JP2004254948A - Display device, and game machine and token dispenser using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device used in a game machine with enhanced presentation effects. <P>SOLUTION: The display device 10 comprises a rotating part 11 on which LED groups 20 and 21 are arranged in lines, fixed shafts 12 and 13 rotatably jounaling the rotating part, a rotation drive part 14 for rotating the rotating part 11 around the fixed shafts, and a control means for controlling the lightness of the LED groups 20 and 21 based on the rotation position of the rotating part 11. The rotating part 11 comprises two holder parts 22 and 23 arranged in the shape of circular arcs in such a way that the LED groups 20 and 21 have different radii. One holder part 23 is disposed at a position rotated from the other holder part 22 at the angle of 180 degrees around the fixed shafts 12 and 13. The light emitting diodes 20 and 21 arranged in the holder parts 22 and 23 emit light in different colors on the centrifugal sides 22A, 23A and on the incenter sides 22B, 23B. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medal lending machine that lends medals used in a gaming machine or a display device used in a gaming machine, a gaming machine using the same, and a medal lending machine.
[0002]
[Prior art]
In recent slot machines, a display device is provided around the three reels separately from the three reels, and a display is performed according to the progress of the game and the type of winning, thereby giving an effect of enlivening the atmosphere of the game. There is something. In such a display device, it is general that a large number of light emitting elements are densely arranged in the entire display area using light emitting elements such as light emitting diodes. A light emitting element is arranged.
[0003]
On the other hand, a medal lending machine that lends medals to be inserted into a slot machine, when a bill is inserted from a bill insertion slot, sends out medals corresponding to the amount of the inserted bill to a medal receiving unit. At this time, also in the display device provided below the bill insertion slot, similarly to the display device of the slot machine described above, a display device in which light emitting elements such as light emitting diodes are densely arranged over the entire display area is used. May be
[0004]
In such a display device, there is a problem that the cost is increased because a huge number of light emitting elements are required. In addition, since these light emitting elements are arranged on the same plane, there is a drawback that they lack interest.
[0005]
In order to solve such a problem, the applicant of the present invention has provided a rotating part in which light emitting elements are arranged in a line and a fixed shaft that rotatably supports the rotating part so as to be substantially parallel to the rotating part. By rotating the rotating part about this fixed axis, it is possible to perform display with a small number of light emitting elements using the afterimage effect, and to produce by displaying the display surface with a curved surface such as a cylindrical surface. A display device with improved effects has been filed (see Patent Document 1).
[0006]
[Patent Document 1]
Japanese Patent Application No. 2002-269012
[0007]
[Problems to be solved by the invention]
However, in the display device of Patent Document 1 described above, display can be performed with a small number of light-emitting elements, so that the display can be manufactured at low cost. However, since only one row of light-emitting elements is arranged in the rotating unit, It is impossible to form a plurality of display surfaces. For this reason, there is a problem that the degree of freedom of the display form is low and the effect of enhancing the effect is still insufficient.
[0008]
The present invention is directed to solving the above problems, and provides a display device that enhances the effect by superimposing a plurality of images to give a unique interest to a player, and a gaming machine and a medal lending machine using the display device. The purpose is to do.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the display device of the present invention is a display device used in a medal lending machine or a gaming machine that lends medals used in a gaming machine, a rotating unit in which a plurality of light emitting elements are arranged, A fixed shaft that rotatably supports the rotating unit, a rotation driving unit that rotates the rotating unit about the fixed shaft as a center of rotation, and a control unit that controls lighting of the light emitting element based on the rotating position of the rotating unit. Wherein the rotating unit includes a plurality of holding units in which a plurality of light emitting elements are arranged in different line shapes.
[0010]
Further, the plurality of holding units are two holding units in which a plurality of light emitting elements are arranged in different line shapes, and the other holding unit is rotated by 180 degrees about the fixed axis with respect to one holding unit. It is characterized in that it is arranged at the position where it is set.
[0011]
The holding unit includes a centripetal surface that is a surface facing the fixed axis, and a centrifugal surface that is a surface opposite to the centripetal surface, and the plurality of light emitting elements emit light that is fixed to the centripetal surface. The device and the light emitting element fixed to the centrifugal surface are arranged in a line on the holding unit in pairs.
