JP2012070851A - Switch device for game machine, and game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a switch device for a game machine sequentially outputting different operation signals in a series of operations, and allowing selection of an output signal according to an operation direction.SOLUTION: A start lever unit 1 is provided with a start sensor 60, and a MAX bet sensor 70. An operation part 12 is formed to move a light shielding plate 81 to the lower direction sequentially detected by the MAX bet sensor 70 and the start sensor 60, to the front direction detected only by the MAX bet sensor 70, and to the upper direction detected only by the start sensor 60. The kind of a detection signal to be output from each detection sensor can be selected by an operation direction of the operation part 12.

Description

  The present invention relates to a gaming machine switch device that performs switching by operating an operation portion provided at a tip of an operation lever in a predetermined direction, and a gaming machine including the gaming machine switch device.

Conventionally, in this type of gaming machine, for example, a slot machine, various operations are required to advance the game. Specifically, a game medal is inserted into the medal slot, and the start switch is operated to start the rotating reel. Then, a stop switch is operated to stop the plurality of rotating reels one by one.
Among these, regarding the medal insertion operation, game medals are collectively inserted and used as credits, and replaced by medal insertion by operation of a bet switch, so that the labor of inserting medals for each game is saved. Nevertheless, the procedure described above is cumbersome for a player who wants to play a game quickly, and he wants to simplify it as much as possible.

In this regard, a lever switch having both the functions of a start switch and a bet switch has been devised (see Patent Documents 1 and 2). In these inventions, detection portions of a plurality of sensors are provided behind the lever so that a start signal and a bet signal are output according to the tilt angle of the lever.
In addition, as a technique in which a detection piece detects a some detection part sequentially, there exists a thing as shown in the cited reference 3, for example.

JP 2006-101925 A JP 2009-225891 A Japanese Patent Laid-Open No. 2005-230166

Here, when one switch is provided with a plurality of functions, the installation space can be increased as the number of sensors increases. Further, in order to enable switching with a single function, it is necessary to dispose the sensor to some extent, and the tilt angle of the lever must be increased. On the other hand, since the internal space of the gaming machine is limited, it is not preferable to increase the size of the switch.
Accordingly, the present invention has been made to solve the above-described problems, and the object thereof is as follows.
That is, the first object of the present invention is to provide a gaming machine switch device that can sequentially output different operation signals in a series of operations and that can select an output signal according to the operation direction. In addition to the first object, a second object is to provide a gaming machine switch device that is compactly formed. Furthermore, it is a third object to provide a gaming machine that allows the above gaming machine switch device to function properly.

In order to solve the above problems, the present invention has the following features. Note that the drawing numbers and symbols are the numbers and symbols used in the embodiments of the invention, and do not limit the technical scope of the present invention.
(Claim 1)
First, the invention according to claim 1 includes a lever shaft 11, an operation portion 12 provided at one end of the lever shaft 11 and exposed from the front of the gaming machine, and further away from the operation portion 12. A support portion (swinging shaft member 23) that is provided and movably supports the lever shaft 11, a detection piece (light-shielding plate 81) provided on the back side of the gaming machine with respect to the support portion, and movement of the detection piece A switch device (start lever) having at least a detection sensor (start sensor 60, MAX bet sensor 70) for detecting a signal and an origin return mechanism 30 for holding the lever shaft 11 at the origin position. Relating to unit 1).

  Here, the “support portion” is capable of supporting the lever shaft 11 so as to be swingable, slidable in the axial direction, or swingable and slidable. That is, for example, when the lever shaft 11 is provided in a horizontal state, the lever shaft 11 may be tiltable in the up-down direction and the left-right direction, or may be slidable back and forth or up and down. Here, the “detection piece” is one that moves together with the lever shaft 11 or cooperates with the lever shaft 11 to detect the movement of the lever shaft 11 by a detection sensor. The detection piece is provided at the other end portion of the lever shaft 11 opposite to the one end portion where the operation portion 12 is provided, and the shape thereof does not matter, such as a plate shape or a rod shape. The detection piece may be formed integrally with the end of the lever shaft 11 or may be attached to the end of the lever shaft 11 as a separate member.

The detection sensors (60, 70) are preferably light-shielding sensors, and may be reflection sensors, magnetic sensors, contact sensors, and proximity sensors.
The origin position is a position where the lever shaft 11 exists in a state where no force is applied to the operation unit 12 from any direction.
The origin return mechanism 30 is a mechanism for returning the lever shaft 11 moved by the operation of the operation unit to the origin position (initial state). For example, the origin return mechanism 30 uses a biasing force such as a coil spring 31, a leaf spring, or a rubber member. Can be. Alternatively, a mechanism for returning to the original position by the weight of the lever shaft 11 may be used.

  Furthermore, in the gaming machine switch device according to the present invention, as the detection sensor, a first sensor that outputs a first detection signal and a second detection signal that is different from the first detection signal are output. Two sensors are provided. The operation unit 12 includes a first operation direction in which movement of the detection piece is sequentially detected by the first sensor and the second sensor, and the first detection signal and the second detection signal are sequentially output, A second operation direction in which the movement of the detection piece is detected only by the second sensor and only the second detection signal is output, and the movement of the detection piece is detected only by the first sensor and the first detection signal. It is possible to select the type of detection signal output from the detection sensor according to the operation direction of the operation unit 12. That is, the detection piece according to the present invention has an arrangement and shape that enables the output of the detection signal as described above when the operation unit is operated in the first operation direction, the second operation direction, or the third operation direction. It has become.

Here, the first and second detection signals are signals relating to the operation of the gaming machine and can be output to the control device (control means) of the gaming machine to control the progress of the game or the performance. It is a signal that can be. Moreover, the movement direction of the said detection piece accompanying operation of the said operation part is at least three directions, and it may move to the direction beyond it. For example, the operation unit is configured to be operable in four directions, and the three directions are defined as the first, second, and third operation directions so that game processing is not performed even if the remaining one direction is operated. Is also possible.
In the present invention, the detection sensor from which the detection signal is first output by the operation in the first operation direction may be the first sensor or the second sensor.

According to the present invention, for example, when the operation unit 10 is operated in the first operation direction and when the operation unit 10 is operated in the third operation direction, the same detection signal is output so that the first detection signal is output. (The first detection signal or the second detection signal) is output in two different operation modes (movement of the operation unit in different operation directions). That is, when the player operates the operation unit, an operation mode in which the first and second detection signals are sequentially output, an operation mode in which the first detection signal is output alone, and a second detection It is possible to select from three operation modes, that is, an operation mode in which a signal is output alone.
(Claim 2)
The invention described in claim 2 has the following characteristics in addition to the characteristics of the invention described in claim 1. That is, the operation unit 12 includes the operation direction in which the lever shaft 11 tilts in any one of a plurality of directions with the support portion as a fulcrum, and the lever shaft 11 in a state where the lever shaft 11 is supported by the support portion. It is characterized in that it can be operated in three different directions among the operation directions moving in the axial direction.

Here, the three different directions correspond to the first operation direction, the second operation direction, and the third operation direction.
In the present invention, the operation unit 12 tilts in three different directions, the operation unit 12 tilts in two different directions and moves in one of the front and rear directions, and the operation unit 12 tilts in either direction. And moving in the front-rear direction. Specifically, the first operation direction is “an operation direction tilting (for example, upward or downward)”, the second operation direction is “an operation direction tilting (for example, downward or upward)”, and the third operation direction is “( For example, the operation direction tilted to the right or left) may be set. Alternatively, the first operation direction is “an operation direction tilting (for example, downward or upward)”, the second operation direction is “an operation direction for tilting (for example, upward or downward)”, and the third operation direction is “an axial direction (for example, The operation direction may be set as “moving forward or backward)”. Alternatively, the first operation direction is “an operation direction that tilts (for example, downward or upward)”, the second operation direction is “an operation direction that moves in an axial direction (for example, forward or backward)”, and the third operation direction is “an axial direction” It may be set as “the operation direction to move backward (for example, backward or forward)”.

  In other words, in the present invention, when the lever shaft 11 is supported by the support portion and cannot move in the axial direction, the operation unit 10 uses the support portion as a fulcrum. It is formed so that it can be operated in three different directions among a plurality of operating directions tilting in any direction, and can also move in the axial direction while the lever shaft 11 is supported by the support portion. When formed, the operation unit 10 is configured such that the lever shaft 11 tilts in any direction with the support portion as a fulcrum, and the lever shaft 11 is supported by the support portion. It is formed so that it can be operated in three different directions among the operating directions that move in the axial direction of the lever shaft 11.

(Claim 3)
The invention described in claim 3 is characterized by the following points in addition to the characteristics of the invention described in claim 1 or 2. That is, the detection parts of the first sensor and the second sensor are arranged on or near the extension of the axial center line of the lever shaft 11, and the detection piece is detected by the first sensor. A first detected part (MAX bet detected part 85) detected by the first part and a second detected part (start detected part 84) detected by the detection part of the second sensor, The detected part and the second detected part are characterized in that they are located in the vicinity of the detection parts of the first sensor and the second sensor in a state where the lever shaft 11 is at the origin position.

Here, the detection unit is a part having a function of detecting the detection piece in the configuration of the detection sensor, and includes a light emitting and receiving unit of the optical sensor, a magnetoresistive element of the magnetic sensor, and a contact sensor (limit switch). Includes contacts. For example, as shown in FIG. 21 (A), the detection unit is “arranged on or near the extension line of the axial center line of the lever shaft 11” of the axial center line of the lever shaft 11. That is, it is arranged in the front-rear direction on the extension line, and is arranged up and down across the axis center line of the lever shaft 11 as shown in FIG. 11A or 20A.
In addition, here, the first detected part and the second detected part are “located in the vicinity of each detecting part” that each detected part is located in the detection area of each detecting part. It is also included that it is not located in the detection area but is located slightly outside the detection area.

In addition, the first detected part and the second detected part are “positioned in the vicinity of each detecting part of the first sensor and the second sensor with the lever shaft 11 in the origin position”. This means that the detection units are arranged in a small unit, and that the detection piece itself is small.
Further, the “first detected part” and the “second detected part” in the present invention are a part of a detection piece having a predetermined area detected by the detection part, and the initial state (the lever shaft 11 is at the origin position). State) may be located within the detection range of the detection unit, or may be located outside the detection range. In the present invention, as shown in FIG. 20B, in the initial state, one detected portion is located within the detection range of the detection portion, and the other detected portion is outside the detection range of the detection portion. Includes those that are located.

According to the present invention, the arrangement of the detection parts of the two detection sensors (densely) and the shape of the detection piece (small size) can minimize the installation space of the detection part, particularly the radial dimension, and the lever shaft 11 swings. In this case, it becomes difficult to interfere with surrounding parts, and the shape of the entire operation switch can be made compact.
(Claim 4)
According to a fourth aspect of the invention, in addition to the feature of the invention according to any one of the first to third aspects, the first sensor and the second sensor are detection pieces corresponding to the first operation direction. Each detection part is arrange | positioned so that a predetermined space | interval may be provided in the direction different from the moving direction of this, and it is characterized by the above-mentioned.

