteristic portion of the present invention, will be described.
FIG. 5 is an explanatory diagram illustrating a configuration of the movement control device arranged inside the horse racing game machine 1. A base plate 16 is provided below the field portion 2 forming the field surface 4. The base plate 16 is horizontally supported by a frame 16a and a plurality of reinforcing frames 16b. A pair of guide rails 17 extending in the longitudinal direction of the field portion 2 are fixed on the base plate 16. Also, on the base plate 16, a moving device 18 as a mounting table moving means constituting a light irradiation device moving means movable along the guide rail 17 is arranged.
[0042]
The moving device 18 has a carriage 18a as a mounting table formed in a rectangular parallelepiped box whose upper part is opened. The cart 18a is formed such that the length (total length) of the field portion 2 in the longitudinal direction is about one third of the entire length of the field portion 2. Further, the entire width of the truck 18a is substantially the same as the entire width of the field portion 2. Wheels 18b are attached to lower four corners of the cart 18a. These wheels 18b are rotationally driven by a drive unit 18c including a motor, a reduction mechanism, and the like. Thereby, the moving device 18 can reciprocate along the guide rail 17 in the longitudinal direction of the field portion 2. The moving direction, the moving speed, and the like of the moving device 18 are controlled by a drive control unit (not shown) mounted on the moving device 18, and the drive control unit receives a drive start signal from the main control device 101 to perform a predetermined operation. The moving device 18 is moved in a moving direction, a moving speed, or the like.
[0043]
The same number of light irradiation devices 20 as the number of model horses 60 on the field unit 2 are mounted inside the cart 18a. Each light irradiation device 20 irradiates light O such as laser light having strong directivity upward, and the light O impinges on the lower surface of the field unit 2 located above the moving device 18.
[0044]
FIG. 6 is a schematic configuration diagram of the light irradiation device 20 mounted on the moving device 18. The light irradiation device 20 has a light emitter 21 for emitting light O. The light emitting portion 21 a provided at the tip of the light emitting device 21 projects upward from the upper surface of the casing 22. The light emitting device 21 can arbitrarily set the irradiation direction of the light O by the first moving member 23 and the second moving member 24 that can move horizontally in directions orthogonal to each other.
[0045]
The first moving member 23 is a hollow rectangular frame, and a ball screw 23a extending horizontally in the longitudinal direction of the field portion 2 (hereinafter, referred to as “X direction”) penetrates. The ball screw 23a is engaged with a screw hole provided at a lower portion of the side wall of the first moving member 23, and is supported between the bearing 23b and the first rotary motor 23c. Thus, the first moving member 23 can be horizontally moved in the X direction by rotating the ball screw 23a by the first rotating motor 23c. The first rotation motor 23c is connected to a travel control device 102 of the main control unit 100, and is drive-controlled by the travel control device 102.
[0046]
On the other hand, the second moving member 24 is a rectangular parallelepiped block, and is arranged inside the first moving member 23. The second moving member 24 has a ball screw 24a extending therethrough extending in a horizontal direction orthogonal to the X direction (hereinafter, referred to as “Y direction”). The ball screw 24a meshes with a screw hole provided in a lower part of the side wall of the second moving member 24, and one end thereof is attached to the second rotary motor 24c. Thus, the second moving member 24 can be horizontally moved in the Y direction by rotating the ball screw 24a by the second rotating motor 24c.
[0047]
A ball receiving portion 25b that rotatably supports a ball portion 25a provided below the light emitting device 21 is fixed to the upper surface of the second moving member 22. The ball portion 25a is formed at the lower end of the elastic member 26, and is fitted into the ball receiving portion 28. The light emitting device 21 is attached to the upper end of the elastic member 26. A spherical convex portion 21b is formed on the outer wall of the light emitting device 21. The convex portion is formed by a through hole provided in an upper surface member of a casing 22 through which the light emitting device 21 passes, serving as a ball receiving portion. I support this. With such a configuration, by moving the first moving member 23 and the second moving member 24, the light emitting portion 21a of the light emitting device 21 can be freely directed within a predetermined range around the through hole of the casing 22.
[0048]
Next, the configuration of the field unit 2 to which the light O irradiated from the light irradiation device 20 is applied will be described.
FIG. 1 is an explanatory diagram showing a schematic configuration of guiding a model horse 60 by the light irradiation device 20, and shows a state in which the horse racing game machine 1 is cut in the X direction. The model horse 60 to be movement-controlled includes a model section 61 imitating an actual racehorse, and a bogie section 62 located below the model section 61. The model part 61 is fixed on the carriage part 62. The bogie unit 62 has four wheels at four lower corners thereof. Further, the bogie unit 62 is provided with a permanent magnet 63, and is disposed such that its S extreme portion is located below.