[0012]
The plurality of light emitting elements are characterized in that the light emitting element fixed on the centripetal surface and the light emitting element fixed on the centrifugal surface emit different colors.
[0013]
A gaming machine according to the present invention includes a housing including a display device window, and the above-described display device attached to the housing so that the light-emitting element moves within a range visible from the display device window. It is.
[0014]
The medal lending machine of the present invention includes a housing including a display device window, and the above-described display device attached to the housing so that the light emitting element moves within a range visible from the display device window. Have
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
In the present embodiment, a display device and a gaming machine and a medal lending machine using the display device will be described. Note that the present invention is not limited to this embodiment.
[0016]
FIG. 1 is a perspective view showing a configuration of a display device 10 of the present invention. The display device 10 includes a rotating unit 11, two fixed shafts 12 and 13 for rotatably holding the rotating unit 11, and rotation driving means for driving the rotating unit 11 to rotate about the fixed shafts 12 and 13 as a center of rotation. , A transmission substrate 15 that controls the entire display device 10, and a rotation position detection unit 16.
[0017]
The rotating unit 11 includes two holding units 22 and 23 in which a plurality of light emitting diode (hereinafter referred to as LED) groups 20 and 21 as light emitting elements are arranged in a line, and makes the holding units 22 and 23 freely rotatable. And two support portions 26 and 27 formed for this purpose. The two holding portions 22 and 23 are formed of a transparent resin, and are disposed at positions where the other is rotated by 180 degrees about the fixed shafts 12 and 13 with respect to one. The holding portions 22 and 23 are integrally connected to bearings 24 and 25 by supporting portions 26 and 27. The substrate 28 is integrally formed on the upper surface of the upper supporting portion 26 of the two supporting portions 26 and 27. In the present embodiment, the fixed shaft is divided into two fixed shafts 12, 13, but the present invention is not limited to this, and one fixed shaft may be used.
[0018]
FIG. 2 is a side sectional view of the rotating unit 11. The holding portion 22 extends in the up-down direction and has a shape in which a thin plate formed of a transparent resin is curved in an arc shape with respect to the fixed shafts 12 and 13. The holding unit 22 is arranged such that the center of the arc is located on the rotation center line CL of the rotating unit 11. As shown in this figure, the LED groups 20 are arranged and fixed in a line along the vertical direction of the holding unit 22. The holding portion 22 includes a centrifugal surface 22B which is a surface facing the fixed shafts 12 and 13, and a centrifugal surface 22A which is a surface on the opposite side (a surface located outside during rotation). ing.
[0019]
Also, the LEDs 20-1A to 20-16A and 20-1B to 20-16B are the LEDs 20-1A to 20-16A fixed to the centrifugal surface 22A at the same position in the length direction of the holding unit 22, and the centripetal surface 22B. , And each pair of the LEDs 20-1B to 20-16B is arranged as a unit. Thereby, the LED groups 20 are arranged in a line on the centrifugal surface 22 </ b> A and the centripetal surface 22 </ b> B of the holding unit 22 so as to draw a vertical arc. Since the center of the arc is set on the rotation center line CL of the rotating unit 11, when the rotating unit 11 is driven to rotate, the locus of the holding unit 22 draws a spherical surface.
[0020]
Further, as described above, the holding unit 22 has the LED groups 20 arranged on both sides of the centrifugal surface 22A and the centripetal surface 22B. Therefore, when the display device 10 is viewed from outside the rotation region of the holding unit 22, In a region where 22 is in front of the fixed shafts 12 and 13, display is performed by the LEDs 20-1A to 20-16A fixed to the centrifugal surface 22A, and in a region where the holding unit 22 is farther from the fixed shafts 12 and 13, the eccentric surface is used. Display can be performed by the LEDs 20-1B to 20-16B fixed to 22B.