Here, in the present invention, when the lever shaft 11 is moved in the first operation direction, the movement of the detection piece is sequentially detected by the first sensor and the second sensor. In order to enable such detection, the detection unit of the first sensor and the detection unit of the second sensor are necessarily positioned on the movement locus of the detection piece 11. Therefore, when the lever shaft 11 is moved in the first operation direction, the first detected portion of the detection piece passes through the detection portion of the first sensor, and the second detected portion of the detection piece is the second sensor. It will pass through the detector.
On the other hand, when the detection parts of the first sensor and the second sensor are arranged close to each other on the extension line of the axial center line of the lever shaft 11 or in the vicinity thereof as in the invention according to claim 3 When the distance between the detection unit of the first sensor and the detection unit of the second sensor (the mutual distance with respect to the movement locus of the detection piece) is too close, for example, the first detection unit easily passes the detection unit of the second sensor. Or, for example, not only the first detected part but also the second detected part can easily pass through the detecting part of the first sensor. It becomes difficult to detect sequentially.

Therefore, the detection unit of the first sensor and the detection unit of the second sensor are predetermined in a direction (for example, the axial center line direction of the lever shaft 11) different from the moving direction of the detection piece (for example, the swinging direction of the lever shaft 11). Since the movement trajectory of the first detected part and the movement trajectory of the second detected part are separated from each other by placing a certain distance from each other even if it is in the vicinity, The detected part is hardly detected by the other detecting part, and the shape of the first detected part and the second detected part, that is, the design of the detection piece is facilitated.
In other words, according to the present invention, the detection unit of the first sensor and the detection unit of the second sensor are arranged at a predetermined interval in a direction different from the moving direction of the detection piece, thereby ensuring the detection reliability. Even if it is a case where it is set as a compact structure like the invention which concerns on Claim 3, the certainty of detection can be ensured.

In the present invention, when the movement direction of the detection piece corresponding to the first operation direction is the vertical direction accompanying the tilting of the lever shaft 11, the first sensor and the second sensor are arranged at a predetermined distance in the front-rear direction. The first sensor and the second sensor move up and down when the moving direction of the detection piece corresponding to the first operation direction is the front-rear direction accompanying the movement of the lever shaft 11 in the axial direction. Those that are arranged a predetermined distance apart in the direction are included.
(Claim 5)
The invention described in claim 5 is characterized by the following points in addition to the characteristics of the invention described in claim 3 or 4. That is, the detection piece includes a first detected portion detected by the detecting portion of the first sensor and a second detected portion detected by the detecting portion of the second sensor, and the first detected portion And the second detected part are located outside the detection range of each detection part of the first sensor and the second sensor in a state where the lever shaft 11 is at the origin position, and the operation part 12 is in each operation direction. The detection piece is formed so as to move within the detection range of the detection unit of each sensor according to each operation direction, and the detection piece is operated in the first operation direction by the operation unit 12. In this case, each of the detected parts is detected in the order of the detection part of the first sensor and the detection part of the second sensor. When operated in the second operation direction, only the detection part of the second sensor is detected. When the second detected part is detected and operated in the third operation direction, the detection part of the first sensor There, characterized in that it is formed in a shape which makes it possible to detect the first detection target portion.

The invention of the present invention and the next invention limit the shape of the detection piece in the invention of claim 3. The detection sensor in the present invention and the next invention includes a light shielding sensor and a reflection sensor.
In the present invention, for example, as shown in FIG. 20 (A), each of the detected parts (84, 85) has two detection parts (61, 61) that are positioned above and below the axis center line of the lever shaft 11. , 71) is included.
(Claim 6)
The invention described in claim 6 is characterized by the following points in addition to the characteristics of the invention described in claim 3 or 4. That is, the detection piece includes a first detected portion detected by the detecting portion of the first sensor and a second detected portion detected by the detecting portion of the second sensor, and the first detected portion And the second detected part are located within the detection range of each detection part of the first sensor and the second sensor in a state where the lever shaft 11 is at the origin position, and the operation part is in each operation direction. When operated, it is configured to move to a position outside the detection range of the detection unit of each sensor according to each operation direction. And when the said operation part is operated in the 1st operation direction, the said detection piece detects each said to-be-detected part in order of the detection part of a 1st sensor, the detection part of a 2nd sensor, When operated in the second operation direction, only the detection part of the second sensor detects the second detected part, and when operated in the third operation direction, only the detection part of the first sensor is the first sensor. It is formed in the shape which makes it possible to detect a to-be-detected part.

Here, the detected portion of the detection piece is “positioned within the detection range of each detecting portion of the first sensor and the second sensor”, for example, as shown in FIG. , 85) is within the detection range of the two detection units (61, 71) that are positioned up and down across the axial center line of the lever shaft 11 and shifted in the front-rear direction. As shown in A), each detected portion (84, 85) is within the detection range of the two detecting portions (61, 71) arranged in the front-rear direction on the extension line of the axial center line of the lever shaft 11. Some are included.
Further, the first detected unit and the second detected unit are specifically referred to as “moving to a position outside the detection range of the detection unit of each sensor according to each operation direction”. Is operated in the first operation direction (for example, tilting operation in the downward direction), each detected unit moves in the movement direction corresponding to the first operation direction (in the above example, upward), and the operation unit 10 Is operated in the second operation direction (for example, tilting upward), each detected unit moves in a movement direction corresponding to the second operation direction (downward in the above example), and the operation unit 10 Is operated in the third operation direction (for example, pulling forward), each detected part moves in the movement direction corresponding to the third operation direction (forward direction in the above example). included. That is, even when each detected unit moves in the movement direction corresponding to each of the first, second, and third operation directions, the detected unit that moves outside the detection range differs depending on the operation direction. That is, depending on the operation direction, there is a detected part that remains within the detection range.

(Claim 7)
The invention described in claim 7 has the following characteristics in addition to the characteristics of the invention described in claim 6. That is, the lever shaft 11 is arranged so that the axial direction is horizontal, and the operation portion 12 is upward or downward as the first operation direction, and downward or upward as the second operation direction. The third operation direction is formed to be movable forward in the axial direction. Note that “the axial direction is horizontal” does not require the central axis of the lever shaft 11 to be strictly horizontal. For example, when the lever shaft 11 is installed in a direction orthogonal to the front surface of the housing (front door) of the gaming machine, and the front surface of the housing is inclined upward, the lever shaft 11 is operated by the operation unit 10. It will be arranged in a substantially horizontal state with the side slightly inclined upward.

Further, in the present invention, the detection units of the first sensor and the second sensor are composed of a light receiving unit and a light emitting unit arranged to face each other, and above and below the extension line of the axial center line of the lever shaft, respectively. The detection unit of the first sensor is located behind the detection unit of the second sensor. Either of the detection units of the first sensor and the second sensor may be located on the upper side.
The detection piece is positioned between the light receiving portion and the light emitting portion of each sensor in a state where the lever shaft is at the origin position, and from the detection portion of the second sensor to the second of the detection piece. The distance from the detection unit of the first sensor to the lower end of the first detection unit of the detection piece is shorter than the distance to the lower end of the detection unit, and the detection unit of the second sensor to the second detection unit The distance from the detection part of the first sensor to the upper end of the first detected part is longer than the distance to the upper end, and is longer than the distance from the detection part of the second sensor to the rear end of the second detected part. It is formed in the shape where the distance from the detection part of said 1st sensor to the rear-end part of said 1st to-be-detected part becomes short.

  In the present invention, in a state where the lever shaft 11 is at the origin position, each detection unit of each sensor detects each of the detection units, and the detection unit of the first sensor is a first detection unit. The second sensor is configured to output a second detection signal when the detection unit no longer detects the second detected portion. The detection here means that the light beam of the light emitting unit does not reach the light receiving unit. That is, “detecting each detected part” means that the light beam of the light emitting part does not reach the light receiving part, and conversely “not detecting each detection part” means that the light ray of the light emitting part is not received by the light receiving part. Is to arrive. In addition, “output detection signal” not only outputs a detection signal that has not been output so far, but also outputs a detection signal that has been output at a constant level to a different output level. It also includes changing.

  Here, the above-mentioned “distance” specifically means “distance” along a locus along which the detected part moves when the operation unit 12 is operated in each operation direction. That is, the “distance” from the detection unit of the first sensor to the lower end of the first detected unit and the “distance” from the detection unit of the second sensor to the lower end of the second detected unit It is a “distance” along an arc-shaped locus along which the detection piece moves when operated in one operation direction. Similarly, the “distance” from the detection unit of the first sensor to the rear end of the first detected unit and the “distance” from the detection unit of the second sensor to the rear end of the second detected unit are the operation unit It is a “distance” along a linear trajectory along which the detection piece moves when 12 is operated in the second operation direction.

In the present invention, when operated in the first operation direction, the timing detected by each sensor depends on whether the distance between the detection part of each sensor and each detected part of the detection piece is “long” or “short”. Differently, the order of detection is born.
As a specific example of the detection unit and the detection piece of the present invention, two detection units (61, which are positioned up and down with respect to the axis center line of the lever shaft 11 and shifted in the front-rear direction as shown in FIG. , 71), and in the initial state, each detected portion (84, 85) is a substantially bowl-shaped detection piece within the detection range of each detection portion, and the front and rear positions as shown in FIG. 18 are shown in FIG. Two detection parts (61, 71) reversed from the above, and a detection piece having a shape obtained by vertically inverting the detection piece of FIG. 11 are included.

(Claim 8)
The invention described in claim 8 is characterized by the following points in addition to the characteristics of the invention described in claim 7. That is, a rear case (lever shaft case 40) that houses at least the rear of the lever shaft 11 and a front case in which the front of at least the support of the lever shaft 11 is housed and its front surface is exposed to the front of the gaming machine. (Lever shaft holder 20), and a light emission source is provided behind the rear case, and a detection part and the detection piece of each sensor are arranged, and the light emission source is arranged above the rear case. A light guide member 90 that guides the irradiated light to a light emitting unit (light emitting display unit 91) disposed on the surface of the gaming machine is housed. The light source includes two LEDs 57 and 58, the light emitting unit is provided as a single member on the front surface of the front case, and the light guide member 90 includes the two LEDs 57 and 58. It is arranged between the single light emitting part and has a structure capable of receiving the irradiation light of the two LEDs 57 and 58 from the back side and emitting the irradiation light from the front side to the light emitting part. It is characterized by.