[0049]
The field portion 2 forming the field surface 4 on which the model horse 60 runs is spaced at a predetermined interval as shown in FIG. 7 so that an N-pole magnetic field can be generated over the entire field surface 4. Many magnetic field generating units 30 are arranged in a grid. These magnetic field generating units 30 are approximately 1 cm²It is formed in the size of about. The upper portions of the magnetic field generating units 30 are covered with a thin acrylic plate 2 a made of a nonmagnetic material, and the upper surface of the acrylic plate forms the field surface 4. Each of the magnetic field generating units 30 is provided with a coil L which is a magnetic field generating member constituting a magnetic field generating means, and the coil L is arranged so that a winding axis thereof extends along a vertical direction. On the lower surface of each magnetic field generating unit 30, a light receiving surface 31 of a photodiode D as a light receiving means is exposed, and this lower surface forms the lower surface of the field unit 2.
[0050]
The magnetic field generating unit 30 is configured such that, when the light O from the light irradiation device 20 is received by the light receiving surface 31 of the photodiode D, a current flows through the coil L and an N pole magnetic field is generated at the upper end of the coil. For example, the configuration can be realized by a circuit as shown in FIG. As shown in the figure, the coil L is connected to the collector terminal of the transistor Tr, and the photodiode D functions as a switching element for the base current supplied from the DC power supply 32. The DC power supply 32 is provided outside the magnetic field generation unit 30, and a common DC power supply is used for each magnetic field generation unit 30.
[0051]
When the light O is received by the light receiving surface 31, the photodiode D is turned on, and a base current flows into the transistor Tr. As a result, the transistor Tr is turned on, and a collector current flows. Then, a magnetic field is generated by the collector current flowing through the coil L. The magnetic flux generated by the magnetic field penetrates the acrylic plate 2a above the magnetic field generating unit 30, and generates a magnetic field on the acrylic plate 2a. On the other hand, when the light O is not received on the light receiving surface 31, the photodiode D is in the off state, so that no base current flows through the base terminal of the transistor Tr. Therefore, the transistor Tr is also turned off, so that no collector current flows through the coil L and no magnetic field is generated.
[0052]
In addition to the above configuration, a phototransistor may be used instead of the phototransistor D and the transistor Tr in the circuit illustrated in FIG. Further, for example, as shown in FIG. 9, a circuit in which a solar cell E as a light receiving means is connected to the base terminal of the transistor Tr can be used. This is not very suitable for a configuration that requires
[0053]
The light O emitted from the light emitter 21 of the light irradiation device 20 is determined by the movement of the first moving member 23 and the second moving member 24 under the control of the traveling control device 102 of the main control unit 100. Irradiated in the direction. Then, when the light O is applied to any of the light receiving surfaces of the magnetic field generating unit 30 provided on the field surface 2, a magnetic field is generated on the field surface 4 by the coil L of the magnetic field generating unit 30.
[0054]
Next, a traveling control method using the above configuration will be described.
Prior to the start of the race, the main control device 101 of the main control unit 100 reads data such as various parameters of the horses running in the race and the state of the riding ground from the ROM 107 and determines the order of arrival in the race. In addition, since the order of placing the medals to the player is first and second, it is not necessary to determine all the finishing orders of the horses to run, and it is sufficient to determine at least the first and second horses. . In this case, the running control of the other horses is performed according to various parameters so as not to be in first and second place. The arrival order data, parameters of each horse, and the like determined by the main control device 101 are sent to the travel control device 102.
[0055]
The travel control device 102 that has received the data from the main control device 101 executes a travel control program recorded in a ROM (not shown), and performs movement control for each horse. The running control device 102 that executes the running control program calculates the movement pattern of each horse from the parameters and the like of each horse, and the light irradiation direction of each light irradiation device 20 so that each model horse 60 runs according to the movement pattern. Control. Specifically, in order to generate a magnetic field such that each model horse 60 moves in accordance with the movement pattern of each horse, the light O is irradiated on the light receiving surface 31 of each magnetic field generating unit 30 at a predetermined timing, The light irradiation direction of each light irradiation device 20 is controlled. At this time, the traveling control device 102 controls the rotation of the first rotating motor 23c of the first moving member 23 and the second rotating motor 24c of the second moving member 24 provided in each light irradiation device 20.
