JP4139645B2 - Slot machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a slot machine, and more particularly, to a slot machine having a function for betting a stored medal by operating a BET switch or a MAXBET switch.
[0002]
[Prior art]
In slot machines, in general, when a player inserts a medal for gaming and presses a rotating rotation start device (start lever), multiple rotating cylinders (usually three rotating cylinders) displaying symbols rotate. Then, if the player presses the stop button at any timing, each round will stop in sequence, and various winnings will be determined by the arrangement of the stopped rounds, and according to the contents of the prize, the medal will be paid out Is a gaming machine where
[0003]
As shown in FIG. 22, the slot machine includes a front panel 10, a medal slot 11, a BET switch 12, a MAXBET switch 13, a rotating rotation start device 14, stop buttons 15a to 15c, a display window. 16.
[0004]
Here, the BET switch 12 and the MAXBET switch 13 (hereinafter collectively referred to as a medal bet switch) determine the number of medals bet on the game from among medals stored in credits.
The number of medals bet is determined based on the number of operations of the medal bet switch.
[0005]
That is, one bet is made for one operation with respect to the BET switch 12, while the maximum number (usually three) is made with one operation for the MAXBE switch 13, respectively.
For this reason, when betting three medals on one game, if the MAXBET switch 13 is used, one operation may be performed, but if the BET switch 12 is used, three operations are required.
[0006]
Moreover, the slot machine 1 has a drum unit 20 (FIG. 2) and a control means 30 (FIG. 2) inside.
Among these, the drum unit 20 has a plurality (usually three) of rotating drums 21a to 21c having a plurality of symbols drawn on the outer peripheral surface. Then, one or more of the symbols drawn on the rotating drums 21 a to 21 c are displayed on the display window 16.
[0007]
By the way, among the players, most of the veteran customers play the game by betting the stored medals by operating the MAXBET switch 13 or the BET switch 12.
However, as shown in FIG. 22, in the conventional slot machine 1, the MAXBET switch 13 and the rotating cylinder rotation start device 14 are arranged apart from each other in the front-rear direction. For this reason, the veteran customer had to press the MAXBET switch 13, which is frequently used, and then pull the arm forward, and then hit the swivel rotation starting device 14 while lowering the arm. As described above, since veteran customers need to move their arms greatly for each game, they gradually become tired and cannot continue playing the game for a long time.
[0008]
On the other hand, many beginners can intuitively grasp the relationship between the medal slot 11 and the stop button 15 and the game, but it is difficult to understand how to use the MAXBET switch 13. For this reason, the beginner has inserted medals into the medal slot 11 for each game.
For this reason, the MAXBET switch 13 has a problem that the frequency of use by beginners is low even though it is provided for the purpose of simplifying the operation.
[0009]
Therefore, various improvements for solving these problems have been proposed.
For example, an example of a conventional technique in which a function for determining the number of bets for medals is added to a rotation rotation starting device is disclosed as a slot machine device in Japanese Patent Laid-Open No. 2000-176079.
In the slot machine device disclosed in this publication, as shown in FIG. 23, a rotating cylinder rotation starting device 141 having a rotating cylinder rotation starting function further has a BET function and a MAXBET function.
[0010]
In other words, as shown in the figure, the rotating device rotation start device 141 provided in the slot machine device starts to rotate when it is pushed downward (FIG. 5 (a)) and moves to the left. When the number of medals bet is one (FIG. (B)), when moved to the right, the number is two (FIG. (C)), and when moved upward, the maximum number (three) is obtained (FIG. 5). (D)) Configuration.
The slot machine device is provided with such a rotating rotation start device having a BET function and a MAXBET function, thereby simplifying the operation from betting a stored medal to starting the rotation of the rotating drum, and a MAXBET function by a beginner. Easy to understand.
[0011]
[Problems to be solved by the invention]
However, in the conventional slot machine device, the shape and structure of the rotating rotation start device are used as they are, and the BET function and the MAXBET function are added to the rotating rotation rotation start device. In order to execute the cylinder rotation start function, it is necessary to move the rotating cylinder rotation start device not only downward but also upward and left and right.
Then, the operation of the spinning cylinder rotation starting device is accompanied by a considerably large arm movement as compared with the case where the rotating cylinder rotation starting device is simply pressed. For this reason, when a game was played continuously for a long time, the arm was given a considerable feeling of fatigue.
[0012]
Furthermore, the player who feels fatigue has interrupted the game to take a break in order to recover the fatigue, or has ended the game with no desire to play.
This interruption or termination of the game is not desirable for the manager because it causes a decrease in the availability of the game hall.
Therefore, it has been demanded to provide a technique that can reduce the feeling of fatigue given to the player while maintaining and improving the operability of the game.
[0013]
Furthermore, if you are an experienced player, you will feel the operation of the frequently used MAXBET switch and the spinning cylinder rotation starting device.
For this reason, when the structure of the switch or the like of the slot machine is changed, if the switch after the change does not give the player the same feeling as the operation of the switch before the change, the player Sometimes felt unsatisfactory in operation and reduced his willingness to play.
Therefore, it has been necessary to provide the player with the same feeling as that of the operation of the conventional MAXBET switch and the like with respect to the means combining the MAXBET switch, the spinning cylinder rotation start device, etc., and to maintain the game motivation.
[0014]
Further, the number of medals bet set in the medal bet function is determined by depressing the rotation rotation start device in the rotation rotation start function. For this reason, if the medal bet function is performed while the spinning cylinder rotation start function is being executed, the conventional game flow or operation procedure is hindered or the game is not established.
Accordingly, when a new means is provided by combining the medal bet switch for realizing the medal bet function and the rotating speed rotation starting device for realizing the rotating speed rotation starting function, the new means is provided with the rotating speed rotation starting function and the medal betting function. It had to be structured so that the functions were executed at different times.
[0015]
The present invention has been considered in view of the above circumstances, and reduces the fatigue of the arm due to the operation during the game, thereby increasing the operating rate in the game hall, and for the operation of the conventional rotation rotation starting device and the like. It is an object of the present invention to provide a slot machine that gives a player the same feeling as the accompanying feeling and can prevent the simultaneous execution of the medal betting function and the spinning cylinder rotation starting function.
[0016]
[Means for Solving the Problems]
To achieve this goal, The slot machine of the present invention is A slot machine having a medal bet switch for determining the number of bets for medals and a control means for setting the number of bets for medals based on the number of operations of the medal bet switches and controlling the rotation of the rotating drum. The bet switch has a plurality of operation units, and when the control unit selects one of the plurality of operation units, the control unit sets the bet number of medals based on the selection, and the other operation units When is selected, the rotating drum starts to rotate.
[0017]
If the slot machine has such a configuration, the setting of the number of medals bet and the start of rotation of the spinning cylinder can be operated by switching a medal bet switch having a switch shape instead of a lever. Compared to operating up, down, left and right, the arm movement can be reduced.
As a result, it is possible to reduce the fatigue of the arm that has been given to the player by operating the conventional rotating cylinder rotation starting device. Therefore, the player can play the game for a long time, so that the operating rate of the slot machine can be increased.
[0018]
In the present invention, the operation unit refers to a series of components for switching specific functions of the slot machine among the components of the medal bet switch.
For example, as a series of components for switching a function for determining the number of bets on medals (an operation unit for switching a function for determining the number of bets on medals), a first operation unit, a first movable contact unit, The first fixed contact portion and the contact attached thereto are included.
For example, as a series of components for switching the function of starting the rotation of the rotating cylinder (operation unit for starting the rotation of the rotating cylinder), the second operation unit, the second movable contact unit, A second fixed contact portion and contacts attached thereto are included.
[0019]
Furthermore, in the present invention, the setting of the bet number of medals based on the selection of the operation unit means that the correspondence between the number of selections of the operation unit and the bet number of medals is determined in advance and the operation unit is selected. And setting the number of medals bet based on the determined correspondence.
[0020]
Also, The slot machine of the present invention is The medal bet switch is constituted by a seesaw type switch having one operation unit for setting the number of medals bet and another operation unit for starting rotation of the rotating drum.
If the slot machine has such a configuration, one operation unit in the seesaw-shaped switch unit can have a medal bet number setting function, and the other operation unit can have a rotating rotation start function.
[0021]
For this reason, each function can be realized by switching each operation unit of the seesaw type switch.
And since the movement of the arm accompanying the operation can be reduced, the fatigue of the arm can be reduced. Thereby, the player can play a game continuously for a long time. Therefore, the operating rate of the game hall can be increased.
[0022]
Furthermore, because of the structure of the seesaw type switch, the two operation units cannot be turned on at the same time, and therefore the medal bet number setting function and the spinning rotation start function are not executed simultaneously.
In other words, after the operation unit for setting the bet number of medals is pressed and then the operation unit for starting rotation of the rotating cylinder is pressed, the control means reliably determines the set bet number of medals. , You can start rotating the rotating drum. Thereby, obstruction and failure of the game flow can be prevented.
[0023]
Also, The slot machine of the present invention is The seesaw-type switch is provided on the vertical surface or slope of the front panel of the slot machine so that the other operation unit is positioned below the one operation unit.
When the slot machine has such a configuration, in this seesaw type switch, first, an operation unit for setting the betting number of medals is operated, and then an operation unit for starting rotation of the spinning cylinder is operated. Can operate the seesaw-type switch by moving the arm in one direction from top to bottom.