As the shape of the light guide member 90 in the present invention, it can be a Y-shape in which the rear receiving light is divided into two parts, or a battledore type in which the rear is formed wider than the front.
According to the present invention, the operation information indicating in which direction the operation unit is operated by the light emitting source, the light guide member, and the light emitting unit, and information indicating whether or not the detection of each sensor is effective (in other words, each sensor Detection information) can be notified to the player. In addition, since the light emitting unit is used as a single unit, it is not necessary for the player to turn his / her line of sight in order to confirm the operation information. In particular, since the light emitting unit is arranged on the front surface of the front case, it is easy for the player to see the detection information and operation information of the sensor even while operating.

In addition, you may form the opening part which can pass the said detection piece when the said operation part is operated by the 1st or 2nd operation direction in the upper and lower surfaces of the said back case, and the said light guide member. By forming in this way, the rear case can be further reduced in size, and the degree of freedom of installation and the movable range can be expanded.
(Claim 9)
The invention according to claim 9 includes a lever shaft 11, an operation portion 12 provided at one end portion of the lever shaft 11 and exposed from the surface of the gaming machine, and an end portion of the lever shaft 11 opposite to the operation portion 12 A detecting piece provided on the operating portion 12 and the detecting piece, and a support portion that movably supports the lever shaft 11, and detecting the movement of the detecting piece based on the operation of the operating portion 12. A gaming machine switch device having at least a detection sensor that outputs a detection signal and an origin return mechanism 30 that holds the lever shaft 11 at the origin position, and the detection signal from the detection sensor of the gaming machine switch device The present invention relates to a gaming machine including control means (main control board 7A) capable of executing a predetermined game processing based on the above. The detection sensor includes a first sensor that outputs a first detection signal and a second sensor that outputs a second detection signal different from the first detection signal. The movement of the detection piece is detected in the order of the first sensor and the second sensor, the first operation direction in which the second detection signal is output next to the first detection signal, and the movement of the detection piece is the first sensor. A second operation direction in which only the second detection signal is output by only two sensors and a movement of the detection piece is detected only by the first sensor and only the first detection signal is output. It is formed to be movable in the operation direction, and is configured to be able to select the type of detection signal output from the detection sensor according to the operation direction of the operation unit 12, and the control means detects from the first sensor Based on signal Starts the game process, characterized in that it is formed so as to initiate a second game process based on the detection signal from the second sensor.

The present invention is a gaming machine comprising the gaming machine switch device according to claim 1. However, in the present invention, when the operation unit 12 is operated in the first operation direction, the first sensor is detected first and the second sensor is detected later. The gaming machine switch device used in the gaming machine of the present invention may have the configuration of the gaming machine switch device according to any one of claims 2 to 8.
Here, the “game process” is a control process related to the execution of a game, and in addition to starting or ending a game by operating a predetermined device provided in the gaming machine, Processing to make it possible is also included.

In addition, in order to perform a game process “based on a detection signal”, a detection signal is directly input from each sensor, and a detection signal output from each sensor is passed through a predetermined control circuit (such as a relay board). Both cases of indirect input are included.
The control means includes a sub-control board (7B) mainly responsible for effect control in addition to the main control board (7A) mainly responsible for game control. Alternatively, both the main control board (7A) and the sub control board (7B) may be combined to serve as the control means.
The switch device for gaming machines in the present invention can be, for example, a “start lever device” operated at the start of a game, and can also be a “menu selection lever device” for displaying game information and effect information. it can.

(Claim 10)
According to a tenth aspect of the present invention, in addition to the characteristic feature of the ninth aspect of the invention, the control means is configured to detect the first game process and the second game process with respect to each game process. When the detection signal from one detection sensor is input, the game process is started regardless of the detection signal from the other detection sensor. It is characterized by.
The present invention clarifies that the detection signal of the detection sensor and the game processing correspond one-to-one regardless of the operation mode of the operation switch.

The “input detection signal” includes not only the case where the detection signal is directly input from each sensor but also the case where the detection signal output from each sensor is input via a predetermined control circuit.
(Claim 11)
The invention described in claim 11 has the following features in addition to the features of the invention described in claim 9 or 10. In other words, the invention according to claim 11 allows a game to be started by inserting a predetermined number of game media from the game media slot, and the game media input exceeding the specified number is credited inside the gaming machine. It relates to game machines that can be stored. The game media includes medals, game balls, and the like. The specified number is the number of inserted game media required to play one game.

In the present invention, when the first detection signal is input, the control means starts a bet process in which the credit is replaced with an input game medium within a specified number as the first game process, When the detection signal is input, a start process for starting a game is started as the second game process. When the operation unit is operated in the first operation direction, the start process is started after the betting process, and when the operation unit is operated in the second operation direction, When the start process is started and the operation unit is operated in the third operation direction, the bet process is started.
The gaming machine according to the present invention can be a slot machine or a similar gaming machine. The bet process is a process for handling a game medium necessary for a game from a credit. The start process is a process for starting rotation of the rotary reel 5A, for example. In the betting process according to the present invention, a MAX bet process for betting a specified maximum number of game media (for example, 3) and a predetermined number of game media (for example, 2 or 1) within a specified number of ranges are bet. Both of the betting processes to be performed are included.

According to the present invention, a bet operation and a start operation that have been performed for another operation unit until now can be completed by a series of operations for a single operation unit, thereby reducing a player's burden of game operation. In addition, the game operation time is shortened and the game can be performed efficiently.
Further, in the present invention, the detection unit that is detected first when operated in the first operation direction and the detection unit that is detected when operated in the second direction are common and operated in the first operation direction. In this case, the detection unit to be detected next and the detection unit to be detected when operated in the third direction are common. That is, since the single operation and the continuous operation are detected by a common sensor, it is not necessary to add a new sensor, and a new operation method can be realized while suppressing the manufacturing cost. Further, since the subsequent processing (bet processing, start processing) is performed based on the detection of the same sensor in single operation or continuous operation, the first operation to the third operation direction are in any direction. The same processing can be realized based on the signal.

(Claim 12)
According to a twelfth aspect of the present invention, in addition to the feature of the eleventh aspect of the invention, when the first detection signal is input, the control means uses the maximum number of credits as the first game process. This is characterized in that MAX bet processing for replacing the inserted game media is started.
The present invention is significant in a gaming machine in which the number of bets can be selected to be the maximum bet (for example, 3) or less than the maximum bet (for example, 1 or 2). In this case, it is preferable that other operation means (for example, a single bet button 4B) is operated.
Here, “replace credits with the maximum specified number of input game media” does not only mean that “3 cards” are always bet when the maximum specified number is “3 cards”, This means that a bet is made from credits up to the specified number. Therefore, if the credit is “2” or “1”, “2” or “1” is bet in the MAX bet processing.

According to the present invention, it is possible to speedily play a game with the maximum bet by an operation in the first operation direction. When a game is started with less than the maximum bet, it is possible to output only a start signal by performing an operation in the second operation direction after performing a predetermined bet operation according to the number of bets.
It should be noted that the MAX bet process of the present invention is not limited to that performed only based on the operation of the operation unit 12 of the gaming machine switch device. For example, a MAX bet button having a predetermined sensor detection mechanism is provided separately from the switch device for gaming machines, and when this MAX bet button is operated, an output signal (detection signal) from the sensor detection mechanism is also provided. , MAX bet processing may be performed.

(Claim 13)
The invention described in claim 13 is characterized by the following points in addition to the characteristics of the invention described in any one of claims 9-12. That is, the sensor circuit board 56 for inputting the respective detection signals of the first and second sensors and individually outputting signals based on the respective detection signals (start signal, bet signal) to the control unit of the gaming machine, The sensor circuit board 56 includes a signal conversion circuit for preventing signals based on the detection signals of the sensors from being simultaneously output.
Here, the “signal conversion circuit” can be a circuit for making the detection signal one-shot or delaying the output of the signal based on the detection signal. In addition, a configuration in which a circuit that outputs the input first detection signal in a one-shot manner and a circuit that outputs the input second detection signal after being delayed by a predetermined time may be combined.

  In addition, here, “not simultaneously output” means that both the output signal from the sensor circuit board 56 based on the first detection signal and the output signal from the sensor circuit board 56 based on the second detection signal are output signals. However, the present invention is not limited to not outputting at the same time (output timing being completely different). For example, a period in which the detection signal based on the first detection signal output from the signal conversion circuit is in a state in which the control unit determines that “the first sensor is ON” is the first period, When the period in which the output signal based on the second detection signal output from the signal conversion circuit is in a state in which the control means determines that “the second sensor is ON” is the second period. It also includes ensuring that the first period and the second period do not overlap. Moreover, not only in the case where the first detection signal and the second detection signal are generated at close intervals, but when only one of the first detection signal or the second detection signal is generated, The case of outputting a signal based only on the detection signal is also included in “not output simultaneously”.

The “signal based on the detection signal” is a signal that informs the control means that the switch is turned on based on the operation. Specifically, when the first detection signal is input to the signal conversion circuit, the signal is output from the signal conversion circuit corresponding to the first detection signal, and the second detection signal is the signal conversion circuit. Is a signal output from the signal conversion circuit in response to the second detection signal. In other words, it is a signal that is output for the control means to determine whether or not the first sensor or the second sensor is turned on based on an operation on the operation unit 12.
In the present invention, in particular, when an optical sensor is used as the sensor, the detection of the detected part by the detection part of the two sensors during the operation in the first operation direction is performed in the order of the first and second sensors. It is for clearly transmitting to the control means of the gaming machine. That is, as a detection signal, the change in the detection state of the second sensor is not directly output to the control means of the gaming machine but the change in the detection state of light reception and light shielding (ON → OFF or vice versa) in the detection unit of each sensor. Is output to the control device before the detection state of the first sensor is restored.

  Specifically, when the detection part of the first sensor detects the detected part, the detection signal is converted into a one-shot and output to the control means, and when the detection part of the second sensor detects the detected part. It can be formed so as to be delayed by a predetermined time exceeding the width of the one-shot signal and output to the control means.

  Since the present invention is configured as described above, it provides an operation switch for a gaming machine that can sequentially output different operation signals in a series of operations and can select the type of output signal by changing the operation direction. can do. In addition, a gaming machine switch device that is compactly formed can be provided. Then, a gaming machine capable of suitably functioning the above gaming machine switch device can be provided.