[0056]
The travel control device 102 controls the light O from each of the light irradiation devices 20 so that the light O is emitted to the lower surface of the field unit 2 along the planned route of each model horse 60. As a result, a magnetic field is sequentially generated on the field surface 4 along the scheduled travel path of each model horse 60. Since this magnetic field attracts the permanent magnet 63 of each model horse 60, the magnetic action allows each model horse 60 to move along the planned traveling route. Accordingly, each model horse 60 whose traveling is controlled by the traveling control device 102 develops a race in the play field.
[0057]
As described above, according to the present embodiment, the travel control device 102 that controls the movement of each model horse 60 generates a magnetic field at a predetermined position on the field surface 4 by controlling the light irradiation direction of the light irradiation device 20. Can be. In such a mechanism, the on / off control of the switching element (photodiode D) for generating a magnetic field depends on the presence or absence of light irradiation, and from the travel control device 102 to each switching element as in the conventional configuration. No wiring is required. Therefore, the mechanism for controlling the running of the plurality of model horses 60 can be simplified and manufactured at low cost. Further, by providing the light irradiation device 20 for each model horse 60, it is possible to simultaneously generate magnetic fields at a plurality of positions on the field surface 4 and to stably control the movement of the plurality of model horses 60. .
[0058]
In the present embodiment, the light irradiation device 20 is mounted on the moving device 18 so as to be movable below the field unit 2, so that the horse racing game machine 1 having the large field surface 2 can be used. The movement control near the end of the field surface 2 can be stably performed. That is, by moving the light irradiation device 20 in accordance with the movement of the model horse 60, the maximum incident angle of the light O on the light receiving surface 31 can be reduced, so that sufficient light energy is given to the light receiving surface 31. Therefore, the on / off operation of the photodiode D can be stably performed. In addition, by reducing the maximum incident angle in this manner, the spot of the light O irradiated on the lower surface of the field unit 2 can be reduced. Thus, even when the density of the light receiving surface 31 is high, the light O can be applied to the predetermined light receiving surface 31 in a pinpoint manner, and stable movement control can be performed.
[0059]
Further, in the present embodiment, the configuration in which the light irradiation device 20 is provided for each model horse 60 has been described. However, the light irradiation device 20 does not necessarily need to be provided for each model horse 60, and one light is provided for two model horses 60. The irradiation device 20 may be provided, or a single light irradiation device 20 may be provided for all the model horses 60. As described above, when the magnetic field is generated on the planned route of the plurality of model horses 60 by one light irradiation device 20, it can be realized by repeating the control of sequentially generating the magnetic field for each model horse 60. it can. In this case, if the number of model horses 60 carried by one light irradiation device increases, the irradiation time of the light applied to each light receiving surface 31 is shortened. During this time, the configuration is such that a magnetic field is generated. For example, in the circuit shown in FIG. 8, changing the resistor R connected to the base terminal of the transistor Tr to the capacitor C may be mentioned.
[0060]
Further, in the present embodiment, the photodiode D as the light receiving means is arranged near the coil L and is configured as one unit called the magnetic field generating unit 30. However, the light receiving means and the corresponding magnetic field generating means are separately provided. It may be arranged at a place. For example, only the coil L and the like as the magnetic field generating means are arranged in the field unit 2, and the solar cells and the like as the light receiving means for flowing a current through each coil L are all arranged in one place on one side of the field unit 2. I do. By arranging the light receiving means in this way, the light irradiating area where the light irradiating device 20 irradiates the light O to move the model horse 60 is arranged so that the light receiving means is distributed over the entire field surface 4. It can be narrower than. Therefore, even if there is no configuration for moving the light irradiation device 20 using the moving device 18 as in the above embodiment, the maximum incident angle on the light receiving surface 31 can be narrowed, and stable movement control can be performed.
[0061]
[Modification 1]
In the present embodiment, the light irradiating device 20 is configured to reciprocate in the X direction along the field unit 2; however, a configuration in which the light irradiating device 20 is moved by another method will be described below. Example 1) will be described.
FIG. 10 is an explanatory diagram illustrating the configuration according to the first modification. In the first modification, the moving device 18 is moved along the elliptical running course formed on the field surface 4 so as to correspond to each model horse 60 traveling around the course. In the first modification, four guide rails 117 corresponding to each model horse 60 are arranged on the base plate 16 located below the field portion 2 forming the field surface 4 so as to follow the running course. I have. Each of the guide rails 117 is provided with a moving unit 118 as a mounting table moving unit that constitutes the light irradiation device moving unit. Each moving device 118 moves around the traveling course while being guided by the guide rail 117. Each of the moving devices 118 has the light irradiation device 20 mounted thereon. The moving speed and the like of each moving device 118 are controlled by a drive control unit (not shown) mounted on the moving device 118, and each drive control unit receives a driving start signal from the main control device 101 to perform a predetermined movement. The moving device 118 is moved at a speed or the like.