[0024]
For this reason, compared with the movement of the arm up and down and left and right accompanying the operation of the conventional rotating drum rotation starting device, the range of the movement is significantly reduced, so that the fatigue of the arm can be reduced.
Therefore, by reducing the fatigue of the arm, the player can enjoy the game for a longer time than before, and thus the operating rate of the slot machine can be increased.
[0025]
Further, for example, when a seesaw type switch is provided so that the operation unit for setting the bet number of medals is positioned above and the operation unit for starting rotation of the spinning cylinder is located below, the first operation on this seesaw type switch Is a pressing operation similar to that of a conventional medal bet switch, and the second operation is an operation of pressing from the top to the bottom as in the case of a conventional rotating rotation starting device.
Therefore, the player can feel the same feeling as that of the operation of the conventional medal bet switch and the rotation rotation starting device by operating the seesaw type switch.
[0026]
Also, The slot machine of the present invention is A slot machine having a medal bet switch operated by a player and a control means for setting the number of medals bet based on the number of operations of the medal bet switch and controlling the rotation of the spinning cylinder There,
A push button for setting the number of bets on the medal when the medal bet switch is pressed, and the push button are formed integrally with the push button, and the rotation of the spinning cylinder is started by sliding with the push button. And a biasing means for biasing the slide button to a position where the rotation of the rotating drum is not started.
If the slot machine has such a configuration, the direction in which the push button is pressed is different from the direction in which the slide portion is slid, so that one of the operation units is operated and the other operation unit is operated at the same time. There is nothing.
[0027]
For this reason, for example, when the push button contact portion is used for setting the betting number of medals, while the sliding contact portion is used for starting rotation of the rotating drum, the setting of the betting number of these medals and the rotating rotation of the rotating drum The start is not performed at the same time.
Therefore, it is possible to avoid the obstruction of the game flow and the failure of the game due to the simultaneous execution of the function for setting the bet number of medals and the rotation starting function of the spinning cylinder.
[0028]
Also, The slot machine of the present invention is When the push button is pressed, the control means sets the number of medals bet based on the number of presses, and starts rotating the spinning cylinder when the slide button is slid.
When the slot machine is configured as described above, one switch can be provided with a function for setting the number of bets for medals and a function for starting the rotation of the rotating drum. Therefore, the movement of the arm for operating these functions can be controlled. Can be small.
[0029]
As a result, it is possible to reduce the fatigue of the arm that has been received by the operation of the conventional rotating cylinder rotation starting device.
Therefore, for the player, the game can be played continuously for a long time, so the operating rate of the slot machine can be increased.
[0030]
Also, The slot machine of the present invention is The medal bet switch includes a taper structure in which the push button is pushed back by sliding the slide button in a state where the push button is pressed.
If the slot machine has such a configuration, for example, when the slide contact portion is slid while the push button contact portion is pressed, the push button is pushed back, and the push button contact portion is turned OFF. The function for setting the bet number of medals and the rotation starting function of the rotating cylinder are not executed at the same time.
[0031]
Also, The slot machine of the present invention is A detecting means provided corresponding to the push button and the slide button and detecting that each of them is operated is a contact member that contacts / non-contacts in conjunction with the operation, or light blocking / The optical sensor is configured to include an optical sensor that detects light transmission.
When the slot machine has such a configuration, the detecting means detects that the push button and the slide button are operated, so that the control means sets the bet number of medals or starts rotating the spinning cylinder. Can do.
[0032]
Further, as the detecting means, a contact member or Optical A sensor can be used. Especially for detection means Optical By using the sensor, stable sensitivity can be obtained with almost no fear of deterioration.
In addition, As a specific example of an optical sensor, For example, there is a photo interrupter using an infrared light emitting diode.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[First embodiment]
First, a first embodiment of the slot machine of the present invention will be described with reference to FIG. 1 and FIG.
FIG. 1 is a front view showing the configuration of the front surface of the slot machine of this embodiment, and FIG. 2 is a perspective view showing the internal configuration of the slot machine.
[0034]
As shown in FIG. 1, the slot machine 1 includes a front panel 10, a medal slot 11, a BET switch 12, a spinning cylinder rotation start device 14, stop buttons 15 a to 15 c, a display window 16, a MAXBET and A rotating cylinder rotation switch 17 is provided.
Further, as shown in FIG. 2, the slot machine 1 includes a drum unit 20 and a control unit 30 inside.
[0035]
Here, at the medal slot 11, medals bet on the game are directly inserted.
The BET switch 12 determines the number of medals bet on the game from medals stored in the credit.
The BET switch 12 is set to bet one stored medal for one operation. For this reason, when betting three stored medals using the BET switch 12, the BET switch 12 is operated (pressed) three times.
[0036]
By operating the turning rotation start device 14, the control means 30 determines the betting number of medals determined using the BET switch 12, the MAXBET and the turning rotation switch 17. Further, the control means 30 starts rotation of the rotating drums 21a to 21c.
[0037]
Stop buttons 15a to 15c are provided in the same number (usually three) as the later-described spinning cylinders 21a to 21c. When the stop buttons 15a to 15c are pressed, the corresponding spinning cylinders 21a to 21c are rotated. Stop.
The display window 16 displays one or more symbols among a plurality of symbols drawn on the outer peripheral surfaces of the rotating drums 21a to 21c.
[0038]
The MAXBET and the rotating cylinder rotation switch 17 are configured by configuring the conventional MAXBET switch 13 with a multi-operation unit switch having a plurality of operation units, and one of the plurality of operation units is used for setting a bet number of medals. The other operation unit is used to start rotation of the rotating drums 21a to 21c.
Further, the MAXBET and the rotating cylinder rotation switch 17 are configured by a seesaw type switch 171 as shown in FIG.
FIG. 3 is an external perspective view showing the entire structure of the MAXBET and the rotating cylinder rotation switch.
[0039]
In the present invention, the BET switch 12, the MAXBET switch 13, the MAXBET and rotating cylinder rotation switch 17, and the medal BET and rotating cylinder rotation switch (described later) are collectively referred to as a medal bet switch.
Further, one of the operation units of the MAXBET and the rotation switch 17 has a rotation rotation start function. However, the MAXBET and the rotation switch 17 and the rotation switch are provided in one slot machine 1. Both the rotation start device 14 can be provided.
[0040]
Thereby, when starting rotation of the spinning cylinders 21a to 21c, the player can select and perform one of the MAXBET and the spinning cylinder rotation switch 17 and the spinning cylinder rotation start device 14.
However, when the MAXBET and the rotating cylinder rotation switch 17 are provided in the slot machine 1, the rotating apparatus rotation start device 14 can be omitted.
Details of the MAXBET and the rotating cylinder rotation switch 17 will be described later.
[0041]
As shown in FIG. 2, the drum unit 20 has a plurality of cylinders 21 a to 21 c (usually three cylinders).
Each of the rotating cylinders 21a to 21c has a plurality of symbols (not shown) drawn on the outer peripheral surface thereof.
Further, the rotation of the rotating drums 21a to 21c is started by operation of MAXBET, the rotating drum rotation switch 17, and the rotating drum rotation starting device 14. In this case, the rotating drums 21 a to 21 c start rotating based on a pulse (drive) signal from the control means 30.
[0042]
Further, the rotating cylinders 21a to 21c stop rotating when the stop buttons 15a to 15c are pressed.
When the rotation of the rotating drums 21a to 21c is stopped, the drum unit 20 sends a marker signal to the control means 30 based on the markers written on the rotating drums 21a to 21c.
[0043]
The control means 30 includes a control unit 31 and a credit memory 32.
The controller 31 controls the operation of each component of the slot machine 1.
Moreover, the control part 31 confirms the stop symbol of the rotating drums 21a-21c based on the marker signal from the drum unit 20, and judges whether it has won.
[0044]
The credit memory 32 stores the number of stored medals. The number of stored medals is taken out by the control unit 31 and, after a predetermined calculation is executed, is sent to the credit memory 32 and stored therein.
The operation control of each component in the control unit 31 and the calculation of the number of stored medals stored in the credit memory 32 will be described later.
[0045]
Next, the MAXBET and the rotating cylinder rotation switch will be described with reference to FIGS.
FIG. 4 is an exploded perspective view showing each structure in a state in which the MAXBET and the rotating cylinder rotation switch are disassembled for each part.
[0046]
As shown in FIGS. 3 and 4, the MAXBET and the rotating cylinder rotation switch 17 adopt a seesaw type changeover switch (seesaw type switch) 171, and a player directly performs a changeover operation mainly when playing a game. The moving member 171-1 and the movable contact member 171-2 in which two opposing contact portions (movable contact portions 171-22a and 171-22b) are levitated or lowered in conjunction with the movement of the moving member 171-1. A motion transmitting member 171-3 for transmitting the movement of the motion member 171-1 to the movable contact member 171-2 and a pair of contact terminals connected to or released by the movement of the movable contact member 171-2 (first A pair of contact terminals 171-411a and 171-412a in the fixed contact portion 171-41a, and a contact terminal 171-41 in the second fixed contact portion 171-41b. The fixed contact member 171-4 having a pair) of b and the contact terminal 171-412B, and a housing 171-5 for supporting the each component of MAXBET and reel-rotation switch 17.