[0021]
Further, the colors emitted by the LEDs 20-1A to 20-16A fixed to the centrifugal surface are different from the colors emitted by the LEDs 20-1B to 20-16B fixed to the centripetal surface. In this embodiment, the LEDs 20-1A to 20-16A fixed to the centrifugal surface 22A emit red light, and the LEDs 20-1B to 20-16B fixed to the centripetal surface 22B emit blue light. Accordingly, when the display device 10 of the present embodiment is viewed from the outside of the rotation region of the rotating unit, the display color in the region where the rotating unit 10 is in front of the fixed shafts 12 and 13 is red, and the rotating unit 10 is , 13 is blue. That is, different colors can be displayed depending on whether the holding unit 22 is located in the orbital area before the rotation axis or in the orbital area behind the rotation axis.
[0022]
The holding portion 23 is formed of a transparent resin similarly to the holding portion 22, and has a shape curved in an arc shape so that the radius is smaller than the arc of the holding portion 22. In addition, the holding portion 23 is configured such that the center of the arc is located on the rotation center line CL of the rotating portion 11. The other configuration is the same as that of the holding unit 22, and the LEDs 21-1A to 21-16A fixed to the centrifugal surface 23A at the same position in the length direction of the holding unit, and the LEDs 21-1B to 21B to fixed to the centripetal surface 23B. 21-16B as a unit. Similar to the holding unit 22, the holding unit 23 includes LEDs 21-1A to 21-16A fixed to the centrifugal surface 23A and emits red light, and LEDs 21-1B to 21-16B fixed to the centripetal surface 23B. Are adapted to emit blue light. In addition, as shown in FIG. 2, the holding part 22 and the holding part 23 have shapes different in arc radius from each other. That is, the holding unit 22 and the holding unit 23 have an asymmetric shape with respect to the rotation center line CL.
[0023]
Thus, the LED groups 21 are arranged in a line on the centrifugal surface 23 </ b> A and the centripetal surface 23 </ b> B of the holding unit 23 so as to draw a vertical arc. Since the center of the arc is set on the rotation center line CL of the rotating unit 11, when the rotating unit 11 is driven to rotate, the locus of the holding unit 23 draws a spherical surface. The locus of the holding portion 23 is drawn inside the holding portion 22 because the radius of the arc is set smaller than that of the holding portion 22.
[0024]
The colors of the LED groups 20 and 21 can be changed as appropriate. For example, an LED that emits red light is arranged on all of the centrifugal surface 22A and the centripetal surface 22B of the holding unit 22, and the centrifugal movement of the holding unit 23 is performed. An LED that emits blue light may be arranged on all of the surface 23A and the center surface 23B.
[0025]
As described above, in the present embodiment, the LED groups 20 and 21 are used as a plurality of light emitting elements. Since the switching time of the LED is shorter than that of a general light bulb, even when the holding units 22 and 23 are rotated at a high speed, it is possible to switch a number of times during one rotation, thereby performing a complicated display. be able to. In addition, since LEDs have a longer life than ordinary light bulbs, maintenance costs can be reduced. Further, although the description has been made such that the 16 pairs of LED groups 20 and 21 are arranged in the holding units 22 and 23, the display device of the present invention may be configured such that an arbitrary number of LEDs are arranged in the holding units 22 and 23. .
[0026]
The rotation drive unit 14 includes a motor 29 and a gear 30. In the present embodiment, an example in which a DC motor is used as the motor 29 will be described. The driving of the motor 29 is transmitted via a gear 30 to a gear 24 a formed on the upper part of the outer peripheral surface of the bearing 24. Since the rotating unit 11 is rotatably held by the fixed shafts 12 and 13, when the driving of the motor 29 is transmitted to the gear 24 a of the bearing 24, the rotating unit 11 rotates. Thereby, the LED groups 20 and 21 arranged on the holding units 22 and 23 are driven to rotate together with the holding units 22 and 23. By this rotational drive, it is possible to perform display over the entire area covered by the rotation of the LED groups 20 and 21 using the afterimage phenomenon in the human optic nerve. However, since the afterimage phenomenon is used, the rotational drive needs to be performed sufficiently quickly. In order to prevent the display from flickering, for example, it is preferable to set the cycle of the rotation drive to 12 ms or less.