1 is an external front view showing a slot machine according to a first embodiment of the present invention. It is sectional drawing of a start lever unit. It is a disassembled perspective view of a start lever unit. It is a disassembled perspective view of an operation lever and a lever shaft holder. It is sectional drawing which shows the attachment state to the operation panel of a start lever unit. It is an expanded sectional view of an origin return mechanism and a light shielding member. It is a perspective view of a light shielding member. It is a figure which shows the positional relationship of a light shielding member and a sensor. It is a perspective view of a sensor unit. It is a disassembled perspective view of a sensor unit. It is an action | operation figure of an operation lever at the time of operating an operation part below. It is an action | operation figure of an operation lever at the time of operating an operation part upward. It is an action | operation figure of an operation lever at the time of operating an operation part to the front. It is a time chart which shows the signal output pattern of a sensor. It is a time chart which shows the signal output pattern of a sensor. It is a time chart which shows the signal output pattern of a sensor. It is a figure which shows the modification regarding the positional relationship of a light shielding member and a sensor. It is a figure which shows the modification regarding the positional relationship of a light shielding member and a sensor. It is a figure which shows the modification regarding the shape of a light shielding member, and the positional relationship of a sensor. It is a figure which shows the modification regarding the shape of a light shielding member, and the positional relationship of a sensor. It is a figure which shows the modification regarding the shape of a light shielding member, and the positional relationship of a sensor. It is a block diagram which shows the outline of the input and output of the control apparatus of a slot machine. FIG. 10 is a block diagram showing an outline of input and output of the control device of the slot machine according to the second embodiment of the present invention.

The embodiment of the present invention will be described by dividing it into a first embodiment and a second embodiment, taking a slot machine as an example of a gaming machine.
(First embodiment)
In the first embodiment, the switch device for gaming machines according to the present invention is applied to the start lever unit 1 provided in the slot machine S, and in particular, the operation lever is directed downward (first operation direction). When moved, the MAX bet switch and the start switch are sequentially turned ON to not only start the rotation of the rotating reel (having a start function) but also before the rotating reel starts rotating. It is configured to include a MAX bet operation in which a bet is placed on the number of bets (which also has a MAX bet function).

(Slot Machine S)
As shown in FIG. 1, the slot machine S has a plate-like front door 3 attached to the front side of a box-shaped housing 2 so as to be openable and closable, and has three rotating reels 5A inside the housing 2. The reel unit 5, the hopper unit 6 for storing and paying out medals, and the control device 7 for controlling the operation of the slot machine S are housed and fixed.
As shown in FIG. 1, the front door 3 includes a front panel 3A having a symbol display window 8 through which the rotary reel 5A can be viewed from the front side, and a lower panel 3C displaying characters and the like corresponding to the model of the slot machine S. And an operation panel 3B positioned between the front panel 3A and the lower panel 3C. A lower plate 3D that can store medals paid out from the hopper unit 6 is formed below the lower panel 3C and below the front door 3.

  Here, the operation panel 3B is provided with an operation switch section 4 composed of operation switches and the like related to the operation of the slot machine S. The operation switch unit 4 includes a medal slot 4A for inserting medals, a bet button 4B for replacing medals stored as credits with inserted medals, and a lever-shaped for starting rotation of the rotating reel 5A. A start switch 4C, a stop switch 4D composed of three button switches for individually stopping the rotation of the rotating reel 5A, and a cancel switch 4E for paying back a credited medal are provided. In the present embodiment, the bet button 4B functions as a single bet switch 4BS for replacing medals stored as credits with one inserted medal. Then, a MAX bet switch 4BM and a start switch 4C are arranged in a single start lever unit 1 for replacing the medals stored as credits with three inserted medals. That is, the start lever unit 1 is provided with a start sensor 60 and a MAX bet sensor 70 (see FIG. 2), and the start lever is configured to function as both the start switch 4C and the MAX bet switch 4BM. However, details of this will be described later.

Furthermore, the front door 3 is provided with an effect device 9 for making various effects accompanying the game. The rendering device 9 includes a lamp 9A and an image display unit 9B disposed above the front panel 3A, and a speaker 9C provided on the back wall of the lower plate 3D. The image display unit 9B displays a character graphic moving image or the like using a liquid crystal display device or the like.
A medal selector for detecting a medal inserted from the medal insertion slot 4A is built in the back side of the front door 3, although not particularly shown. The medal selector includes a medal sensor (see FIG. 22) for detecting medals inserted from the medal insertion slot 4A, a medal guide path for guiding medals passing through the medal sensor toward the hopper unit 6, and the medal guide path. And a medal discharging mechanism for discharging the medal flowing down toward the lower plate 3D, and is fixed to the back side of the operation switch unit 4 below the medal insertion slot 4A.

The control device 7 includes a control board on which various electronic components such as an IC are mounted, and a board case for housing the control board. As the control board, as shown in FIG. 22, a main control board 7A and a sub control board 7B are provided.
The main control board 7A is provided with various electronic components such as a CPU, a ROM, and a RAM, and functions as various control means when the CPU reads a program stored in the ROM. The main control board 7A controls the operations of the reel unit 5 and the hopper unit 6 while performing the lottery.
As shown in FIG. 22, each part of the medal sensor, single bet switch 4BS, stop switch 4D, and cancel switch 4E is connected to the input side of the main control board 7A and starts via the sensor circuit board 56. A switch 4C and a MAX bet switch 4BM are connected. The parts of the reel unit 5, the hopper unit 6, the start LED 57, the single bet LED, and the MAX bet LED 58 are connected to the output side of the main control board 7A. Here, the start LED 57, the single bet LED, and the MAX bet LED 58 are detected by the start switch 4C, the single bet switch 4BS, and the MAX bet switch 4BM, that is, the operation of each switch. It is for informing that it is possible. Although not shown, the single bet LED is, for example, a red LED and is provided inside the bet button 4B (see FIG. 1), and the button is lit by light emission of the LED. The sensor circuit board 56, the start LED 57, and the MAX bet LED 58, which will be described later, are also equipped with electronic components such as a CPU, a ROM, and a RAM, which are not particularly shown, on the sub control board 7B. Similarly, the CPU functions as various control means by reading a program stored in the ROM. The sub control board 7B inputs a signal from the main control board 7A and controls the operation of the effect device 9. The parts of the lamp 9A, the image display unit 9B, and the speaker 9C shown in FIG. 1 are connected to the output side of the sub control board 7B.

(Start lever unit 1)
Next, the configuration of the start lever unit 1 will be described in detail.
The start lever unit 1 of the present embodiment performs two processes (MAX bet process and start process) related to the start of the slot game in a predetermined order by a series of tilting operations in which the operation lever 10 is tilted in one direction from the origin position. In this way, the burden of the player's game operation is reduced, and the game operation can be performed smoothly.
The start lever unit 1 can be broadly divided into an operation lever 10 that can be tilted in the vertical direction and slidable in the axial direction by a player's operation, and a lever shaft holder that can be tilted or slidable. 20, an origin return mechanism 30 for holding the operation lever 10 at the origin position, a sensor unit 50 and a light shielding member 80 for detecting the operation of the operation lever 10, and the sensor unit 50 being housed inside the operation lever 10 and a lever shaft case 40 that covers the rear part.

(Control lever 10)
As shown in FIGS. 2 and 3, the operation lever 10 includes a metal lever shaft 11, an operation portion 12 fixed to the end of the lever shaft 11, and a sleeve 13 attached to the lever shaft 11. ing.
As shown in FIG. 4, the lever shaft 11 includes a screw portion 11A formed at the end of the front (the front side when the start lever unit 1 is attached to the slot machine S; the same applies hereinafter), and the rear A columnar insertion shaft 11E provided at the end of the end lever (the direction that becomes the back side when the start lever unit 1 is attached to the slot machine S; the same applies hereinafter) and the swing that is in front of the insertion shaft 11E and that will be described later Small-diameter shaft portion 11D that can be inserted into lever shaft hole 23B of shaft member 23, large-diameter shaft portion 11C that is in front of small-diameter shaft portion 11D and has a diameter larger than lever shaft hole 23B, large-diameter shaft portion 11C, and screw portion 11B, and a flange portion 11B for receiving the spring washer 14 (see FIG. 3). Further, a circular groove 11G (see FIG. 6) for attaching a light shielding member 80 is formed on the front side (base side) of the insertion shaft 11E, and the rear end portion of the small diameter shaft portion 11D is formed on the rear end portion of the small diameter shaft portion 11D. A ring groove 11F in which a retaining ring 34 (see FIG. 3) of the origin return mechanism 30 described later is mounted is formed. Further, a cylindrical sleeve 13 is mounted on the outer periphery of the large diameter shaft portion 11C.

The operation unit 12 is a substantially spherical member on which a predetermined game operation (pressing operation / push-up operation / drawing operation) is directly performed by the player. The operation portion 12 is formed so that the rear portion thereof is not a spherical shape but a vertical end surface, and although not particularly illustrated, a screw hole is formed in the rear end surface toward the front and the spring washer 14 is received. A circular recess is formed.
(Lever shaft holder 20)
3 and 4, the lever shaft holder 20 is a cylindrical front case formed with a hollow portion through which the operation lever 10 is inserted. As shown in FIG. A cylindrical holder body 21 that can be inserted into the mounting hole 300 formed in the operation panel 3B, and a flange portion 22 that is in front of the holder body 21 and has a diameter larger than the mounting hole 300. On the (upper / lower) side, a male screw portion 21A that is screwed into the nut-shaped lever unit mounting member 100 is formed. Further, a locking piece 24 having a claw portion protruding in the lateral direction for fixing the lever shaft case 40 is provided at the rear end portion of the holder main body 21 (see FIG. 4). Although not shown in the drawing, one locking piece 24 is provided on each of the left and right side surfaces. As shown in FIG. 5, the lever shaft holder 20 is sandwiched between the flange portion 22 and the lever unit mounting portion 100 and is fixed to the front side (mounting hole 300) of the operation panel 3B. In addition, the front end portion of the lever shaft 11 and the operation portion 12 are exposed to the outside of the operation panel 3B.

  Here, the lever shaft holder 20 includes a swing shaft member 23 that supports the lever shaft 11 so as to be tiltable and slidable in the front-rear direction in the hollow portion. The swing shaft member 23 is a metal member in which a lever shaft hole 23B that accommodates the lever shaft 11 so as to be movable in the front-rear direction is formed. The swing shaft member 23 is formed with a cylindrical swing shaft 23A that protrudes on both sides in a direction orthogonal to the axial direction of the lever shaft hole 23B. The swing shaft member 23 is accommodated in the hollow portion of the holder body 21 with the swing shaft in the horizontal direction. On the other hand, on the inner peripheral surface of the hollow portion of the holder main body 21, a metal bearing portion (not shown) that accommodates the swing shaft 23A in a vertically movable manner (not movable in the horizontal direction) is provided near the center. ing. By inserting the lever shaft 11 into the lever shaft hole 23B of the swing shaft member 23 that is rotatably mounted near the center portion of the holder main body 21 in this way, the operation lever 10 moves upward with respect to the lever shaft holder 20. At the same time, the operation lever 10 is movable in the front-rear direction with respect to the lever shaft holder 20.