[0047]
The operation member 171-1 is rotatable around an operation member shaft portion 171-12, one of which is formed as a first operation portion 171-11a and the other as a second operation portion 171-11b. ing. For this reason, when either one of the first operation unit 171-11a or the second operation unit 171-11b is pushed down, the other is lifted around the operation member shaft unit 171-12.
The first operation unit 171-11a is a part that is selected (pressed) when the bet number of medals is determined, and the second operation unit 171-11b is used to start the rotation of the spinning cylinders 21a to 21c. This is the part selected (pressed). That is, the operation member 171 selects either one of setting the number of bets for medals or starting rotation of the spinning drums 21a to 21c in one operation.
[0048]
The movable contact member 171-2 is connected to a sliding receiving plate 171-21 on which a sliding portion 171-31 (described later) of the motion transmitting member 171-3 moves back and forth, and one end of the sliding receiving plate 171-21. First movable contact portion 171-22a and a second movable contact connected to the other end of the sliding receiving plate 171-21 opposite to one end to which the first movable contact portion 171-22a is connected. Part 171-22b.
[0049]
The first movable contact portion 171-22a is a portion that is pushed down by the motion transmission member 171-3 when the first motion portion 171-11a of the motion member 171-1 is pressed.
When the first movable contact portion 171-22a is pushed down, two contact terminals 171-411a and 171-412a constituting the first fixed contact portion 171-41a are provided. The first movable contact portion 171-22a is pressed down to contact both of the two contact terminals 171-411a and 171-412a. Thereby, the two contact terminals 171 to 411a and the contact terminals 171 to 412a are connected to each other in an electrically conductive state via the first movable contact portion 171-22a.
[0050]
Furthermore, the second movable contact portion 171-22b is a portion that is pushed down by the motion transmission member 171-3 when the second motion portion 171-11b of the motion member 171-1 is pressed.
When the second movable contact portion 171-22b is pushed down, two contact terminals 171-411b and 171-412b constituting the second fixed contact portion 171-41b are provided. The second movable contact portion 171-22a is pressed down to contact both of the two contact terminals 171-411b and 171-412b. As a result, the two contact terminals 171-411 b and the contact terminals 171-412 b are connected to each other in an electrically conductive state via the second movable contact portion 171-22 a.
[0051]
The first and second movable contact portions 171-22a and 171-22b are each formed of a conductive material. On the other hand, the sliding receiving plate 171-21 is formed of an insulating material.
Accordingly, the first movable contact portion 171-22a and the second movable contact portion 171-22b are not electrically connected.
[0052]
Note that the sliding receiving plate 171-21 can be formed of a conductive material instead of the insulating material.
This is because one of the first and second movable contact portions 171-22a and 171-22b contacts the fixed contact portion 171-41 (the first fixed contact portion 171-41a and the second fixed contact portion 171-41b). This is because the other is always away from the fixed contact portion 171-41.
However, if the sliding receiving plate 171-21 is formed of a conductive material, a discharge occurs between the released contacts among the contacts of the movable contact member 171-2 and the fixed contact member 171-4. There is a risk that the circuits (the circuit connected to the first fixed contact portion 171-41a and the circuit connected to the second fixed contact portion 171-41b (described later)) are short-circuited. For this reason, it is preferable to form the sliding receiving plate 171-21 with an insulating material.
[0053]
Further, a groove is provided on the upper surface of the sliding receiving plate 171-21 so that the sliding portion 171-31 can travel the same route, or the sliding receiving plate 171 is perpendicular to the sliding direction. It is desirable to form the upper surface portion to be V-shaped in the cross section when -21 is cut.
[0054]
Furthermore, movable-side contacts 171-23a and 171-23b are attached to the respective surfaces of the first and second movable contact portions 171-22a and 171-22b toward the fixed contact member 171-4.
In other words, movable contact points 171-23a (171-231a and 171-232a) are attached to the surface of the first movable contact portion 171-22a toward the fixed contact member 171-4, Movable contacts 171-23b (171-231b and 171-232b) are attached to the surface of the movable contact portion 171-22b toward the fixed contact member 171-4.
[0055]
The movable contacts 171-23a (171-231a and 171-232a) attached to the first movable contact portion 171-22a are contact terminals 171-411a and 171- of the first fixed contact portion 171-41a. 412a (described later) is in contact with fixed-side contacts 171-421a and 171-422a (described later).
That is, when the first movable contact portion 171-22a is lowered, the movable contact 171-231a is in contact with the fixed contact 171-421a, and the movable contact 171-232a is in contact with the fixed contact 171-422a.
Thereby, in the 1st movable contact part 171-22a, the contact terminal 171-411a and the contact terminal 171-412a which were provided in isolation are electrically connected via the 1st movable contact part 171-22a. Are connected in a conductive state.
[0056]
On the other hand, the movable contact 171-23b (171-231b and 171-232b) attached to the second movable contact portion 171-22b is connected to each contact terminal 171-411b of the second fixed contact portion 171-41b. It contacts with fixed side contacts 171-421 b and 171-422 b (described later) respectively attached to 171-412 b (described later).
That is, when the second movable contact portion 171-22b is lowered, the movable contact 171-231b comes into contact with the fixed contact 171-421b and the movable contact 171-232b comes into contact with the fixed contact 171-422b.
Thereby, in the 2nd movable contact part 171-22b, the contact terminal 171-411b and the contact terminal 171-412b which were attached separately are electrically connected via the 2nd movable contact part 171-22b. Are connected in a conductive state.
[0057]
The motion transmission member 171-3 is provided on the back surface 171-13 facing the inside of the housing 171-5 in the motion member 171-1, while sliding on the sliding receiving plate 171-21 of the movable contact member 171-2. A sliding portion 171-31 that goes back and forth, an elastic body portion 171-32 that pushes down the movable contact member 171-2 via this sliding portion 171-31, and a sliding body that includes this elastic body portion 171-32. It is comprised by the cylindrical part 171-33 which supports the part 171-31.
[0058]
With such a configuration, the motion transmission member 171-3 transmits the movement of the motion member 171-1 to the movable contact member 171-2.
For example, when the first operation portion 171-11a in the operation member 171-1 is pressed, the slide portion 171-31 causes the upper surface of the slide receiving plate 171-21 of the movable contact member 171-2 to be the first. It moves while sliding toward the movable contact portion 171-22a. If it does so, the 1st movable contact part 171-22a will fall by indirect depression of the elastic-body part 171-32.
[0059]
On the other hand, when the second operation portion 171-11b of the operation member 171-1 is pressed, the slide portion 171-31 causes the upper surface of the slide receiving plate 171-21 of the movable contact member 171-2 to be in the second position. It moves while sliding toward the movable contact portion 171-22b. If it does so, the 2nd movable contact part 171-22b will fall by indirect depression of the elastic-body part 171-32.
[0060]
In FIG. 4, only one motion transmission member 171-3 is provided. However, the number is not limited to one, and two or more motion transmission members 171-3 can be provided. It can also be provided on each back surface 172-13 with the second operation part 171-11b.
In this case, instead of the sliding portion 171-31, the elastic body portion 171-32 and the cylindrical portion 171-33, a rod-like body can be provided.
Further, when the sliding portion 171-31 can be supported by the elastic body portion 171-32, the cylindrical portion 171-33 can be omitted.
[0061]
The fixed contact member 171-4 includes a first fixed contact portion 171-41a and a second operation portion 171-11b that are connected when the first operation portion 171-11a of the operation member 171-1 is pressed. And a second fixed contact portion 171-41 b connected when the button is pressed.
The first fixed contact portion 171-41 a and the second fixed contact portion 171-41 b are collectively referred to as a fixed contact portion 171-41.
The first fixed contact portion 171-41 a has two contact terminals 171-411 a and 171-412 a, and the second fixed contact portion 171-41 b has two contact terminals 171-411 b and 171. -412b.
[0062]
Each of the contact terminals 171-411 a, 171-412 a, 171-411 b and 171-412 b is fixed to the bottom portion 171-511 (or a side surface portion or the like) of the first casing 171-51, and one of them is the bottom portion. 171-511 is exposed to the outside, and the other is erected inside.
A hole for connecting the electrical wiring is formed in the exposed portion. On the other hand, the part erected inside is bent in a bowl shape, and the fixed side contacts 171-421 a, 171-422 a, 171-are respectively provided on the surface of the bent part toward the movable contact member 171-2. 421b and 171-422b are attached.
[0063]
Further, gaps are provided between the contact terminals 171 to 411a and the contact terminals 171 to 412a and between the contact terminals 171 to 411b and the contact terminals 171 to 412b, respectively. For this reason, between the contact terminals 171 to 411a and the contact terminals 171 to 412a and between the contact terminals 171 to 411b and the contact terminals 171 to 412b are in a state in which they cannot be electrically connected in a normal state. It has become.
[0064]
However, when the first movable contact portion 171-22a (second movable contact portion 171-22b) of the movable contact member 171-2 is lowered, the fixed side contact 171-421a of the contact terminal 171-411a and the first movable contact 171-421a are moved. The movable contact 171-231a of the contact portion 171-22a, the fixed contact 171-422a of the contact terminal 171-412a, and the movable contact 171-232a of the first movable contact portion 171-22a (contact terminal 171-411b). Fixed side contacts 171-421 b, movable side contacts 171-231 b of the second movable contact part 171-22 b, fixed side contacts 171-422 b of the contact terminals 171-412 b and movable side of the second movable contact part 171-22 b Contacts 171-232b).