[0027]
Further, the rotation position detection unit 16 detects that the rotation unit 11 is at a predetermined rotation position. The rotation position detection unit 16 includes an index sensor 16a and an index 16b. The index sensor 16a is disposed on the fixed shaft 12, and the index 16b is disposed on the upper surface of the bearing 24. The index sensor 16a is provided with a photodiode (not shown) and a phototransistor (not shown), and a phototransistor (not shown) is arranged to receive light from the photodiode. ing. The index 16b is arranged so that when the bearing 24 is at a predetermined rotational position, the index 16b blocks light from the photodiode to the phototransistor. Thereby, a predetermined rotation position of the rotating unit 11 is detected. This predetermined rotation position can be set as the display start position of the holding units 22 and 23.
[0028]
Further, it is possible to detect the rotation cycle of the holding units 22 and 23 by the rotation position detection unit 16. Further, a pair of a photodiode and a phototransistor may be obtained by obtaining signals corresponding to the front display start position and the back display start position, respectively, and performing display in synchronization with these signals. (Delete)
[0029]
Next, the electrical configuration of the display device 10 will be described. FIG. 3 is a block diagram illustrating an electrical configuration of the display device 10. The display device 10 is provided with a control unit 31 as control means for controlling the entire display device 10 on the transmit board 15, and is connected to the motor 29 and the rotational position detection unit 16. Further, a parallel-serial conversion unit 34 and an infrared transmitter 35 as a conversion unit are provided on the transmission substrate 15 and are connected to the control unit 31. These are controlled by the control unit 31. Further, the transmit board 15 is connected to a power supply 32, and power is supplied to each unit in the transmit board 15.
[0030]
The control unit 31 controls the parallel-serial conversion unit 34 to convert a display signal displayed by the display device 10 from a parallel signal to a serial signal and output the signal. The display signal converted into the serial signal is transmitted to the infrared transmitter 35, where it is converted into an infrared signal which is an optical signal.
[0031]
The receiver substrate 28 of the rotating unit 11 is provided with an infrared receiver 36 as a re-converting unit, a serial-to-parallel converting unit 37, and a driving circuit 38 as a light-emitting element driving circuit. The infrared receiver 36 is provided in the bearing 24 and is connected to the above-mentioned infrared transmitter 35 via an optical fiber 39. The infrared light output from the infrared transmitter 35 propagates through the optical fiber 39 and enters the infrared receiver 36. The infrared receiver 36 converts the infrared signal output and transmitted from the infrared transmitter 35 again into a serial signal display signal. Thereby, the display signal is transmitted to the infrared receiver 36 of the rotating unit 11.
[0032]
The serial-parallel converter 37 converts the serial signal display signal converted by the infrared receiver 36 into a parallel signal display signal. Thereafter, the display signal of the parallel signal is received by the drive circuit 38, and the drive circuit 38 drives the LED groups 20, 21 based on the signal. The drive circuit 38 may be formed on the support portions 26 and 27 without being formed on the receiver substrate 28, or may be formed on the holding portions 22 and 23.
[0033]
The above-described bearing 24 is provided with a slip ring (not shown) as a conductive mechanism for conducting from the fixed shaft 12 to the bearing 24, and the power supplied from the power supply 32 to the transmitter board 15 is transmitted through the slip ring. It is supplied to each part of the rotating part 11. For this reason, power can be reliably supplied to the drive circuit 38 and the like provided on the substrate 18 via the slip ring regardless of the rotation of the rotating unit 11, and the optical fiber 39 for transmitting an optical signal or the like can be provided. In addition, the rotating unit 11 can rotate without being obstructed by wiring for supplying power.
[0034]
Note that the conductive mechanism is not limited to the slip ring, and any other mechanism may be used as long as the mechanism allows the fixed shaft 12 to conduct to the bearing 24. For example, power may be supplied to the drive circuit 38 and the like using an electromagnetic induction coil that transmits power in a non-contact manner. As a result, power is supplied to the drive circuit 38 via the electromagnetic induction coil that transmits electric power in a non-contact manner, so that the receiver formed on the support portion 26 of the rotating portion 11 is not hindered by the rotation of the rotating portion 11. Power can be supplied to a drive circuit 38 provided on the substrate 28 and the like.