  Further, as shown in FIG. 2, an upper protrusion 25 and a lower protrusion are provided on the ceiling portion and the bottom portion of the inner peripheral surface of the hollow portion of the lever shaft holder 20 as a restriction portion for restricting the tilt angle of the operation lever 10. A portion 26 is formed. The upper protrusion 25 is formed with a tapered surface 25A inclined downward from the front side toward the back side, and the lower protrusion 26 is formed with a tapered surface 26A inclined upward from the front side toward the back side. When the operation lever 10 is tilted, the sleeve 13 of the operation lever 10 is received by the tapered surfaces 25A and 26A. The rear end surfaces of the upper protrusion 25 and the lower protrusion 26 serve as a partition wall 28 that receives an urging force of an origin return mechanism 30 described later. In this partition wall 28, a small-diameter shaft portion 11D of the lever shaft 11 can be inserted, and a substantially rectangular regulation hole 27 extending in the vertical direction in which the lever shaft 11 tilts is formed. Since the operation lever 10 is attached with the lever shaft 11 inserted into the restriction hole 27, the operation lever 10 can move along the hole shape of the restriction hole 27 and move (tilt) in the horizontal direction. It can move in the up-down direction or in the front-rear direction.

The maximum tilt angle of the operating lever 10 is determined by the angle formed by the tapered surface 25A of the upper protrusion 25 and the tapered surface 26A of the lower protrusion 26. This angle is set such that the light shielding member 80 can be detected by the start sensor 60 and the MAX bet sensor 70 built in the sensor unit 50 when the operation lever 10 is tilted up and down. . Details of the sensing of the start sensor 60 and the MAX bet sensor 70 will be described later.
As shown in FIG. 4, a substantially W-shaped cutout 22A is formed in the vicinity of the upper portion of the flange portion 22 of the lever shaft holder 20, and the upper portion of the holder main body 21 is formed in the axial direction. A through hole 21B penetrating the thick part of the holder main body 21 is formed. The entrance portion on the front side of the through hole 21B is formed so as to face the notch 22A. As shown in FIGS. 2 and 3, the cut-out portion 22A is provided with a light-emitting display portion 91 having a substantially fan shape when viewed from the front, and a light guide plate 90 having a rectangular shape in plan view is attached within the through-hole 21B. It is done. Here, the light guide plate 90 and the light emitting display unit 91 are for guiding the light emitted from the LEDs 57 and 58 provided in the sensor unit 50 described later to the outside.

As shown in FIG. 3, the light guide plate 90 is a plate member in the form of a wing plate having a wide end at one end, and the operation lever 10 is operated downwardly in the wide portion. An opening 90A is formed so that the light guide plate 90 and the light shielding member 80 do not interfere when the light shielding member 80 attached to the lever 10 moves upward. The light guide plate 90 has a narrow tip portion that fits in the through hole 21B of the holder body 21, but the entire light guide plate 90 does not fit in the through hole 21B, and a part thereof (at least a wide portion near the opening). ) Protrudes from the through hole 21B and is covered by the lever shaft case 40 (see FIG. 2).
On the other hand, as shown in FIG. 3, the light emitting display portion 91 has two engaging protrusions 91A formed on the back surface of a resin-made main body having translucency, and these engaging protrusions 91A are formed on the holder main body 21. It is attached to the lever shaft holder 20 by being press-fitted into engaging recesses 21C (see FIG. 4) formed on both sides of the through hole 21B. At this time, since the light emitting display unit 91 is positioned in front of the front side end face of the light guide plate 90, when the LEDs 57 and 58 emit light, the light from the LEDs 57 and 58 is received from the back side to emit light. Here, the light emitting display portion 91 is formed of a transparent resin material so as to correspond to the two types of LEDs 57 and 58 that emit light having different light emission colors, whereby the same color as the light emission colors of the LEDs 57 and 58 is obtained. The light emission display unit 91 emits light, and the detection of the MAX bet sensor 70 or the start sensor 60 is enabled by the light emission color of the light emission display unit 91. In other words, the MAX bet operation or start for operating the MAX bet switch 4BM. It is possible to confirm from the outside that a start operation for operating the switch 4C is possible.

(Home return mechanism 30)
As shown in FIGS. 2 and 3, the origin return mechanism 30 includes a coil spring 31, a cylindrical member 32, a retaining ring 34, and a flat washer 33.
The cylindrical member 32 is positioned on the back side of the partition wall 28 of the lever shaft holder 20 in a state of being inserted into the small diameter shaft portion 11D of the lever shaft 11, and a flange portion 32A that contacts the partition wall 28 is formed at the front end portion. Has been. The retaining ring 34 is an E-ring that is mounted in a ring groove 11F formed at the rear end of the small-diameter shaft portion 11D, and the flat washer 33 is positioned in front of the retaining ring 34. The coil spring 31 is a compression coil spring wound around the cylindrical portion of the cylindrical member 32 inserted through the lever shaft 11, and is positioned between the flange portion 32A of the cylindrical member 32 and the plain washer 33 and the retaining ring 34. Yes. That is, the front end portion of the coil spring 31 is in contact with the flange portion 32A of the cylindrical member 32, and the rear end portion of the coil spring 31 is in contact with the flat washer 33. Since the front side of the flange portion 32A abuts against the partition wall 28 and the flat washer 33 and the retaining ring 34 are attached to the lever shaft 11, the operating lever 10 has a coil spring 31 with respect to the lever shaft holder 20. It is urged rearward along the extending axial direction, and the rear urging force from the coil spring 31 is received by the flat washer 33 and the retaining ring 34.

As described above, the operation lever 10 is normally urged rearward by the origin return mechanism 30 when the rear end surface of the large-diameter shaft portion 11C and the sleeve 13 abut against the front end surface of the swing shaft member 23. However, it will remain at the origin position. Then, when the operation lever 10 is pulled forward by pulling the operation unit 12 forward, it returns to the origin position by the axial restoring force of the coil spring 31, and is operated by pressing or pushing up the operation unit 12. When the lever 10 is tilted downward or upward, it is returned to the origin position by the restoring force of the coil spring 31 in the direction perpendicular to the axis.
In the start lever unit 1 of the present embodiment, when the operation lever 10 is pulled forward, the light shielding plate 81 is separated from the detection position of the detection unit 71 of the MAX bet sensor 70 (see FIG. 13). ). On the other hand, the maximum pull-out amount of the operation lever 10 is determined by the distance between the flange portion 32A of the cylindrical member 32 and the retaining ring 34, the length of the coil spring 31 in the compressed state, the thickness of the plain washer 33, and the like. Therefore, the distance dimension and size of each member can be pulled out to the distance at which the light shielding plate 81 is separated from the detection position of the MAX bet sensor 70.

(Lever shaft case 40)
The lever shaft case 40 is a cylindrical rear case that houses the rear end portion of the operation lever 10 (such as the light shielding member 80) and the sensor unit 50. As shown in FIGS. It is composed of a cap 41. The front end portion of the case body 40A is provided with a split piece-like insertion portion 40B that is inserted into the rear inner peripheral surface of the lever shaft holder 20, and the lever shaft holder 20 is locked on both front surfaces of the case body 40A. Holder locking holes 44 that can be engaged with the pieces 24 are provided, and cap locking holes 46 for locking the locking projections 45 of the case cap 41 are provided on both rear side surfaces. One holder locking hole 44 and one cap locking hole 46 are provided on the left and right side surfaces corresponding to the locking piece 24 and the locking projection 45. In addition, an upper through hole 42 and a lower through hole 43 for avoiding interference with the light shielding plate 81 are formed in the upper surface portion and the lower surface portion of the case main body 40A. Further, although not particularly illustrated, a space portion through which the light guide plate 90 can be inserted is formed above the inside of the case main body 40A, and the rotation of the light shielding plate 81 is restricted below the space portion. A pair of rotation restricting plates is formed in the vertical direction.

  Here, the rotation restricting plate is not particularly illustrated, but is a plate member standing on the left and right of the light shielding plate 81 at the central portion in the space of the case body 40A. A light shielding plate 81 in a vertical state moves in the vertical direction between the rotation restricting plates. On the other hand, the lever shaft 11 is installed in the lever shaft holder 20 so as to be rotatable in the circumferential direction around the shaft in order to absorb an impact when the operation unit 12 is pressed. Although the light shielding member 80 is rotatably attached to the lever shaft 11, if the light shielding member 80 receives a force in the direction of rotation accompanying the rotation of the lever shaft 11, the light shielding member 80 may rotate together. If the light shielding plate 81 rotates in this way, the detected part becomes inclined with respect to the detection part, and proper sensing cannot be performed. Therefore, a rotation restricting plate is provided so that even if the light shielding plate 81 tries to rotate as the lever shaft 11 rotates, the rotation restricting plate prevents the rotation and the light shielding plate 81 can maintain the vertical state. It is a thing.

The case cap 41 is formed of a transparent resin material so that the connector wiring state of the sensor unit 50 can be visually recognized from the outside. Then, the rear projections of the case body 40A are closed from the rear of the sensor unit 50 housed in the case body 40A by engaging the locking protrusions 45 provided on both sides with the cap locking holes 46 of the case body 40A. It is attached in this way.
(Sensor unit 50)
As shown in FIG. 10, the sensor unit 50 includes an optical MAX bet sensor 70 having a light emitting element 71A having a light emitting part and a light receiving element 71B having a light receiving part as a pair of detecting parts 71, and a light emitting element having a light emitting part. 61A and an optical start sensor 60 having a light receiving element 61B having a light receiving portion as a pair of detecting portions 61, a sensor circuit board 56 provided with both sensors, the MAX bet sensor 70, the start sensor 60 and the sensor circuit board. A unit case 51 for storing 56 therein.

The unit case 51 includes a front cover 52 that covers each sensor of the sensor circuit board 56 from the front side, and a rear cover 53 that closes the rear opening of the front cover 52.
As shown in FIG. 9, the front cover 52 includes a first bulging portion 54 that covers the light receiving element 71B of the MAX bet sensor 70 and the light emitting element 61A of the start sensor 60 (see FIG. 10), and the light emission of the MAX bet sensor 70. A second bulging portion 55 that covers the element 71A and the light receiving element 61B of the start sensor 60 is formed. The first bulging portion 54 passes detection light output from each light receiving / emitting portion to each of the locations corresponding to the light receiving portions 71B of the MAX bet sensor 70 and the light emitting device 61A of the start sensor 60. Slits (start detection slit 54A, bet detection slit 54B) are formed, and similarly, slits are formed in the second bulging portion 55 at locations corresponding to the light receiving and emitting portions of each sensor (not shown). Has been. As a result, an object passing between the first bulging portion 54 (the slit) and the second bulging portion 55 (the slit) is detected by the MAX bet sensor 70 and the start sensor 60.

The rear cover 53 is formed with a wiring through hole 53A facing a connector provided on the back side of the sensor circuit board 56. The rear cover 53 is opened on the back side of the front cover 52 that houses the sensor circuit board 56. The whole is unitized by fitting to the part.
The sensor circuit board 56 is formed with a sensor signal processing circuit (not shown) for performing specific signal processing on the output signals from the MAX bet sensor 70 and the start sensor 60. The sensor signal processing circuit A connector having a plurality of connection terminals from which a plurality of output signals are output is provided on the back side. Therefore, in the sensor unit 50, the signal directly output from the MAX bet sensor 70 is output as a MAX bet signal from the MAX bet signal output terminal of the connector to the outside (main control board 7A) via the sensor signal processing circuit. Similarly, a signal directly output from the start sensor 60 is output as a start signal from the start signal output terminal of the connector to the outside (main control board 7A) via the sensor signal processing circuit.