Thereby, the contact terminals 171 to 411a and the contact terminals 171 to 412a (the contact terminals 171 to 411b and the contact terminals 171 to 412b) are replaced with the first movable contact part 171-22a (the second movable contact part 171-22b). To be electrically conductive.
[0065]
In the present embodiment, the movable contact member 171-2 and the fixed contact member 171-4 are collectively referred to as a contact member.
The contact member and the contactless sensor 171-7 (described later) are collectively referred to as detection means.
[0066]
In the present embodiment, among the components in the operation member 171-1, the movable contact member 171-2, and the fixed contact member 171-4, the component for executing the MAXBET function (the first operation unit 171-1). 11a, first movable contact portion 171-22a, movable side contacts 171-231a and 172-32a, first fixed contact portion 171-41a, contact terminals 171-411a and 171-412a, fixed side contact 171-421a and 171-422a) is referred to as a first operation unit 171-6a. The components for executing the rotating rotation start function (second operation unit 171-11b, second movable contact unit 171-22b, movable side contacts 171-231b and 172-32b, second fixed contact point) The portion 171-41 b, the contact terminals 171-411 b and 171-412 b, and the fixed contact 171-421 b and 171-422 b) are referred to as a second operation portion 171-6 b.
[0067]
Among these, the first operation unit 171-6a has the same function as the conventional MAXBET switch, and the maximum number of medals that can be bet in one game (usually three, hereinafter, “ This is used when betting with a single operation.
When the first operation unit 171-6a is selected, the control means 30 sets the maximum number as the number of medals bet on the current game.
[0068]
The set bet number of medals is determined by selecting the second operation unit 171-6b of the seesaw type switch 171.
Then, the number of medals to be paid out by winning a prize is determined based on the determined number of medals bet.
[0069]
The second operation unit 171-6b is used to start rotation of the rotating drums 21a to 21c.
That is, the second operation unit 171-6b has a function similar to that of the rotating cylinder rotation start device 14. When the second operation unit 171-6b is selected, the control unit 30 The betting number of medals set by one operation unit 171-6a or the like is determined, and the drum unit 20 is caused to start rotating the spinning cylinders 21a to 21c.
[0070]
The casing 171-5 includes a rectangular box-shaped first casing 171-51 having an open top, and a second casing 171- 1 that is placed so as to cover the top of the first casing 171-51. 52 and a third casing 171-53 that includes these first and second casings 171-51 and 171-52.
[0071]
The contact terminals 171-411 a, 171-411 b, 171-412 a, and 171-412 b are fixed to the four corners of the bottom portion 171-511 in the first casing 171-51.
Further, a movable contact member 171-2 is supported at the center of the bottom portion 171-511 of the first casing 171-51 by contacting the movable contact operating shaft 171-24 of the sliding receiving plate 171-2 from below. Contact member support portions 171-512 are erected.
[0072]
The movable contact member support portion 171-512 is further formed with a fitted portion 171-513 to which the slide receiving plate 171-21 of the movable contact member 171-2 is fitted. In the sliding contact plate 171-21 of the movable contact member support portion 171-512, a notch portion 171-25 is formed at the center of the two sides to which the movable contact portion 171-22 is not connected. ing.
For this reason, the movable contact member support part 171-512 is fitted with the movable contact member 171-2 by fitting the movable contact member 171-2 into the fitted part 171-513 in accordance with the notch 171-25. The movable contact operating shaft 171-24 can be supported. The movable contact member 171-2 can move so that the two movable contact portions 171-22 a and 171-22 b float and descend with respect to the movable contact operating shaft 171-24.
[0073]
The second casing 171-52 includes a plate-like portion 171-521 having an open central portion, and operating member support portions that are erected on two opposite sides of the four sides of the plate-like portion 171-521. 171-522.
The operation member 171-1 is placed on the upper surface of the plate-like portion 171-521.
The operating member support portion 171-522 has a bearing portion 171-523 to which the operating member shaft portion 171-12 is fitted at the center portion thereof.
For this reason, the operating member 171-1 is mounted on the upper surface of the plate-like portion 171-521 by fitting the operating member shaft portion 171-12 to the bearing portion 171-523, so that the operating member 171-1 becomes the operating member. It can be turned around the shaft portion 171-12.
[0074]
The third housing 171-53 is formed so as to enclose the first and second housings 171-51 and 171-52. It has the operation member upper support part 171-531 which presses and supports the part 171-12 from the top.
The motion member shaft portion 171-12 of the motion member 171-1 is supported by the motion member upper support portion 171-531 and the motion member support portion 171-522 of the second casing 171-52, and the displacement thereof. Is prevented.
[0075]
The operation of the MAXBET and the rotating cylinder rotation switch 17 having the above-described configuration is as follows.
For example, when the first operating portion 171-11a is pressed among the operating members 171-1, the second operating portion 171-11b is lifted around the operating member shaft portion 171-12. Along with the movement of the operation member 171-1, the sliding portion 171-31 of the operation transmitting member 171-3 is the first movable contact portion on the upper surface of the sliding receiving plate 171-21 of the movable contact member 171-2. Move while sliding toward 171-22a.
[0076]
When the sliding portion 171-31 of the motion transmitting member 171-3 moves toward the first movable contact portion 171-22 a in the movable contact member 171-2, the elastic body portion 171-32 is indirectly pushed down, The first movable contact portion 171-22a is lowered, and the second movable contact portion 171-22b is lifted around the movable contact operating shaft 171-24.
[0077]
Due to the lowering of the first movable contact portion 171-22a, the movable side contacts 171-231a and 171-232a attached to the first movable contact portion 171-22a and the first fixed contact portion 171-41a The contact terminals 171-421 a and 171-422 a of the contact terminals 171-411 a and 171-412 a are in contact with each other. Thereby, the contact terminal 171-411a and the contact terminal 171-412a in the 1st fixed contact part 171-41a are connected in the state which can electrically conduct.
[0078]
On the other hand, for example, when the second operating portion 171-11b of the operating member 171-1 is pressed, the first operating portion 171-11a rises around the operating member shaft portion 171-12. Along with the movement of the operation member 171-1, the sliding portion 171-31 of the operation transmitting member 171-3 is moved to the second movable contact portion on the upper surface of the sliding receiving plate 171-21 of the movable contact member 171-2. Move while sliding toward 171-22b.
[0079]
When the sliding portion 171-31 of the motion transmitting member 171-3 moves toward the second movable contact portion 171-22 b in the movable contact member 171-2, the elastic body portion 171-32 is indirectly pushed down, The second movable contact portion 171-22b is lowered, and the first movable contact portion 171-22a is lifted around the movable contact operating shaft 171-24.
[0080]
Due to the lowering of the second movable contact portion 171-22b, the movable side contacts 171-231b and 171-232b attached to the second movable contact portion 171-22b and the second fixed contact portion 171-41b The contact terminals 171-421 b and 171-422 b of the contact terminals 171-411 b and 171-412 b are in contact with each other. Thereby, the contact terminals 171 to 411b and the contact terminals 171 to 412b in the second fixed contact portion 171 to 41b are connected in a state where they can be electrically conducted.
[0081]
Next, another structure of the MAXBET and the rotating cylinder rotation switch will be described with reference to FIG.
The above-described MAXBET and the rotating cylinder rotation switch 17 are configured to have contact members (movable contact member 171-2 and fixed contact member 171-4) as detection means, but are not limited to contact members. The contactless sensor may be configured as the detection means.
[0082]
As shown in FIG. 5, the MAXBET and the rotating cylinder rotation switch 17 configured by using the non-contact sensor include an operation member 171-1 and an operation transmission member 171-3 (first blocking plate 171-34a and second , A fixed contact member 171-4 (first fixed contact portion 171-41a and second fixed contact portion 171-41b), a housing 171-5, and a contactless sensor 171-. 7 (first non-contact sensor 171-7a and second non-contact sensor 171-7b).
[0083]
The operation member 171-1 has the same structure and function as the operation member 171-1 in the MAXBET having a contact and the rotation switch 17, and the operation member shaft portion 171-12 and the first operation portion 171. -1 and a second operation unit 171-2. However, since the structure of the portion (back surface 171-13) to which the motion transmission member 177 is attached is determined based on the structure of the motion transmission member 177, the motion member 171- in the MAXBET having a contact point and the rotary rotation switch 17 is provided. 1 may be different from the back surface 171-13.
[0084]
The motion transmitting member 171-3 includes a first blocking plate 171-34 a attached to the back surface 171-13 a of the first motion portion 171-11 a and a second motion portion 171-11 b of the motion member 171-1. And a second blocking plate 171-34 b attached to the back surface 171-13 b.
The first blocking plate 171-34 a blocks the detection light emitted and received by the first contactless sensor 171-7 a. The second blocking plate 171-34 b blocks the detection light emitted and received by the second contactless sensor 171-7 b.