[0035]
Also, it has been described that the display signal converted into the serial signal is transmitted as an optical signal from the transmitter substrate 15 to the receiver substrate 28 provided on the rotating unit 11 via the optical fiber 39. The displayed display signal may also be transmitted from the transmitter substrate 15 to the receiver substrate 28 via the above-described slip ring. In this case, the infrared transmitter 35 as the conversion unit, the optical fiber 39, and the infrared receiver 36 as the re-conversion unit become unnecessary.
[0036]
Further, the control unit 31 includes, for example, a central processing unit, a storage device, a program stored in the storage device, and an interface for each unit to be controlled, and controls the brightness of the LED groups 20 and 21 in the holding units 22 and 23. Control is performed based on the rotation position and the display signal. Therefore, the control unit 31 exchanges signals with the rotation drive unit 14, the rotation position detection unit 16, the infrared transmitter 35, the infrared receiver 36, and the drive circuit 38. The control unit 31 can also be configured by a logic circuit and an interface to each unit to be controlled.
[0037]
Hereinafter, the operation of the above-described display device 10 will be described with reference to the flowchart of FIG. The power supply 32 supplies power to each unit in the transmission board 15. The electric power drives the motor 29 of the rotation drive unit 14. The control unit 31 acquires information on the predetermined rotation position and the rotation period T from the rotation position detection unit 16. The control unit 31 converts the display signal from a parallel signal to a serial signal and outputs the signal by controlling the serial-parallel conversion unit 34 based on the position information. In the present embodiment, when the holding unit 22 is at the reference position A and the holding unit 23 is at the reference position B, the control unit 31 detects a signal from the rotation position detection unit 16.
[0038]
An example of the above-described parallel signal is shown in a timing chart of the LED group 20 arranged in the holding unit 22 in FIG. FIG. 5A shows a lighting position of the LED group 20 corresponding to a rotation position of the rotating unit 11 when a character string “BIG” is displayed. While the holding unit 22 rotates from the reference position A to the reference position B, the display on the centrifugal surface 22A side is performed by switching the LEDs 20-1A to 20-16A on the centrifugal surface 22A side.
[0039]
While the holding unit 22 rotates from the reference position B to the reference position A, switching of the LEDs 20-1B to 20-16B on the centripetal surface 22B performs display on the centripetal surface 22B side.
[0040]
FIG. 5B is a timing chart of a display signal for lighting the LEDs 20-1A to 20-16A and 20-1B to 20-16B corresponding to the lighting position of the LED group 20. The display by the holding unit 22 is, for example, that all the LEDs are turned off at the rotation position P1 of the rotating unit 11, the LEDs 20-10A to 20-13A are turned on at the rotation position P2, and the LEDs 20-6A to 20-8A at the rotation position P3. , And 20-10A to 20-12A are turned on.
[0041]
FIG. 6 is a timing chart of the LED group 21 arranged in the holding unit 23. FIG. 6A shows a lighting position of the LED group 21 corresponding to a rotation position of the holding unit 23 when a character string “BIG” is displayed. Since the holding unit 23 is at a position where the holding unit 22 is rotated by 180 degrees about the fixed shafts 12 and 13 as rotation centers, when the holding unit 22 is at the reference position A, the holding unit 23 is at the reference position B. When the holding unit 22 rotates by 180 ° and reaches the reference position B, the holding unit 23 reaches the reference position A which is the display start position. While the holding unit 23 rotates from the reference position A to the reference position B, the display on the centrifugal surface 23A side is performed by switching the LEDs 21-1A to 21-16A on the centrifugal surface 23A side.
[0042]
During the rotation from the reference position B to the reference position A, the LEDs 21-1B to 21-16B on the side of the centroid surface 23B are switched to display the information on the side of the centroid surface 23B.
[0043]
FIG. 6B is a timing chart of a display signal for lighting the LEDs 21-1A to 21-16A and 21-1B to 21-16B corresponding to the lighting position of the LED group 20. The display by the holding unit 23 is such that, for example, all the LEDs are turned off at the rotation position P1 of the rotating unit 11, the LEDs 21-5A to 21-13A are turned on at the rotation position P2, and the LEDs 21-5A and 21-9A are set at the rotation position P3. , And 21-13A are turned on.