The detection unit 71 of the MAX bet sensor 70 provided on the sensor circuit board 56 emits light so that the height dimension of the light emitting part from the lower end part of the sensor circuit board 56 is the same as the height dimension of the light receiving part. The element 71A and the light receiving element 71B are provided on the sensor circuit board 56. Similarly, the detection part 61 of the start sensor 60 has a height dimension from the lower end of the sensor circuit board 56 of the light emitting part, and a height dimension of the light receiving part. The light emitting element 61A and the light receiving element 61B are provided on the sensor circuit board 56 so as to be the same. Then, detection light from the light emitting part of the light emitting element 61A is input to the light receiving part of the light receiving element 61B, and detection light from the light emitting part of the light emitting element 71A is input to the light receiving part of the light receiving element 71B.
On the other hand, as shown in FIG. 10, the protruding length of the detecting unit 71 of the MAX bet sensor 70 from the sensor circuit board 56 is shorter than the protruding length of the detecting unit 61 of the start sensor 60 from the sensor circuit board 56. The distance from the front surface of the sensor circuit board 56 differs between the detection range of the MAX bet sensor 70 and the detection range of the start sensor 60. Since the distances are different from each other in this way, the detection unit 71 of the MAX bet sensor 70 and the detection unit 61 of the start sensor 60 are attached to the start lever unit 1 and the axis of the lever shaft 11 when it is at the origin position. It can be arranged so that the position is shifted back and forth along the direction. When the sensor unit 50 is assembled to the start lever unit 1, the sensor circuit board 56 is attached so that the start sensor 60 is positioned above the MAX bet sensor 70. Therefore, the detection unit 61 of the start sensor 60 is positioned in front of and above the detection unit 71 of the MAX bet sensor 70 inside the lever shaft case 40. Naturally, the detection range of the start sensor 60 and the MAX bet Similarly to the detection unit, the detection range of the sensor 70 has a positional relationship in which the detection range of the start sensor 60 is forward and above the detection range of the MAX bet sensor 70 inside the lever shaft case 40.

In addition, as shown in FIG. 11, the detection unit 61 of the start sensor 60 and the detection unit 71 of the MAX bet sensor 70 are separated from each other at an equal distance from the axis center line of the lever shaft 11 at the origin position. As shown in FIG. 2, the vertical distance between the detection unit 61 and the detection unit 71 is substantially the same as the diameter of the small-diameter shaft portion 11D of the lever shaft 11, and the distance in the front-rear direction is larger than that. Slightly shorter dimensions. That is, the detection unit 61 and the detection unit 71 are arranged close to each other in the vicinity of an extension line of the axial center line of the lever shaft 11.
Further, as shown in FIG. 10, the sensor circuit board 56 has a MAX bet LED 58 (for example, a red LED) for notifying that the MAX bet operation is valid, and a start operation is valid. A start LED 57 (for example, a blue LED) for informing the state is provided. The light emission quenching of the start LED 57 and the MAX bet LED 58 is controlled based on an output signal from the main control board 7A. The start LED 57 and the MAX bet LED 58 provided on the sensor circuit board 56 are exposed from openings 52A and 52B formed in the front cover 52 so as to correspond to the respective positions. Moreover, the start LED 57 and the MAX bet LED 58 and the openings 52A and 52B are provided so as to face the rear end surface of the light guide plate 90 when the sensor unit 50 is assembled to the start lever unit 1. ing. Accordingly, the irradiation light from the start LED 57 and the MAX bet LED 58 is guided to the light emitting display unit 91 through the light guide plate 90.

As described above, in the present embodiment, the light-emitting display unit 91 and the light guide plate 90 are formed of a transparent light-transmitting material. However, the present invention is not limited to this. For example, the light-transmitting light colored in red or blue is used. It is also possible to use sex materials. In this case, if the start LED 57 and the MAX bet LED 58 are different in light emission pattern, for example, one is lit and the other is blinking, or the lighting time is different from each other, which LED emits light. It can be made clear.
Further, in the present embodiment, one connector is exposed from the wiring through-hole 53A of the rear cover 53, and the external connector is connected to the connector of the sensor unit 50. A harness wiring through hole or notch is formed in the rear cover 53, and only the harness is taken out from the sensor unit 50 from the connector of the sensor circuit board 56, and the connector from the outside is connected to the harness connector coming out of the sensor unit 50. It is good also as a structure which connects. The connector provided on the sensor circuit board 56 may be provided not on the back surface side of the sensor circuit board 56 but on the front surface side (the same surface as the sensor) of the sensor circuit board 56.

(Light shielding member 80)
The light shielding member 80 is attached to the rear end portion of the lever shaft 11 of the operation lever 10, and detects the operation of the operation lever 10 by the sensor unit 1. As shown in FIGS. 6 and 7, the light shielding member 80 includes a cylindrical portion 82 into which the insertion shaft 11E of the lever shaft 11 is inserted, and a substantially hemisphere that is formed on the inner peripheral surface of the cylindrical portion 82 and protrudes toward the inner side of the cylinder. The protrusion 83 and the light shielding plate 81 having a specific shape as a detection piece that passes through the detection range of the sensor unit 50 are integrally formed. Then, in the state where the insertion shaft 11E of the lever shaft 11 is inserted into the cylindrical portion 82, the light shielding member 80 is fitted to the lever shaft 11 with the projection 83 fitted into the circular groove 11G of the insertion shaft 11E. .

The structure for attaching the light shielding member 80 to the insertion shaft 11E so as to be rotatable is not limited to the structure in which the projection 83 is fitted to the circulation groove 11G, and an elastic locking piece having a locking claw is used as the rotation groove. It may be one that is locked by 11G so as to be pivotable, or one that is pivotally attached using an E-ring.
Here, as shown in FIG. 7, the light shielding plate 81 is a MAX bet detected portion 85 which is a detected portion detected by the MAX bet sensor 70 in response to the operation (tilting or pulling out) of the operation lever 10. And a start detected portion 84 that is a detected portion detected by the start sensor 60. Specifically, as shown in FIGS. 6 and 7, the light shielding plate 81 is a plate member having a substantially square shape in a side view, and a rectangular cutout portion is formed at a substantially central portion of the bottom of the square. And a hanging piece continuously extending downward from the rectangular cutout. The upper part of the shading plate 81 above the notch part is a start detected part 84, and the above hanging piece and the upper part are a MAX bet detected part 85.

  That is, the MAX bet detected portion 85 is located below the start detected portion 84, and the operation lever 10 is operated as shown in FIGS. 2, 8A, and 11A. When it is in the origin position without being present, the MAX bet detected portion 85 is located between the light emitting element 71A and the light receiving element 71B in the MAX bet sensor 70. It is located between 54B and the bet detection slit (not shown) of the second bulging portion 55 so as to block the detection portion 71 of the MAX bet sensor 70. On the other hand, the start detected portion 84 is between the light emitting element 61A and the light receiving element 61B in the start sensor 60, more specifically, the start detection slit 54A of the first bulge portion 54 and the start detection slit ( (Not shown) so as to block the detection unit 61 of the start sensor 60. Then, the MAX bet detection unit 85 and the start detection unit 84 change the detection units 71 and 61 of the MAX bet sensor 70 and the start sensor 60 according to the operation direction of the operation lever 10 (that is, the movement direction of the light shielding plate). It is formed to have different shielding ranges.

  More specifically, as shown in FIG. 8B, the light shielding plate 81 has a distance x from the detection unit 61 of the start sensor 60 to the lower end of the start detected portion 84 in a state where the operation lever 10 is at the origin position. The distance x ′ from the detection part 71 of the MAX bet sensor 70 to the lower end of the MAX bet detected part 85 is shorter than the distance y from the detection part 61 of the start sensor 60 to the upper end of the start detected part 84. The distance y ′ from the detection unit 71 of the sensor 70 to the upper end of the MAX bet detected unit 85 is long, and the MAX bet sensor 70 is larger than the distance z from the detection unit 61 of the start sensor 60 to the rear end of the start detected unit 84. The distance z ′ from the detection unit 71 to the rear end of the MAX bet detection unit 85 is formed to be short. By forming in this way, when the operation unit is tilted downward, the timing detected by each sensor differs depending on the distance between the detection unit of each sensor and each detected unit of the light shielding plate 81. This gives rise to the order in which they are detected. The distances x, x 'and y, y' are precisely distances along an arc-shaped locus along which the light shielding piece 81 moves as the operation lever 10 tilts. Further, the distances z and z ′ are distances along a linear locus along which the light shielding piece 81 moves as the operation lever 10 slides back and forth.

Then, when the operation lever 10 is operated downward from the origin position (the light shielding plate 81 moves upward), the MAX bet detected portion 85, as shown in FIG. When 10 is tilted by a predetermined angle α, it is detached from the detection unit 71 of the MAX bet sensor 70 (the detection unit 71 is shut off until the tilt angle of the operation lever 10 reaches α degrees), and the start detected unit 84 is shown in FIG. As shown in (C), when the operating lever 10 is tilted by an angle β (maximum tilting angle) larger than α, the operating lever 10 is separated from the detection unit 61 of the start sensor 60 (until the tilting angle of the operating lever 10 reaches β degrees). The detection unit 61 is cut off).
Here, in the present embodiment, a certain angle width is generated between the state where the operation lever 10 is tilted by α degrees and the state where the operation lever 10 is tilted by β degrees. ing. That is, when the operation lever 10 does not reach the position inclined by β degrees but is inclined by an angle exceeding α degrees, the MAX bet operation is performed, but the start operation is not performed. It becomes. With such a state, there is a possibility that an effect triggered by a bet operation can be executed.

When the operation lever 10 is operated upward from the origin position (that is, the light shielding plate 81 moves downward), as shown in FIG. Even if the operation lever 10 is tilted to the maximum tilt angle, the detection unit 71 of the MAX bet sensor 70 is shut off, and the start detected unit 84 is configured to detect the MAX bet sensor when the operation lever 10 is tilted by a predetermined angle γ. It is formed so as to be disengaged from the detection unit 71 of 70 (the detection unit 71 is blocked until the tilt angle of the operation lever 10 reaches γ degrees).
Further, when the operation lever 10 is pulled forward (the light shielding plate 81 moves forward), as shown in FIG. When it is slid by the distance s, it is separated from the detecting part 71 of the MAX bet sensor 70, and the start detected part 84 is in a state where the detecting part 61 of the start sensor 60 is cut off even if the operating lever 10 slides by the predetermined distance s. It is formed to be.