[0085]
For example, when the first operation portion 171-11a in the operation member 171-1 is pressed, the first blocking plate 171-34a attached to the back surface 171-13a is also lowered. The lowered first blocking plate 171-34 a enters between the light emitting element and the light receiving element in the first contactless sensor 171-7 a and blocks the detection light.
In this case, the control means 30 recognizes that no detection signal is sent from the light receiving element of the first contactless sensor 171-7a, and sets the maximum number of medals bet in the game.
[0086]
On the other hand, when the second operating portion 171-11b of the operating member 171-1 is pressed, the second blocking plate 171-34b attached to the back surface 171-13b is lowered. The lowered second blocking plate 171-34 b enters between the light emitting element and the light receiving element in the second contactless sensor 171-7 b and blocks the detection light.
In this case, the control unit 30 recognizes that the detection signal is not sent from the light receiving element of the second contactless sensor 171-7b, and starts the rotation of the drums 21a to 21c with respect to the drum unit 20. .
[0087]
The fixed contact member 171-4 (first fixed contact portion 171-41 a and second fixed contact portion 171-41 b) is a MAXBET having a contact member and a fixed contact member 171-4 ( The first fixed contact portion 171-41a and the second fixed contact portion 171-41b) have the same structure and function.
The first fixed contact portion 171-41 a includes contact members 174-11 a and 174-12 a, and fixed contact points 171-421 a and 171-422 a are attached to the contact members 174-11 a and 174-12 a, respectively. Has been.
Further, the second fixed contact portion 171-41 b includes contact members 174-11 b and 174-12 b, and fixed contact points 171-421 b and 171-422 b are attached to the contact members 174-11 b and 174-12 b, respectively. Has been.
[0088]
The non-contact sensor 171-7 includes a first non-contact sensor 171-7a and a second fixed contact portion 171-41b, which are connected to be electrically conductive with the first fixed contact portion 171-41a. And a second non-contact sensor 171-7b connected in an electrically conductive state, and fixed to the bottom (or side surface, etc.) of the housing 171-5.
For these non-contact sensors 171-7, an optical sensor, for example, a photo interrupter using an infrared light emitting diode can be used.
[0089]
The photo interrupter has a light emitting element and a light receiving element (not shown). The light emitting element transmits detection light to the light receiving element. When the light receiving element receives the detection light, it outputs a detection signal to the outside. This detection signal is sent to the control means 30.
A gap is provided between the light emitting element and the light receiving element so that the operation transmitting member 171-3 can enter or pass through. When the operation transmitting member 171-3 enters, the detection light is blocked, so that the light receiving element cannot receive the detection light, and in this case, no detection signal is output.
In this embodiment, a contact member (movable contact member 171-2 and fixed contact member 171-4) and a contactless sensor 171-7 (first contactless sensor 171-7a and second contactless). The sensors 171-7b) are collectively referred to as detection means.
[0090]
Next, the mounting positions of the MAXBET and the rotating cylinder rotation switch (seesaw type switch) in the slot machine will be described with reference to FIG.
This figure is a schematic configuration diagram showing a part of a front panel provided with a MAXBET and a rotary cylinder rotation switch.
[0091]
The seesaw type switch 171 is provided on the front panel 10 of the slot machine 1 as shown in FIG.
The mounting position of the seesaw type switch 171 is the position where the conventional MAXBET switch 13 is provided (generally, above the rotating rotation starting device 14 and the stop button 15a, and on the slope where the medal slot 11 is provided. On the same slope).
[0092]
By setting the mounting position of the seesaw type switch 171 to the position where the conventional MAXBET switch 13 is provided, the player can operate from the operation of the MAXBET and the rotating cylinder rotation switch 17 to the pressing of the stop buttons 15a to 15c. This can be done by arm movement in the direction.
[0093]
For this reason, after the operation of the conventional spinning machine rotation start device 141 of the slot machine device, that is, the setting of the betting number of medals and the start of rotation of the spinning drum by operating the rotation rotation start device 141 up and down and left and right, There is no need for complicated arm movements such as pressing a button.
Thereby, since fatigue of the arm is reduced, the player can enjoy the game being played continuously for a longer time without being interrupted or terminated.
Therefore, the operating rate of the slot machine can be increased.
[0094]
The mounting position of the seesaw-type switch 171 is not limited to the position where the conventional MAXBET switch 13 is provided, for example, the position where the conventional BET switch 12 or the rotating cylinder rotation start device 14 is provided, In addition, it can also be provided at an arbitrary position on the front panel 10.
However, in this case as well, it is desirable to make the position where fatigue can be reduced in consideration of the movement of the player's arm.
[0095]
Further, as shown in FIG. 6, the seesaw type switch 171 is arranged such that the second operation unit 171-11 b is positioned below the first operation unit 171-11 a on the vertical surface or slope of the front panel 10. Is provided.
Assuming that the mounting direction of the seesaw type switch 171 is such a direction, the first operation (operation of the first operation unit 171-11a) is a pressing operation similar to the conventional medal bet switch, and the second operation ( The operation of the second operation unit 171-11b) is an operation of pressing from the top to the bottom in the same manner as in the conventional rotating cylinder rotation starting device.
[0096]
Therefore, even when the player operates the seesaw-type switch 171, the player can receive a feeling similar to that obtained by operating the conventional medal bet switch or the spinning cylinder rotation starting device 14.
For this reason, even if the player operates the seesaw type switch 171, he / she does not feel unsatisfactory, and can play a game happily as before.
[0097]
In addition, the seesaw type switch 171 is required to exhibit a switching function reliably while leaving the feeling of operation of the conventional MAXBET switch 13 and the rotating cylinder rotation start device 14, so that the horizontal width is about 3 cm and the vertical length. A depth of about 5 cm is desirable.
With such a size, a feeling of operating the conventional MAXBET switch 13 can be obtained even in the operation of the changeover switch.
[0098]
Furthermore, although the cross-sectional shape in the longitudinal direction of the operation member 171-1 in the seesaw type switch 171 forms a valley shape sandwiched between two inclined surfaces in FIG. 3, it is not limited to the valley shape. For example, a flat surface (all slopes) as shown in FIG. 7 or a mountain shape as shown in FIG.
[0099]
Further, although the top surface shape of the operation member 171-1 in the seesaw type switch 171 is a square in FIG. 3, it is not limited to a square, and may be, for example, a circle, an ellipse, a gourd or the like.
A depression can be formed on the upper surface of the operation member 171-1 in the seesaw type switch 171 so that a finger can be easily placed thereon.
[0100]
Further, an LED can be provided inside the seesaw type switch 171. The lighting control of the LED is controlled by an IC (not shown) that is a set of transistor arrays. The LED can be turned on / off in accordance with ON / OFF of the MAXBET function and the rotating cylinder rotation start function.
A sound effect can be generated in accordance with the operation of the seesaw type switch 171.
[0101]
In addition, the seesaw type switch 171 can be switched to either a state where both the contacts are OFF or a state where one contact is ON and the other is OFF.
That is, by setting the MAXBET and the rotating cylinder rotation switch 17 to the seesaw type switch 171, the two operation units 171-6a and 171-6b are not simultaneously turned on. Therefore, the MAXBET function and the rotating cylinder rotation start function are not simultaneously turned on, and these functions can be sufficiently performed.
[0102]
By the way, the MAXBET and the rotation switch 17 are obtained by changing the structure of the conventional MAXBET switch 13, but the slot machine 1 includes a medal BET and a rotation switch (changed from the structure of the conventional BET switch 12). (Not shown) can also be provided.
In the medal BET and the rotating cylinder rotation switch, the BET switch 12 is configured by a multi-contact switch (or a multi-sensor switch) having a plurality of operation units, and one operation unit among the plurality of operation units is a bet for a medal. The other operation unit is used for setting the number and used for starting the rotation of the rotating drums 21a to 21c.
[0103]
For this reason, the medal BET and the rotating cylinder rotation switch can have substantially the same configuration as the MAXBET and the rotating cylinder rotation switch 17.
However, the first operation unit of the medal BET and the spinning cylinder rotation switch has the same function as the BET switch. That is, each time the first operation unit is selected, the number of medals bet increases by one.
[0104]
Then, each time the first operation unit is selected, the control means 30 sets the bet number of medals increased by one as the bet number of medals in play.
The set bet number of medals is determined by selecting the medal BET and the second operation unit of the rotation switch. Thereby, the number of medals to be paid out by winning is determined based on the determined bet number of medals.
[0105]
Further, it is desirable that the medal BET and the spinning cylinder rotation switch are provided on the front panel 10 of the slot machine 1 at a position where the conventional BET switch 12 or the MAX BET switch 13 is provided.
In this case, however, the mounting position and mounting direction should be determined in consideration of the player's operational burden and the reduction of arm fatigue.
[0106]
Further, one of the operation units of the medal BET and the rotation switch 17 has a rotation rotation start function. However, the slot machine 1 includes the medal BET, the rotation switch and the rotation cylinder. Both the rotation start device 14 can be provided. As a result, the player can select any one of the medal BET, the spinning cylinder rotation switch, and the spinning cylinder rotation start device 14 to start the rotation of the spinning cylinders 21a to 21c.
When the slot machine 1 is provided with the medal BET and the rotation rotation switch, the rotation rotation start device 14 can be omitted.
[0107]
Next, control means for processing signals from the seesaw type switch will be described with reference to FIG.