[0062]
In the above embodiment, the distance difference between the leading model horse and the trailing model horse is limited to the total length of the moving device 18, but according to the present modification, the moving device corresponding to each model horse 60 is provided. Since the driving of each of the 118 is controlled individually, there is no such limitation, and it is possible to produce a situation close to an actual race.
[0063]
[Modification 2]
Further, in the present embodiment, the configuration in which the magnetic field generating unit 30 is disposed over the entire surface of the field surface 2 has been described. However, the magnetic field only needs to be generated at least in the lower periphery of the model horse 60.
FIG. 11 is an explanatory diagram illustrating a configuration according to another modified example of the above embodiment (hereinafter, this modified example is referred to as “modified example 2”). In the second modification, the upper surface of the moving device 218 is formed by a unit supporting plate 219 as a supporting member in which a large number of magnetic field generating units 30 are arranged in a lattice. Therefore, the moving device 218 functions as a supporting member moving unit that constitutes a moving unit, and also moves the unit supporting plate 219 together with the light irradiation device 20. The magnetic flux generated by the magnetic field generated by the coil L of each magnetic field generating unit 30 penetrates from above the magnetic field generating unit 30 through the acrylic plate 2a of the field unit 2 disposed above the magnetic field generating unit 30 to generate a magnetic field on the acrylic plate 2a. .
[0064]
According to the configuration of the second modification, it is not necessary to dispose the magnetic field generating units 30 over the entire field surface 4, and the number of magnetic field generating units 30 to be disposed can be significantly reduced as compared with the above embodiment. Therefore, component costs can be reduced. In the second modification, a moving device 218 for moving the light irradiation device 20 is also used as a moving device of the magnetic field generating unit 30. However, a configuration using a moving device separate from the moving device 218 is used. It may be.
[0065]
In the above-described embodiment and the two modifications, the horse racing game machine 1 that performs a horse racing game has been described. However, the present invention is applicable to any game apparatus that controls the movement of a moving object that moves on a field unit. For example, the present invention can be similarly applied to a competition game such as a horse racing game, a car racing game, a boat racing game, a wheel racing game, or a competitive game such as a soccer game or an ice hockey game.
[0066]
【The invention's effect】
According to the first to ninth aspects of the invention, there is an excellent effect that the configuration for controlling the movement of the moving body by the magnetic action without the need for the guidance vehicle can be simplified and realized at low cost.
[0067]
In particular, according to the invention of claim 2, there is an excellent effect that the configuration can be simplified and the cost can be reduced.
[0068]
Further, according to the third aspect of the present invention, there is an excellent effect that it can be realized using a relatively inexpensive light irradiation device, and cost reduction can be achieved.
[0069]
According to the fourth and fifth aspects of the present invention, it is possible to control the movement of a moving body on a wide moving surface with a small number of magnetic field generating means, and there is an excellent effect that cost can be reduced.
[0070]
Further, according to the inventions of claims 6 and 7, there is an excellent effect that stable movement control can be performed.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a schematic configuration in which a model horse is guided by a light irradiation device in a horse racing game machine of an embodiment.
FIG. 2 is an external view showing an example of the horse racing game machine.
FIG. 3 is a control block diagram showing a main control unit for integrally controlling the operation of the horse racing game machine.
FIG. 4 is a control block diagram showing a station control unit of the horse racing game machine.
FIG. 5 is an explanatory diagram showing a configuration of a movement control device arranged inside the horse racing game machine.
FIG. 6 is a schematic configuration diagram of a light irradiation device mounted on the moving device of the horse racing game machine.
FIG. 7 is a cross-sectional view of a field portion showing a schematic configuration of a magnetic field generating unit of the horse racing game machine.
FIG. 8 is a circuit diagram showing an example of a circuit configuration of the magnetic field generation unit.
FIG. 9 is a circuit diagram showing another example of the circuit configuration of the magnetic field generation unit.
FIG. 10 is an explanatory diagram showing a configuration of the horse racing game machine according to a first modification.
FIG. 11 is an explanatory view showing a configuration of the horse racing game machine according to a second modification.
FIG. 12 is a schematic configuration diagram of a moving object control device in a conventional horse racing game device using a guided vehicle.