(Operation direction of control lever 10 and output signal from sensor)
Here, in the start lever unit 1 of the present embodiment, when the MAX bet detection unit 85 blocks the detection unit 71 of the MAX bet sensor 70, a detection signal (hereinafter referred to as MAX bet detection) output directly from the MAX bet sensor 70. Signal) is “Hi” level, and when the MAX bet detection unit 85 leaves the detection unit 71 of the MAX bet sensor 70, the MAX bet detection signal changes from the “Hi” level to the “Low” level. Similarly, a detection signal (hereinafter referred to as a start detection signal) that is directly output from the start sensor 60 when the start detected portion 84 is disconnected from the detection portion 61 of the start sensor 60 from a state where the detection portion 61 of the start sensor 60 is shut off. Also changes from “Hi” level to “Low” level. However, the detection signals from these sensors are not directly output to the outside (main control board 7A), but signals processed by the sensor signal processing circuit formed on the sensor circuit board 56 are output to the outside. It will be. Specifically, the sensor circuit board 56 outputs a MAX bet signal based on the MAX bet detection signal and a start signal based on the start detection signal.

Next, signal output of the start sensor 60 and the MAX bet sensor 70 according to the operation direction of the operation lever 10 will be described. As described above, the start lever unit 1 according to the present embodiment operates the operation unit 12 so that the front part of the operation lever 10 moves downward (first operation direction), upward (second operation direction), and front. It is possible to move in the direction (third operation direction).
First, as shown in FIGS. 11 (A), 12 (A), and 13 (A), when the operation lever 10 is at the origin position, the MAX bet detected portion 85 and the start detected portion 84 are respectively The detection units 71 and 61 of the MAX bet sensor 70 and the start sensor 60 are shut off, and the output signals from the MAX bet sensor 70 and the start sensor 60 are at the “Hi” level.

  When the control lever 10 is tilted downward (the light shielding plate 81 moves upward), which is the first operation direction, the tilt angle of the control lever 10 is set to a predetermined angle α as shown in FIG. Then, the MAX bet detection part 85 leaves the detection part 71 of the MAX bet sensor 70 (disengages upward), and the output signal from the MAX bet sensor 70 changes to the “Low” level. However, at this time, the start detected portion 84 remains disconnected from the detection portion 61 of the start sensor 60. Then, as shown in FIG. 11C, when the tilt angle of the operation lever 10 reaches a predetermined angle β (maximum tilt angle), the start detected portion 84 leaves the detection portion 61 of the start sensor 60, and the start sensor The output signal from 60 also changes to the “Low” level. That is, in the first operation direction, the output signal changes in the order of the MAX bet sensor 70 and then the start sensor 60. Further, when the operating lever 10 returns from the downward tilted state to the origin position, the output signal is output in the order of the start sensor 60 and then the MAX bet sensor 70, contrary to the case where the operating lever 10 is tilted downward. When the level changes from the “Low” level to the “Hi” level and returns to the origin position, both become the “Hi” level (see FIG. 16).

Note that, before the tilt angle of the operation lever 10 reaches the maximum tilt angle, the start detection unit 84 may leave the detection unit 61 of the start sensor 60 and the start sensor 60 may detect it.
When the operating lever 10 is tilted upward (the second operating direction) (the light shielding plate 81 moves downward), as shown in FIG. 12B, the tilting angle of the operating lever 10 is a predetermined angle γ. , The detected start part 84 leaves the detection part 61 of the start sensor 60 (leaves downward), and the output signal from the start sensor 60 changes to the “Low” level. When the operating lever 10 returns from the upward tilted state to the origin position, the start detected portion 84 enters the detecting portion 61 of the start sensor 60, contrary to the case where the operating lever 10 is tilted upward. The output signal from the start sensor 60 changes to the “Hi” level. On the other hand, the MAX bet detection unit 85 maintains a state where the detection unit 71 of the MAX bet sensor 70 is shut off regardless of the inclination angle of the operation lever 10, and the output signal from the MAX bet sensor 70 is “Hi”. The level is maintained. That is, only the output signal of the start sensor 60 changes in the second operation direction.

  When the operation lever 10 is pulled out in the forward direction, which is the third operation direction (the light shielding plate 81 moves in the forward direction), the movement distance of the operation lever 10 is a predetermined dimension s as shown in FIG. Then, the MAX bet detection part 85 leaves the detection part 71 of the MAX bet sensor 70 (leaves forward), and the output signal from the MAX bet sensor 70 changes to the “Low” level. When the operation lever 10 returns to the home position from the drawn state, the MAX bet detection unit 85 enters the detection unit 71 of the MAX bet sensor 70, contrary to the case where the operation lever 10 is pulled forward. The output signal from the MAX bet sensor 70 changes to the “Hi” level. On the other hand, the start detected portion 84 maintains the state where the detection portion 61 of the start sensor 60 is cut off regardless of the movement distance of the operation lever 10, and the output signal from the start sensor 60 maintains the “Hi” level. ing. That is, only the output signal of the MAX bet sensor 70 changes in the third operation direction.

(Sensor signal processing circuit of sensor circuit board 56)
In the start lever unit 1 of the present embodiment, as described above, output signals from the MAX bet sensor 70 and the start sensor 60 pass through predetermined sensor signal processing circuits, and each terminal of a connector provided on the sensor circuit board 56. (MAX bet signal output terminal / start signal output terminal). The sensor signal processing circuit formed on the sensor circuit board 56 includes a MAX bet signal circuit unit for an output signal from the MAX bet sensor 70, a start signal circuit unit for an output signal from the start sensor 60, although not shown. , Is formed.

  Here, when the output signal from the MAX bet sensor 70 changes from the “Hi” level to the “Low” level, the MAX bet signal circuit unit outputs the output signal of the “Low” level to a predetermined width Ta (for example, 2 To 5 ms) (see FIG. 16). The output signal thus changed is output from the output terminal MAX bet as a MAX bet signal. The main control board 7A that has input the MAX bet signal determines that the MAX bet switch 4BM has been turned ON. On the other hand, when the output signal from the start sensor 60 changes from the “Hi” level to the “Low” level, the start signal circuit unit changes the signal for a predetermined time Tb (for example, 6) that exceeds the width of the one-shot signal. It is formed to change with a delay of ˜15 ms (see FIG. 16). The output signal thus changed is output from the output terminal start as a start signal. The main control board 7A that has input the start signal determines that the start switch 4C has been turned ON.

As described above, when the lever shaft 10 is operated in the downward direction as the first operation direction, the output signal from the MAX bet sensor 70 that is detected first is set as a one-shot output, and the start sensor that is subsequently detected. Since the output signal from 60 is delayed, in the sensor circuit board 56 of this embodiment, the MAX bet signal and the start signal are simultaneously in the “Low” level state (that is, both signals are simultaneously turned “ON”. Will not be judged). That is, the MAX bet signal circuit unit and the start signal circuit unit function as a signal conversion circuit for preventing signals output from the sensor circuit board 56 from being simultaneously output based on the detection signal.
The MAX bet signal circuit unit and the start signal circuit unit include a MAX bet LED 58 and a start signal so that light is emitted when it is determined that the operation of the MAX bet switch 4BM and the start switch 4C is enabled on the main control board 7A. The LEDs 57 are connected to each other.

(MAX bet signal and start signal output pattern)
In the slot machine S of the present embodiment, a MAX bet signal and a start signal are output from the start lever unit 1 (specifically, a signal output terminal) to the main control board 7A. Is output (or input) as follows according to the operating direction of the operating lever 10.
When the operation lever 10 is tilted downward, which is the first operation direction, the output signal from the MAX bet sensor 70 changes from “Hi” level to “Low” level as shown in FIG. The “Low” level is maintained until the operation lever 10 returns to the origin position again. However, the MAX bet signal output from the MAX bet signal output terminal is made a one-shot output by the MAX bet signal circuit unit, and immediately changes from the “Low” level to the “Hi” level. The main control board 7A that has received (detected) such a change (falling) in the MAX bet signal determines that the MAX bet signal = “ON”, as shown in FIGS. 14 (A) and 15 (A). Thus, a predetermined MAX bet process can be executed. However, since the MAX bet signal is output in one shot, the MAX bet signal immediately returns to the “Hi” level. On the other hand, after the output from the start sensor 60 changes from the “Hi” level to the “Low” level, the “Low” level is maintained until the operation lever 10 is tilted upward again. However, the start signal output from the start signal output terminal is delayed by a predetermined time Tb (see FIG. 16) by the start signal circuit unit, and the MAX bet signal changes to “Hi” level and then changes to “Low” level. To do. The main control board 7A that has received (detected) such a change (falling) of the start signal determines that the start signal = “ON” (see FIGS. 14A and 15A), and has a predetermined value. Enable start processing.

When the operation lever 10 is tilted upward, which is the second operation direction, the output signal from the MAX bet sensor 70 remains at the “Hi” level, so the MAX bet signal also maintains the “Hi” level. Even in the main control board 7A, it is not determined that the MAX bet signal = “ON”. On the other hand, since the output signal from the start sensor 60 changes from the “Hi” level to the “Low” level, the start signal changes to the “Low” level at a timing delayed by a predetermined time Tb from the changed timing. The main control board 7A determines that the start signal = “ON” (see FIGS. 14B and 15B).
When the operation lever 10 is pulled out in the forward direction, which is the third operation direction, the output signal from the MAX bet sensor 70 changes from the “Hi” level to the “Low” level. Also, the main control board 7A determines that the MAX bet signal = “ON”. However, since the MAX bet signal is output in one shot, the MAX bet signal immediately returns to the “Hi” level. On the other hand, since the output signal from the start sensor 60 remains at the “Hi” level, the MAX bet signal does not change while maintaining the “Hi” level, and the start signal = “ON” also on the main control board 7A. Is not determined (see FIGS. 14C and 15C).

In this way, in the start lever unit 1 of the present embodiment, a series of actions for tilting the operation lever 10 downward from the origin position is “MAX bet and start operation”, and the operation lever 10 is moved upward from the origin position. The act of tilting is “start single operation”, and the action of pulling the operation lever 10 forward is “MAX bet single operation”.
(Outline of operation of slot machine S)
The slot machine S having the above configuration can place (bet) a predetermined number (maximum 3) of medals in one game, and more than a specified number of medals inserted from the medal slot 4A. Can be stored as credits up to 50 sheets. When up to a specified number of medals are inserted, a bet display unit (not shown) is displayed to indicate the number of stakes. When a predetermined number of medals are inserted, a predetermined credit (not shown) is displayed. Numeric values for the number of sheets inserted are displayed on the display unit.