This figure is a block diagram showing the configuration of each component in the slot machine and the control means for controlling this component.
[0108]
As shown in the figure, the MAXBET / rotor rotation switch 17 includes a MAXBET detection unit 17-1 and a rotation rotation start detection unit 17-2.
The MAXBET detection unit 17-1 is a detection unit that detects that the first operation unit 171-11a is pressed (that is, the first movable contact unit 171-22a and the first fixed contact unit 171-41a or the first operation unit 171-11a). A non-contact sensor 171-7a), which sends a detection signal to the control unit 31 of the control means 30.
The rotating rotation start detection unit 17-2 is a detection unit that detects that the second operation unit 171-11b is pressed (that is, the second movable contact unit 171-22b and the second fixed contact unit 171- 41b or a second non-contact sensor 171-7b), and sends a detection signal to the control unit 31 of the control means 30.
[0109]
When the medal BET and the rotation switch are provided in the slot machine 1, the medal BET and the rotation switch are provided with a BET detection unit and a rotation rotation start detection unit.
The BET detection unit detects that the first operation unit 171-11 a is pressed, and sends a detection signal to the control unit 31 of the control unit 30. Upon receiving this detection signal, the control unit 31 sets the number of medals bet based on the number of receptions (that is, the number of times the first operation unit 171-11a has been operated).
[0110]
The spinning cylinder rotation start detecting unit included in the medal BET and the rotating cylinder rotation switch has the same function as the rotating cylinder rotation start detecting unit 17-2 included in the MAX BET and the rotating cylinder rotation switch 17.
Accordingly, the control unit 31 that has received the detection signal from the medal BET and the rotation rotation start detection unit of the rotation switch determines the bet number of medals based on this reception, and sends a pulse (drive) signal to the drum unit 20. Send.
[0111]
The control means 30 includes a control unit 31 and a credit memory 32.
The control unit 31 sets the bet number of medals based on the selection of the BET switch 12 or the MAXBET and the rotating cylinder rotation switch 17. In particular, for the MAXBET and the rotation switch 17, the bet number of medals is set based on the selection of one operation unit 171-11 a or 171-11 b included in the MAXBET and the rotation switch 17.
[0112]
The setting of the bet number of medals based on the selection of the contact part means that the control unit 31 determines in advance the correspondence between the number of selections of the contact part and the bet number of medals, and sets the medal bet switch (MAXBET and rotating switch). 17 or when the contact portion of the medal BET and the rotation switch) is selected, the bet number of medals is set based on the determined correspondence.
[0113]
The correspondence relationship between the number of times the contact portion is selected and the number of medals bet can be determined as follows.
For example, when the slot machine 1 is provided with the MAXBET and the rotation switch 17, the number of times of selecting the contact portion is made to correspond to three medals bet. As a result, by selecting the contact portion once, three pieces are set as the number of medals bet.
[0114]
On the other hand, when the slot machine 1 is provided with the medal BET and the rotation switch, the contact portion is selected once and the bet number of medals is made to correspond, and the selection number of times and the bet number are Two, or three selections and three bets are made to correspond. Thereby, one piece is set as the number of bets of medals when one point is selected once, two pieces are set when selected twice, and three pieces are set when selected three times.
[0115]
Further, the control unit 31 receives the detection signal from the rotating drum rotation start detecting unit 13-2 or the rotating drum rotation starting device 14, and the medal set by the operation of the BET switch 12 and the MAXBET detecting unit 13-1. The bet number is determined as the bet number of medals in the current game.
[0116]
Further, the control unit 31 sends a pulse (driving) signal to the drum unit 20 when receiving a detection signal from the rotating drum rotation start detecting unit 13-2 or the rotating drum rotation starting device 14.
And the control part 31 receives the marker signal from the drum unit 20, and confirms the stop symbol of the spinning cylinders 21a-21c.
[0117]
As a result of the confirmation, if the stopped symbol is a winning symbol, the number of stored medals is taken out from the credit memory 32, a predetermined number of winning medals is added, and it is sent again to the credit memory 32 for storage.
In FIG. 2, the control means 30 is provided above the inside of the slot machine 1, but is not limited to the above inside the slot machine 1, and can be provided at an arbitrary position inside the slot machine 1.
[0118]
[Second Embodiment]
Next, a second embodiment of the slot machine of the present invention will be described with reference to FIGS.
FIG. 10 is a perspective view showing the external appearance of the MAXBET and the rotating cylinder rotation switch provided in the slot machine of this embodiment. FIG. 11 is a schematic configuration diagram showing the mounting positions of the MAXBET and the rotating cylinder rotation switch on the front panel of the slot machine.
[0119]
This embodiment is different from the first embodiment in the structure of the MAXBET and the rotating cylinder rotation switch.
That is, in the first embodiment, the MAXBET and the rotating cylinder rotation switch are seesaw type switches, but in the present embodiment, they are different in that they are push slide type switches. Other components are the same as those in the first embodiment.
Therefore, in FIG. 11, the same components as those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0120]
As shown in FIG. 10, the MAXBET and the rotating cylinder rotation switch 17 of the slot machine 1 are configured by a slide type switch 172 (push slide type switch).
Here, the slide type switch 172 has a push button part 172a (push button contact part, first operation part) and a slide part 172b (slide contact part, second operation part).
[0121]
The push button unit 172a has a function of determining the number of medals bet, and the maximum number (usually three) of medals is bet by pressing once.
The slide part 172b has a rotating cylinder rotation start function, and the rotation of the rotating cylinders 21a to 21c is started by sliding.
The configuration and operation of the push button part 172a and the slide part 172b will be described later.
[0122]
The slide type switch 172 is provided on the front panel 10 of the slot machine 1 as shown in FIG. The mounting position of the slide type switch 172 is preferably the position where the conventional MAXBET switch 13 is provided.
By setting the mounting position of the slide type switch 172 to the position where the conventional MAXBET switch 13 is provided, the slide type switch 172 and the stop buttons 15a to 15c can be operated by movement of the arm in one direction. Thereby, fatigue of a player's arm can be reduced.
[0123]
The mounting position of the slide-type switch 172 is not limited to the position where the conventional MAXBET switch is provided, but the position where the conventional BET switch 12 and the rotating cylinder rotation start device 14 are provided, and any other arbitrary position. Can be provided in position.
However, in this case as well, it is desirable to set the mounting position in consideration of the movement of the player's arm.
[0124]
Furthermore, the slide type switch 172 can also be provided with an LED inside.
The LED lighting control is controlled by an IC (not shown) that is a set of transistor arrays, as in the case of the seesaw type switch 171. The LED can be turned on / off in accordance with ON / OFF of the MAXBET function and the rotating cylinder rotation start function.
Further, sound effects can be generated in accordance with the operation of the slide type switch 172.
[0125]
Next, the configuration and operation of the push button portion and the slide portion will be described with reference to FIGS.
12 to 17 are external perspective views showing the structure of the push button portion 172a, and FIGS. 18 and 19 are external perspective views showing the structure of the slide portion 172b.
[0126]
As shown in FIG. 12, the push button portion 172a includes a push button 172a-1, a push button contact 172a-2, a slide base 172a-3, and a push button spring member 172a-4. .
The push button 172a-1 is a part that is directly pressed by the player, and a push transmission for bringing the two push button contacts 172a-2 into contact with each other on the back surface facing the push button contact 172a-2 side. A member 172a-5 is provided.
[0127]
As shown in FIG. 13, when the push button 172a-1 is pushed downward (in the direction indicated by the arrow A in FIG. 13), the push transmission member 172a-5 pushes down one of the push button contacts 172a-2. To make contact with the other of the push button contacts 172a-2. As a result, the push button portion 172a is turned on.
In addition, although the push transmission member 172a-5 is formed in a columnar shape in FIG. 12, it is not limited to a columnar shape, and may be formed in, for example, a prismatic shape or a plate shape.
[0128]
The push button 172a-1 has a spring member receiver 172a-6 that supports the push button spring member 172a-4 on the back surface facing the push button contact point 172a-2.
One end of the push button spring member 172a-4 is attached to the spring member receiver 172a-6, and the other end of the push button spring member 172a-4 is attached to the slide portion bottom member 172b-2 ( As shown in FIG. 12, the push button 172a-1 is held at a position away from the slide base 172a-3.
[0129]
Thereafter, when the push button 172a-1 is pushed against the elastic force of the push button spring member 172a-4, as shown in FIG. 13, the push transmission member 172a-5 is used for two push buttons. The contact 172a-2 comes into contact and is turned on. The bottom surface of the push button 172a-1 is in contact with the tapered surface 172a-7 of the slide base 172a-3.
[0130]
The push button contact 172a-2 (contact member) is composed of two contact members, and is fixed to the housing of the slide type switch 172.
In the normal state, the push button contact 172a-2 is separated from each other by two contact members. That is, the push button part 172a is normally in an OFF state.
When the press button 172a-1 is pressed, one contact member of the two contact members is pressed by the press transmission member 172a-5 and contacts the other contact member. As a result, the push button portion 172a is turned on.
[0131]
When the push button contact 172a-2 is in the OFF state, the control means 30 does not set the number of medals bet.
Thereafter, when the push button contact 172a-2 is turned on, the control means 30 detects the ON state and sets the number of medals bet.