[0044]
Such switching of the LED groups 20 and 21 takes one rotation as one cycle T. For example, in the case of displaying as shown in FIG. 5A and FIG. Switching is performed to change the display pattern to display an image with an afterimage effect. In the present embodiment, the switching of the LED group is performed at a time obtained by dividing the cycle T by 50. However, the present invention is not limited to this. For example, the switching of the LED group may be performed at a time obtained by dividing the period by 100. Further, the time of 50 divisions may be further divided into 4 to control the turning on / off of the LEDs. In this case, there is an advantage that the brightness can be controlled.
[0045]
These parallel signals are transmitted to the parallel-serial conversion unit 34 and converted into serial signals. This serial signal is transmitted to the infrared transmitter 35 and converted into an optical signal, and the infrared light, which is an optical signal, propagates through the optical fiber 39 and is transmitted to the infrared receiver 36.
[0046]
The infrared receiver 36 converts the received infrared light signal into a serial signal again and transmits the serial signal to the serial-parallel conversion unit 37. The serial-parallel converter 37 converts this serial signal into a parallel signal. This parallel signal is similar to the parallel signal shown in FIGS. 5B and 6B, and the parallel signal is transmitted to the drive circuit 38. The drive circuit 38 causes the LED groups 20 and 21 at the corresponding positions to emit light and display based on the parallel signal.
[0047]
In the display by the LED groups 20 and 21, while the holding unit 22 rotates from the reference position A to the reference position B, the LEDs 20-1A to 20-16A arranged on the centrifugal surface 22A emit light. At this time, the holding unit 23 is rotating between the reference position B and the reference position A, and the LEDs 21-1B to 21-16B arranged on the side of the centripetal surface 23B emit light. That is, the display of the centrifugal surface 22A of the holding unit 22 and the display of the centripetal surface 23B of the holding unit 23 are performed in parallel.
[0048]
Thereafter, while the holding unit 22 rotates from the reference position B to the reference position A, the LEDs 21-1B to 21-16B arranged on the centripetal surface 22B emit light. At this time, the holding unit 23 is rotating between the reference position A and the reference position B, and the LEDs 21-1A to 21-16A arranged on the centrifugal surface 23A emit light. That is, the display of the centripetal surface 22B of the holding unit 22 and the display of the centrifugal surface 23A of the holding unit 23 are performed in parallel.
[0049]
In this display, since the holding portions 22 and 23 are formed of a transparent resin, for example, even when the holding portion 22 is located on the back side in the viewing direction and the holding portion 23 is located on the near side in the viewing direction, the holding portion 22 is provided. The light emitted from the centripetal surface 20 </ b> B side of the LED group 20 is not blocked by the holding unit 23. Thereby, as shown in FIG. 7, the character string “BIG” is displayed on the spherical surface by the LED group 20 of the holding unit 22. FIG. 7A is a display surface of the LEDs 20-1B to 20-16B on the centripetal surface 22B side, and FIG. 7B is a display surface of the LEDs 20-1A to 20-16A on the centrifugal surface 22A side.
[0050]
Also, the LED group 21 of the holding unit 23 displays a character string of “BIG” on a spherical surface having a smaller radius than the display surface of the holding unit 22. This display surface is formed inside the display surface shown in FIG. Is done. Thereby, the spherical display surface formed by the holding unit 22 and the spherical display surface formed by the holding unit 23 are overlapped and displayed twice, so that the effect is more effective than when displaying on one display surface. improves.
[0051]
The display as described above is repeatedly performed over several cycles (several rotations). The control unit 31 determines whether to end the display. If it is determined that the display is not to be ended, the display is continued. If it is determined that the display is to be ended, the control unit 31 stops the motor 29, and the display process ends.
[0052]
In the present embodiment, the two holding units are arranged at positions where one of the holding units is rotated by 180 degrees with respect to the other around the fixed axis. However, the present invention is not limited to this. May be arranged at different positions.