FIG. 13 is an explanatory diagram showing a conventional configuration for controlling movement of a moving body by sequentially magnetizing coils arranged in an array.
[Explanation of symbols]
1 Horse racing game machine
2 Field section
4 Field surface
10 stations
18,118,218 Moving device
20 Light irradiation device
21 Light emitter
23 First moving member
24 Second moving member
30 Magnetic field generation unit
31 Light receiving surface
32 DC power supply
60 Model Horse
63 permanent magnet
100 Main control unit
101 Main control unit
102 Travel control device
219 Unit support plate
200 Station control unit
D photodiode
L coil

Claims (9)

In a moving body control device that performs movement control for moving a moving body having a magnetic substance on a moving surface formed by a moving surface forming member ,
A light receiving unit that will be placed at a predetermined distance from each other,
Disposed below the movement plane, and the magnetic field generating means for Ru to generate a magnetic field above Symbol moving surface on when the corresponding receiving hand stage has received the light,
A light irradiation device that irradiates light to each of the light receiving means,
The magnetic field that the moving body moves along the moving path of the moving object which is determined based on the predetermined movement control information so as to sequentially generated by said magnetic field generating means, to said light receiving means by the light irradiation device have a light irradiation control means for controlling the elevation of light irradiation,
A moving object control device , wherein the light receiving means is collectively arranged in a different place from the magnetic field generating means and in a smaller area than an area where the magnetic field generating means is arranged . In a moving body control device that performs movement control for moving a moving body having a magnetic substance on a moving surface formed by a moving surface forming member ,
A light receiving means, the magnetic field generating unit light receiving means is disposed close to each other and the magnetic field generating means for generating a magnetic field on the moving surface when receiving light, the movement of each other at predetermined intervals Located below the surface,
A light irradiation device that irradiates light to each of the light receiving means,
In order for the magnetic field generating means to sequentially generate a magnetic field such that the moving body moves along the moving path of the moving body determined based on the predetermined movement control information, the light irradiation device transmits the magnetic field to the light receiving means. A moving object control device, comprising: light irradiation control means for controlling light irradiation . The mobile object control device according to claim 1 or 2,
The light irradiation control means is configured to generate a magnetic field such that each of the moving bodies moves along each moving path of the plurality of moving bodies moving on the moving surface by the magnetic field generating means. by is intended that control the light irradiation to the light receiving means,
The light irradiation device, the mobile control apparatus characterized by being kicked set for each part of its about the plurality of moving body. The mobile unit control device according to claim 1, 2 or 3,
The mobile station controller characterized in that it comprises a moving means for moving in response to movement of the upper Symbol mobile on Ki磁 field generating means or the magnetic field generating unit. The mobile object control device according to claim 4,
The upper Ki磁 field generating means or the magnetic field generating unit has a support member each magnetic field generated on the moving surface is supported so as to be substantially parallel to each other,
The moving means is constituted by a supporting member moving means for moving the supporting member on the side opposite to the moving surface of the moving surface forming member so that the magnetic field penetrates the moving surface at a substantially right angle. A moving object control device. The moving object control device according to claim 1, 2, 3, 4, or 5,
A moving object control device comprising: a light irradiation device moving unit that moves the light irradiation device according to a position of a light receiving unit to be irradiated with light under the control of the light irradiation control unit. The mobile object control device according to claim 6,
The light irradiation device moving means,
A mounting table on which the light irradiation device is mounted,
A moving body control device, comprising: a mounting table moving unit configured to move the mounting table. A moving body that moves on a predetermined moving surface,
A game device comprising: a moving body control unit configured to control movement of the moving body.
The moving body includes a magnetic substance,
A game device, wherein the moving object control means is constituted by the moving object control device according to claim 1, 2, 3, 4, 5, 6, or 7. A plurality of moving bodies including a magnetic substance and moving on a traveling course on a moving surface,
A game device comprising: a moving body control unit configured to control movement of the plurality of moving bodies.
The moving body control means includes:
Located below the moving surface corresponding to the travel course, with a predetermined distance from each other, a light receiving unit that will be placed along the running course,
Are arranged in the vicinity of the light receiving means, when the corresponding receiving hand stage has received the light, and magnetic field generating means for Ru to generate a magnetic field above Symbol moving surface,
Provided individually for said plurality of mobile, a plurality of light irradiating device for irradiating light onto each of the upper Ki受 light means,
A game device, comprising: a plurality of light emitting devices individually mounted thereon; and a plurality of moving devices that move around the traveling course.

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