[0132]
In addition, although the contact 172a-2 for push buttons has two contact members in FIG. 12, it is not restricted to two pieces, For example, three contact members can also be provided.
In this case, one contact member is pushed by the push transmission member 172a-5 and comes into contact with both of the other two contact members to be turned on.
[0133]
The slide base 172a-3 is fixed to the housing of the slide type switch 172, and comes into contact with the pressed button 172a-1 by a tapered surface 172a-7.
By forming the contact surface between the slide base 172a-3 and the push button 172a-1 in such a taper shape, as shown in FIG. 14, the slide portion 172b slides in the direction shown in FIG. The push button 172a-1 can be moved in a direction (direction shown in FIG. 3C) that rides on the tapered surface 172a-7.
[0134]
Accordingly, since the push button 172a-1 and the push transmission member 172a-5 move obliquely upward due to the slide of the slide portion 172b, the two contact points for the push button 172a-2 are separated from each other, and the push button The part 172a can be turned off.
Thereby, the state where the slide part 172b and the push button part 172a are turned on at the same time can be avoided. Accordingly, the setting function of the betting number of medals corresponding to the push button part 172a and the rotation starting function of the rotating cylinder corresponding to the slide part 172b are not executed at the same time, so that the flow of the game is hindered or not established. Can be prevented.
[0135]
One end of the push button spring member 172a-4 is supported by a spring member receiver 172a-6 of the push button 172a-1, and the other end is supported by a slide portion bottom member 172b-2 (described later) of the slide portion 172b. The push button 172a-1 is urged upward.
In addition, although the spring member 172a-4 for push buttons uses the coil spring in FIG. 12, it is not restricted to a coil spring, For example, you may use a rubber spring, a leaf | plate spring, etc.
[0136]
Incidentally, in the push button portion 172a, as shown in FIG. 15, a push button non-contact sensor 172a-8 can be provided instead of the push button contact 172a-2.
As the push button non-contact sensor 172a-8, an optical sensor such as a photo interrupter using an infrared light emitting diode can be used, and the bottom of the slide-type switch 172 (or the side of the case). Fixed to etc.
[0137]
The photo interrupter has a light emitting element and a light receiving element (not shown). The light emitting element transmits detection light to the light receiving element. When the light receiving element receives the detection light, it outputs a detection signal to the outside. This detection signal is sent to the control means 30.
A gap is provided between the light emitting element and the light receiving element, so that the push-down transmission member 172a-5 can enter or pass.
[0138]
The push button non-contact sensor 172a-8, the push transmission member 172a-5, and the like perform the following operations.
As shown in FIG. 16, when the push button 172a-1 is pushed downward (direction A in the figure), the push transmission member 172a-5 is lowered accordingly. The lowered push transmission member 172a-5 enters the gap between the light emitting element and the light receiving element in the push button non-contact sensor 172a-8 and blocks the detection light. Then, the light receiving element cannot receive the detection light from the light emitting element, and therefore does not output a detection signal. In this case, the control means 30 does not set the number of medals bet.
[0139]
Thereafter, as shown in FIG. 17, when the push button 172a-1 slides in the horizontal direction (direction B in the figure), the push transmission member 172a-5 also moves in the same direction. The moved push transmission member 172a-5 escapes from the gap between the light emitting element and the light receiving element in the push button non-contact sensor 172a-8, and therefore does not block the detection light. Then, since the light receiving element can receive the detection light from the light emitting element, it outputs a detection signal. In this case, the control means 30 detects the detection signal and sets the bet number of medals.
[0140]
In this embodiment, the contact member (the push button contact 172a-2) and the contactless sensor (the push button contactless sensor 172a-5) are collectively referred to as detection means.
[0141]
As shown in FIG. 18, the slide portion 172b includes a slide member 172b-1, a slide portion bottom surface member 172b-2, and a slide portion contact 172b-3.
The slide member 172b-1 is a member that is directly slid by the player, and is provided with a contact member 172b-4 that contacts the two slide portion contacts 172b-3.
[0142]
The contact member 172b-4 is provided on a line that passes through the vicinity of the center of each of the slide portion contact points 172b-3.
For this reason, when the slide member 172b-1 slides in the direction indicated by the arrow B in FIG. 18, the contact member 172b-2 pushes one of the slide portion contacts 172b-3. One of the pressed slide part contacts 172b-3 comes into contact with the other of the slide part contacts 172b-3. Thereby, the slide part 172b will be in an ON state.
[0143]
The slide member 172b-1 has an opening 172b-5 formed on the upper surface.
A press button 172a-1 is fitted into the opening 172b-5.
Further, the slide member bottom surface member 172b-2 is fitted into the bottom surface portion of the slide member 172b-1. That is, the slide member 172b-1 and the slide part bottom surface member 172b-2 are formed to be separable.
[0144]
By making the slide member 172b-1 and the slide portion bottom surface member 172b-2 separable, the push button 172a-1 can be fitted into the opening 172b-5.
In addition, it is possible to allow the push button 172a-1 to be fitted to the opening 172b-5 by making it possible to separate the member on the upper surface of the slide member 172b-1 instead of the slide portion bottom member 172b-2. .
[0145]
In addition, an opening is formed in the slide bottom member 172b-2 so that the lower part of the side surface of the push button 172a-1 passes through.
Further, a spring member receiver 172b-6 for supporting the push button spring member 172a-4 protrudes from the slide portion bottom surface member 172b-2.
[0146]
The push button spring member 172a-4, the spring member receiver 172a-6, and the spring member receiver 172b-6 are provided in two in each of FIGS. 12 and 18, but are limited to two. Instead, one or more than three can be provided.
Further, the spring member receiver 172a-6 and the spring member receiver 172b-6 are formed in a shape suitable for the shape and structure of the push button spring member 172a-4.
[0147]
Further, the slide portion 172b can be provided with a slide portion spring member 172b-7.
The sliding member spring member 172b-7 is provided at a position that gives a resilient force in the sliding direction when the sliding member 172a-1 slides in the lateral direction (the B direction in FIG. 18). .
By providing such a spring member 172b-7 for the slide portion, the slide member 172b-1 can automatically return to its original position when the sliding force disappears.
[0148]
In addition, although the coil spring is used for the spring member 172b-7 for slide parts in FIG. 18, it is not restricted to a coil spring, For example, you may use a rubber spring, a leaf | plate spring, etc.
In the present embodiment, the push button 172a-1 and the slide member 172b-1 are collectively referred to as an operation member.
[0149]
By the way, in the slide part 172b, as shown in FIG. 19, it replaces with the slide part contact 172b-3, the slide part non-contact sensor 172b-8, and replaces the contact member 172b-4 with the rod member 172b-9. , Each can be provided. As the non-contact sensor 172b-8 for the slide part, an optical sensor, for example, a photo interrupter using an infrared light emitting diode can be used, and the bottom part of the slide type switch 172 (or the side part of the case) Etc. are fixed.
[0150]
The photo interrupter has a light emitting element and a light receiving element (not shown). The light emitting element transmits detection light to the light receiving element. When the light receiving element receives the detection light, it outputs a detection signal to the outside. This detection signal is sent to the control means 30.
A gap is provided between the light emitting element and the light receiving element so that the bar member 172b-9 can enter or pass.
[0151]
The non-contact sensor 172b-8 for sliding part, the bar member 172b-9, etc. perform the following operations.
When the slide member 172b-1 slides in the lateral direction (direction B in FIG. 18, slide direction), the rod member 172b-9 moves in the same direction. This moved bar member 172b-9 enters the gap between the light emitting element and the light receiving element in the non-contact sensor 172b-8 for sliding portion and blocks the detection light. Then, the light receiving element cannot receive the detection light from the light emitting element, and therefore does not output a detection signal. In this case, the control means 30 does not set the number of medals bet.
[0152]
Thereafter, when the slide member 172b-1 is returned in the direction opposite to the slide direction (the direction opposite to the direction B in the figure), the bar member 172b-9 is also returned in the same direction. Since the returned bar member 172b-9 escapes from the gap between the light emitting element and the light receiving element in the non-contact sensor 172b-8 for the slide portion, it does not block the detection light. Then, since the light receiving element can receive the detection light from the light emitting element, it outputs a detection signal. In this case, the control means 30 detects the detection signal and sets the bet number of medals.
[0153]
In the present embodiment, the contact member (slide part contact 172b-3) and the non-contact sensor (slide part non-contact sensor 172b-8) are collectively referred to as detection means.
[0154]
Next, an operation in which the push button portion 172a is turned off when the slide member 172b-1 is slid will be described with reference to FIGS.
FIG. 20 is a side view showing a state in which the slide portion 172b is slid in a state where the push button 172a-1 of the push button portion 172a is not pushed. FIG. 21 is a vector diagram showing operation directions of the push button 172a-1 and the slide member 172b-1.
[0155]
The slide member 172b-1 can be slid regardless of whether or not the push button portion 172a is pressed.
For example, when the slide member 172b-1 slides in a state where the push button 172a-1 of the push button portion 172a is not pushed, the slide member 172b-1 is moved as shown in FIG. The push button 172a-1 also moves in the direction of FIG.
[0156]
On the other hand, when the slide member 172b-1 slides in a state where the push button 172a-1 of the push button portion 172a is pushed, the push button 172a-1 and the slide member 172b-1 are respectively shown in the vector diagram of FIG. Move in the direction shown in.