[0053]
Further, in the present embodiment, the plurality of holding portions are formed by bending a thin plate extending in the fixed axis direction into an arc shape having a radius different in size, and the LED group is arranged in an arc shape. Instead, the plurality of holding portions may be formed to extend in the fixed axis direction, and the LED groups may be arranged in a line shape. For example, a transparent thin plate may be arranged so as to be parallel to the fixed axis, and the LED group may be linearly arranged. Alternatively, a straight line obtained by bending the LED group may be configured by a plurality of transparent thin plates. They may be arranged in a shape. Further, the rotating unit may be configured by appropriately combining these holding units having different shapes and sizes.
[0054]
In the present embodiment, two holding portions are provided, but the present invention is not limited to this, and three or more holding portions may be provided.
[0055]
In the present embodiment, the LED group is provided on the centrifugal surface and the centripetal surface of the holding unit. However, the present invention is not limited to this, and the LED group may be provided only on the centrifugal surface. In this case, a reflector may be provided on the back side of the display device, and when the centrifugal surface rotates to the back side, the light of the LED group arranged on the centrifugal surface may be reflected by the reflector.
[0056]
Further, in the present embodiment, an example has been described in which the brightness of the LED is controlled to only two levels of lighting or non-lighting. However, the present invention is not limited to this, and the control unit sets the LED to a plurality of levels of brightness. Control may be performed to display a subtle nuance.
[0057]
Further, in the present embodiment, an example in which a DC motor is used as the motor 29 has been described. However, the present invention is not limited to this, and for example, a pulse motor may be used. In this case, since the control unit 31 controls the speed of the pulse motor, only the information on the predetermined rotation position (display start position) needs to be acquired from the rotation position detection unit 16.
[0058]
Next, a slot machine 50 as a gaming machine using the display device 10 will be described. FIG. 8 is an external perspective view of the slot machine 50. The slot machine 50 has a rectangular box-shaped casing 51, and a display section 52 to be observed on the player side is formed in a central portion and an upper portion of the casing 51. In the center of the display section 52, a symbol display window 54 through which symbols of three rotating reels 53a, 53b, 53c can be seen, and a display device window 55 are formed. The display device 10 is attached to the housing 51 so that the LED groups 20 and 21 move within a range visible from the display device window 55. Hereinafter, the slot machine 50 will be briefly described.
[0059]
The bet button 56 is a button located in front of the spinning reels 53a, 53b, 53c, and reduces the number of stored medals according to the type of the game to be selected, instead of inserting medals. The settlement button 57 is a button located in front of the bet button 56, and pays out the stored inserted medals. The paid-out medals are discharged from a medal payout exit 58 and stored in a medal receiving tray 59.
[0060]
The start lever 60 is a lever located on the right side of the settlement button 57, and starts driving the rotating reels 53a, 53b, 53c on condition that a game medal is inserted or a bet button 56 is inserted. The stop buttons 61a, 61b, 61c are for stopping the driving of the rotating reels 53a, 53b, 53c. Each of the rotating reels 53a, 53b, 53c includes a rotating drum made of a synthetic resin, and a tape-shaped reel tape stuck around the rotating drum. A plurality of symbols are displayed on the outer peripheral surface of the reel tape. A medal slot 62 is provided on the right side of the stop buttons 61a, 61b, 61c.
[0061]
In the slot machine 50, for example, the display device 10 may display a character string such as "BIG" to notify the player when the winning combination of "Big Bonus" has won internally, for example. Alternatively, the symbols constituting the internally won winning combination may be displayed, or the operation order of the stop buttons 61a, 61b, 61c recommended for internally winning the winning combination may be displayed.
[0062]
Next, the medal lending machine 70 using the display device 10 will be described. FIG. 9 is an external perspective view of the medal lending machine 70. The medal lending machine 70 includes a housing 71, and a display device window 72 is provided below the front surface thereof. The display device 10 of the first embodiment is attached so as to display on the display device window 72. That is, the display device 10 is attached to the housing 71 such that the LED groups 20 and 21 move within a range that can be seen from the display device window 72.