[0157]
That is, the push button 172a-1 is pushed in the direction indicated by arrow A (pressing direction) in the figure, and then the slide member 172b-1 is indicated in the direction indicated by arrow B in the figure (sliding of the slide member 172b-1). When it is slid in the direction), the push button 172a-1 moves in the direction of arrow C (the movement direction of the push button 172a-1) in FIG. As a result, the push button portion 172a is turned off.
[0158]
If the MAXBET and the rotating cylinder rotation switch 17 are configured as described above, the push button portion 172a and the slide portion 172b are not turned ON at the same time, so that the MAXBET function that has been executed by the slide of the slide portion 172b is performed. Is released, and the rotation of the rotating drums 21a to 21c is started. Therefore, it is possible to prevent the game flow from being hindered.
[0159]
The push button 172a-1 and the slide member 172b-1 can be urged using a spring or the like. As a result, the push button 172a-1 and the slide member 172b-1 can be automatically returned.
In addition, a protrusion can be formed on a portion of the push button part 172a-1 and the slide member 172b-1 that are touched by a finger. The protrusions facilitate the operation of the push button unit 172a-1 and the slide member 172b-1.
[0160]
Furthermore, in order to make it easy to press down the push button 172a-1, a depression can be provided on the surface of the push button 172a-1.
In addition, the slide length of the slide member 172b-1 is preferably a length that is easy to operate, reduces the player's operation burden, and does not impair the game sensation, for example, about 15 mm ± 5 mm.
[0161]
【The invention's effect】
As described above, according to the present invention, the setting of the bet number of medals and the operation of starting rotation of the spinning cylinder are performed by switching the medal bet switch. Compared to the case, the movement of the arm can be reduced.
As a result, it is possible to reduce the fatigue of the arm that has been given to the player by the operation of the conventional rotating cylinder rotation starting device. Therefore, since the player can play the game for a long time, the operating rate of the slot machine can be increased.
[0162]
In addition, by providing a seesaw-type switch so that the contact part for setting the bet number of medals is located above and the contact part for starting rotation of the spinning cylinder is located below, the conventional medal bet switch and the spinning cylinder start to rotate. The player can feel the same feeling as the operation of the device.
[0163]
In addition, by using a seesaw type switch or push slide type switch with two contact parts for the MAXBET and the rotating cylinder rotation switch, the two contact parts do not turn on at the same time due to the structure. The simultaneous execution of the function and the rotation start function can be prevented.
[Brief description of the drawings]
FIG. 1 is a front view showing a configuration of a front surface of a slot machine according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing an internal configuration of the slot machine in the first embodiment of the present invention.
FIG. 3 is an external perspective view showing an external structure of a MAXBET and a rotating cylinder rotation switch (seesaw type switch) in the first embodiment of the present invention.
FIG. 4 is an exploded perspective view showing the structure of each part in a state where the MAXBET and the rotating cylinder rotation switch (seesaw type switch) in the first embodiment of the present invention are disassembled for each constituent part.
FIG. 5 is an external perspective view showing another structure of the MAXBET and the rotating cylinder rotation switch (seesaw type switch) in the first embodiment of the present invention.
FIG. 6 is a configuration diagram showing a mounting position of a seesaw type switch on the front panel of the slot machine.
FIG. 7 is a perspective view showing the appearance of another seesaw type switch in the first embodiment of the present invention.
FIG. 8 is a perspective view showing the appearance of still another seesaw type switch in the first embodiment of the present invention.
FIG. 9 is a block diagram showing a control means and its peripheral configuration in the slot machine of the present invention.
FIG. 10 is a perspective view showing an external structure of a MAXBET and a rotating cylinder rotation switch (slide type switch) in the second embodiment of the present invention.
FIG. 11 is a block diagram showing the mounting position of the slide type switch on the front panel of the slot machine.
FIG. 12 is a perspective view showing a structure of a push button portion of a slide type switch.
13 is a perspective view showing a state where a push button of the slide type switch of FIG. 12 is pressed.
14 is a perspective view showing a state where the push button of the slide type switch of FIG.
FIG. 15 is a perspective view showing another structure of the push button portion in the slide type switch.
16 is a perspective view showing a state where a push button of the slide type switch of FIG. 15 is pressed.
17 is a perspective view showing a state where the push button of the slide-type switch of FIG. 15 is pressed and further slid. FIG.
FIG. 18 is a perspective view showing a structure of a slide member in the slide type switch.
FIG. 19 is a perspective view showing another structure of the slide member in the slide type switch.
FIG. 20 is a side view showing the moving direction of the push button unit and the slide member in the slide type switch.
FIG. 21 is a vector diagram showing the moving direction of the push button part and the slide part in the slide type switch.
FIG. 22 is a front view showing a front configuration in a conventional slot machine.
FIG. 23 is an external perspective view showing a configuration of a rotating rotation start device in a conventional slot machine device.
[Explanation of symbols]
1 slot machine
11 medal slot
12 BET switch
13 MAXBET switch
14 Cylinder rotation start device
141 Conventional rotation start device
15a-15c Stop button
16 Display window
17 MAXBET and rotation switch
171 Seesaw type switch
171-1 Motion member
171-11a first operation part
171-11b Second operation part
171-12 Operating member shaft
171-13 Back
171-13a First back surface
171-13b Second back surface
171-2 Movable contact member
171-21 Sliding backing plate
171-22 Movable contact part
171-22a First movable contact portion
171-22b Second movable contact portion
171-231a, 171-232a, 171-231b, 171-232b
Movable contact
171-24 Movable contact operating axis
171-25 Notch
171-3 Motion transmitting member
171-31 Sliding part
171-32 Elastic body
171-33 Tubular part
171-34a First blocking plate
171-34b Second blocking plate
171-4 Fixed contact member
171-41a First fixed contact portion
171-41b Second fixed contact portion
171-411a, 171-412a, 171-411b, 171-412b
Contact terminal
171-421a, 171-422a, 171-421b, 171-422b
Fixed contact
171-5 Housing
171-51 first housing
171-511 bottom
171-512 Movable contact member support
171-513 mated part
171-52 Second housing
171-521 Plate-shaped part
171-522 operation member support part
171-523 Bearing
171-53 Third housing
171-531 Operation member upper support part
171-6a First operation unit
171-6b Second operation unit
171-7 Non-contact sensor
171-7a First contactless sensor
171-7b Second contactless sensor
172 Slide type switch (Push slide type switch)
172a Push button part (push button contact part, first operation part)
172a-1 Press button
172a-2 Contacts for push buttons
172a-3 Slide stand
172a-4 Spring member for push button
172a-5 Press transmission member
172a-6 Spring member receiver
172a-7 Tapered surface
172a-8 Non-contact sensor for push buttons
172b Slide part (slide contact part, second operation part)
172b-1 Slide member
172b-2 Slide bottom member
172b-3 Contact for slide part
172b-4 Contact member
172b-5 Opening
172b-6 Spring member receiver
172b-7 Spring member for slide part
172b-8 Non-contact sensor for slide part
172b-9 Bar member
20 drum units
21a-21c
30 Control means
31 Control unit
32 credit memory

Claims (5)

A medal bet switch operated by a player,
A slot machine having a control means for setting the number of medals bet based on the number of operations of the medal bet switch and controlling the rotation of the spinning cylinder,
A push button for setting the number of bets on the medal by pressing the medal bet switch;
A slide button that is formed integrally with the push button and that starts rotating by being slid with the push button;
Biasing means for biasing the slide button to a position where rotation of the rotating drum is not started , and
A slot machine , wherein the push button is provided so that the bet number of the medals is not set when the push button is pressed at a position other than the position where the slide button is urged . A medal bet switch operated by a player,
A slot machine having a control means for setting the number of medals bet based on the number of operations of the medal bet switch and controlling the rotation of the spinning cylinder,
A push button for setting the number of bets on the medal by pressing the medal bet switch;
A slide button that is formed integrally with the push button and that starts rotating by being slid with the push button;
Biasing means for biasing the slide button to a position where rotation of the rotating drum is not started , and
The medal bet switch has a taper structure in which the push button is pushed back by sliding the slide button in a state where the push button is pressed.
A slot machine characterized by that. A medal bet switch operated by a player,
A slot machine having a control means for setting the number of medals bet based on the number of operations of the medal bet switch and controlling the rotation of the spinning cylinder,
A push button for setting the number of bets on the medal by pressing the medal bet switch;
A slide button that is formed integrally with the push button and that starts rotating by being slid with the push button;
Biasing means for biasing the slide button to a position where rotation of the rotating drum is not started , and
When the push button is pressed at a position other than the position where the slide button is urged, the bet number of the medals is not set, and
The medal bet switch has a taper structure in which the push button is pushed back by sliding the slide button in a state where the push button is pressed.
A slot machine characterized by that. The slot machine according to any one of claims 1 to 3, wherein a direction in which the slide button is slid against the urging means is a downward direction. A detecting means provided corresponding to the push button and the slide button and detecting that each of them is operated is a contact member that contacts / non-contacts in conjunction with the operation, or light blocking / The slot machine according to any one of claims 1 to 4, comprising an optical sensor that detects light passage.

Images