[0063]
On the front part of the housing 71 of the medal lending machine 70, a bill insertion slot 73, a medal payout port 74 and the like are provided above the display device window 72. The medal payout port 74 is located at the terminal end of the medal transport device as described later, and is for paying out the paid-out medals to a medal pool (not shown).
[0064]
Although not shown, the medal lending machine 70 includes a bill discriminator, a computer, a medal hopper, and a medal transport device therein. The bill discriminating machine discriminates the type of the bill 75 inserted from the bill insertion slot 73 and transmits the discrimination result to the computer. The computer calculates the number of medals according to the inserted amount and transmits the calculation result to the medal hopper. The medal hopper discharges medals of a number corresponding to the inserted amount of money one by one. The medal transport device connects between a medal hopper and a medal payout exit.
[0065]
In the medal lending machine 70, the display device 10 displays, for example, the number of medals corresponding to the amount of the inserted banknote 75.
[0066]
【The invention's effect】
As described above, according to the display device of the present invention, a three-dimensional effect can be achieved, and an image can be displayed by being superimposed on a plurality of display surfaces having different shapes. Thereby, the degree of freedom of the display mode is improved, and the effect of the effect can be enhanced. In addition, by using this display device for a gaming machine or a medal lending machine that lends medals used in the gaming machine, a degree of appeal and a staging effect are improved for the player, and a unique interest is given to the player. be able to.
[0067]
Further, as compared with the case where a large number of light emitting elements are densely arranged in the entire display area, it is possible to display with a small number of light emitting elements, and thus it is possible to manufacture at low cost.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a schematic configuration of a display device of the present invention.
FIG. 2 is a side sectional view illustrating a shape of a rotating unit.
FIG. 3 is a block diagram showing an electrical configuration of the display device of the present invention.
FIG. 4 is a flowchart illustrating the operation of the display device of the present invention.
FIG. 5 is a timing chart of a parallel signal that is a display signal.
FIG. 6 is a timing chart of a parallel signal which is a display signal.
FIG. 7 is an image diagram of a display surface displayed by the display device.
FIG. 8 is an external perspective view of a slot machine using the display device.
FIG. 9 is an external perspective view of a medal lending machine using the display device.
[Explanation of symbols]
10 Display device
11 Rotating part
12,13 fixed axis
14 Rotation drive
15 Transmit board
16 Rotational position detector
20,21 LED group
22, 23 Holder
24, 25 bearing
26,27 support
28 Receiver board
29 motor
50 slot machine
55 Window for display device
70 Medal rental machine
72 Display window

Claims (6)

A medal lending machine that lends medals used in a gaming machine or a display device used in a gaming machine, a rotating unit in which a plurality of light emitting elements are arranged, a fixed shaft rotatably supporting the rotating unit, and the fixed A display device comprising: a rotation driving unit that rotates the rotation unit around an axis as a rotation center; and a control unit that controls lighting of the light emitting element based on a rotation position of the rotation unit.
The display device, wherein the rotation unit includes a plurality of holding units in which the plurality of light emitting elements are arranged in different line shapes. The plurality of holding units are two holding units in which the plurality of light emitting elements are arranged in different line shapes, and the other holding unit is rotated by 180 degrees about the fixed axis with respect to one holding unit. The display device according to claim 1, wherein the display device is disposed at a different position. The holding unit includes a centrifugal surface that is a surface facing the fixed axis, and a centrifugal surface that is a surface on the opposite side to the centripetal surface,
The plurality of light-emitting elements are arranged in a line on the holding unit with a pair of the light-emitting element fixed to the centripetal surface and the light-emitting element fixed to the centrifugal surface as a unit. The display device according to claim 1 or 2, wherein The display device according to claim 3, wherein the plurality of light emitting elements emit light of different colors from the light emitting element fixed to the centripetal surface and the light emitting element fixed to the centrifugal surface. A housing having a display device window;
A game machine comprising: the display device according to claim 1, wherein the display device is attached to the housing so that the light-emitting element moves within a range visible from the display device window. A housing having a display device window;
A medal lending machine having the display device according to any one of claims 1 to 4, wherein the display device is attached to the housing so that the light emitting element moves within a range visible from the display device window.

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