  Then, when the credit is 1 or more, when the bet button 4B is pressed and the single bet switch 4BS is turned on (the main control board 7A determines that the single bet signal is “ON”), one medal is bet (1 bet processing is performed), 1 bet display is performed on the bet display section, and “1” is subtracted from the display on the credit display section. Each time the bet button 4B is operated, one bet process is performed, and a maximum of three bets are displayed and a subtraction display on the credit display unit is performed. On the other hand, when there are three or more credits, the operation lever 10 of the start lever unit 1 is operated downward or forward to turn on the MAX bet switch 4BM (the main control board 7A determines that the MAX bet signal “ON”). 3), it is considered that three medals have been betted (MAX bet processing is performed), 3 bets are displayed on the bet display section, and “3” is subtracted from the display on the credit display section. If the credit is less than 3 (1 or 2), it is considered that one or two medals have been bet even if the MAX bet switch 4BM is turned ON.

Further, the maximum number that can be bet varies depending on the gaming state. For example, during a normal game, betting is possible within a range of 1 to 3, but when a special gaming state such as a bonus game is entered, the maximum bet number is set to “1”, for example. In such a case, if it is determined that the MAX bet signal is “ON”, it is handled that one game medal is inserted as the MAX bet processing, and the display on the credit display section is also subtracted by “1”. Is done.
When the start switch 4C is turned ON by operating the operation lever 10 downward or upward (the main control board 7A determines that the start signal = “ON”), a winning lottery is performed and the rotary reel 5A Starts rotating (start processing is performed). The start switch 4C is valid on the condition that a bet is placed (the lottery process based on the start signal and the rotation process of the rotating reel 5A can be started). In the start lever unit 1 of the present embodiment, when the operation lever 10 is operated downward, the MAX bet switch 4BM and the start switch 4C are turned “ON” in this order. Although the process is started, if the operation lever 10 is operated upward without operating the bet switch 4B (without turning the single bet switch 4BS “ON”), the bet is not placed. Processing based on the operation of the start switch 4C is not started.

  Here, the role lottery is to determine whether or not the “comb” consisting of a combination of a plurality of symbols is a winning combination. Specifically, when a start signal is input, a random number is picked up, the random number value is compared with a winning lottery table having a winning area and a losing area for a plurality of winning combinations, and one of the winning combinations is won. Or whether no role was won. If any winning combination is won, a winning flag is established. As the winning combination, the symbols constituting the winning combination visible from the symbol display window 8 when all of the three rotating reels 5A are stopped are displayed in an arrangement corresponding to the winning combination (hereinafter referred to as winning) and a predetermined number A small combination where the medals are paid out, a replay combination that allows the next game to be played without a bet by winning, and a special combination that shifts to an advantageous game such as a bonus game by winning. When the special role is won, the winning flag is carried over after the next game.

  By operating the corresponding stop switch 4D while the rotating reel 5A is rotating, the rotating reel 5A stops rotating. At this time, if the result of the lottery is lost, the winning symbol will be won if the predetermined symbol is won (if the winning flag is established) so that the stopped symbols will not be aligned in any way of winning. Stop control is performed so that the symbols constituting the winning combination stop in the winning mode under a certain condition. When all the three rotating reels 5A are stopped and the symbols constituting the winning combination of each rotating reel 5A are stopped in a winning manner, the number of winning medals corresponding to the combination is paid from the hopper device 6. It is formed so that it can be placed, treated as a bet for the next game, or shifted to an advantageous game such as a bonus game.

In this embodiment, when a replay role is won in the previous game, in the subsequent game, the re-game is started by tilting the operation lever 10 to “down” or “up”. The However, when the operation lever 10 is tilted downward, the MAX bet signal is invalidated.
Further, in the present embodiment, the MAX bet switch 4BM and the single bet switch 4BS are provided side by side. However, if the slot machine S is a three-sheet dedicated machine, the single bet switch 4BS may not be provided. Needless to say.
Here, tilting the operating lever 10 upward to turn on only the start switch 4C is meaningful when playing a game using the single bet switch 4BS described above or at the time of replay winning, but the MAX bet sensor In some cases, it is desired to turn on only the MAX bet switch 4BM in order to check whether 70 is normally detected. In the present embodiment, when the operation lever 10 is tilted “downward”, the start sensor 60 detects the movement of the light shielding plate 81 following the MAX bet sensor 70. At this time, since the distance between the MAX bet sensor 70 and the start sensor 60 is close, in order to turn on only the MAX bet sensor 70, it is necessary to tilt the operation lever 10 slightly downward. The operation becomes difficult. In this regard, according to the present embodiment, when it is desired to check whether or not the MAX bet sensor 70 is normally detected, only the MAX bet sensor 70 is caused to react by pulling the operation lever 10 “forward”. Therefore, the abnormality of the MAX bet sensor 70 can be easily checked.

As described above, in the present embodiment, the light shielding plate 81 is formed in a specific shape, and two detection units are arranged according to the shape of the light shielding plate 81 (in other words, the two detection units are set in a specific arrangement). By forming the light shielding plate 81 in a shape having a detected part corresponding to the arrangement of the detecting part), two operations (bet operation and start operation) can be sequentially executed by a series of lever operations. ing. Therefore, the number of switch operations necessary for playing a game can be omitted, and a speedy game can be executed.
In the present embodiment, the operation lever 10 is in the neutral state (origin position) and the light shielding plate 81 is located in the sensor. When the operation lever 10 is operated, the light shielding plate 81 is detached from the sensor. The distance until the sensor is turned on is shortened (it can be turned on with a small tilt angle), and the lever shaft case 40 is provided with an upper and lower through hole through which the light shielding plate 81 can pass. For this reason, the whole unit can be made compact and can be replaced with an existing start lever unit.

  Here, when the bet operation and the start operation are sequentially performed by a series of operations on the operation unit, for example, one start sensor and one start sensor are provided in the start lever unit, and the start sensor is located at the origin of the lever shaft. If the bet sensor is placed above the start sensor and the operation unit is operated downward, the detection unit moves upward and is detected by the bet sensor, and then the lever shaft is moved. When returning to the origin position, the detection unit can be formed to move downward and be detected by the start sensor. In such a configuration, the start sensor does not detect the start operation when the detection piece moves from the origin position, but starts when the detection piece moves from the origin position and returns to the origin position again. It is necessary to form so as to detect. That is, in such a configuration, the start operation cannot be detected only by the change in the ON / OFF state of the start sensor. In order to sequentially output the bet signal and the start signal, the change in the state of the bet sensor is referred to. There is a need. This is because even if the start sensor is in the ON state, the signal processing unit cannot distinguish whether the start sensor is operated downward or whether it is operated upward.

  In this regard, in the present embodiment, when the operation unit is moved in the first operation direction (downward), the light shielding plate 81 is detected by the MAX bet sensor 70 before the light shielding plate 81 is detected by the start sensor 60. Therefore, the process (start process) according to the detection by the start sensor 60 is started in a state where the process (MAX bet process) according to the detection by the MAX bet sensor 70 is started. On the other hand, when the operation unit is moved in the second operation direction (upward), the MAX bet sensor 70 does not detect the light shielding plate 81, and the start process is started independently without starting the MAX bet process. That is, even when the operation unit is operated downward to perform “MAX bet and start operation”, or when the operation unit is operated upward to perform “start single operation”, the start sensor 60 blocks the light shielding plate. The start process can be started when 81 is detected. From the main control board 7A that inputs the start signal, when the output signal from the start sensor 60 (more precisely, the sensor circuit board 56) changes, a predetermined start process is started regardless of the operation direction. It is something that can be done. Therefore, it is possible to simply execute the start process associated with the start of the game at an appropriate timing.

  Furthermore, in the present embodiment, the first operation direction is set to the downward direction (push-down direction), the second operation direction is set to the upward direction (push-up direction), and the third operation direction is set to the forward direction (drawing direction). Only the MAX bet signal is output in the third operation direction. That is, the first operation direction and the second operation direction are the same operation mode in that the operation unit 12 is moved up and down to tilt the lever shaft 11, but only the third operation direction is in front of the operation unit 12. This is an operation mode belonging to a different category in which the lever shaft 11 is slid out and slid. As described above, the operation of turning on only the MAX bet sensor 70 is not generally performed in a normal game. By setting an operation mode that is completely different from other frequently performed operations (MAX bet and start operation, start single operation) with respect to such a rare single operation, the operation direction This makes it difficult to make a single bet operation by mistake.

From the above, whether the first to third operation directions are similar or completely different depending on the content of the corresponding output signal (game process started by the signal). It is preferable to determine.
(Modification 1)
In the first embodiment described above, the pass type photo interrupter in which the MAX bet sensor 70 and the start sensor 60 are provided with a pair of light emitting units and light receiving units at opposite positions is adopted. A reflection type photo interrupter in which the light emitting unit and the light receiving unit are oriented in the same direction can also be adopted.

In the detection method of the above-described embodiment, the circuit is configured to detect the timing at which each signal from the sensor circuit board 56 changes from Hi to Low, that is, “falling”. The circuit may be configured to detect the timing at which each signal from the sensor circuit board 56 changes from Low to Hi, that is, “rise”.
Further, in the sensor circuit board 56 of the above-described embodiment, each signal is made one-shot or delayed so that the MAX bet signal and the start signal are simultaneously “Low” (active) and are not determined to be “ON”. However, the present invention is not limited to this, and the MAX bet signal may be formed to be only one shot. Alternatively, the sensor circuit board 56 may be a simple relay board so that the MAX bet signal and the start signal can be simultaneously determined to be “ON” without providing a circuit related to one shot or delay. Further, the sensor and the main control board 7A may be directly wired without going through the sensor circuit board 56 itself so that the MAX bet signal and the start signal can be simultaneously determined to be “ON”.

(Modification 2)
In the start lever unit 1 of the first embodiment, the tilting range of the operation lever 10 is configured to be approximately the same in the upward direction and the downward direction. The stoppers (tapered surfaces 25A, 26A) located at the position may be configured such that the tilting range and the shape of the operating lever 10 are different in the upward direction and the downward direction by varying the inclination angle and shape.
In the above-described embodiment, the operation lever 10 can be pulled out in the forward direction. However, the present invention is not limited to this. For example, the operation lever 10 is urged in both the front direction and the back direction to move to the origin position. It may be configured to be movable in the forward or backward direction, and a predetermined game operation may be performed by pulling the operation lever 10 forward or pushing the operation lever 10 backward.

  Furthermore, in the above-described embodiment, the tilting direction of the operation lever 10 is configured to be “upward” or “downward”. However, the present invention is not limited thereto. The operation lever 10 may be configured to be operated by tilting in the “left direction” or “right direction”. In the above-described embodiment, the operation lever 10 is erected with respect to the vertical surface of the operation panel 3B. However, the present invention is not limited to this, and the operation lever 10 is placed on the horizontal surface of the operation panel 3B (for example, the bet button 4B in FIG. 1). Or a substantially horizontal plane portion provided with the medal slot 4A), and the operation lever 10 may be tilted to the horizontal plane for operation. That is, the tilting direction of the operation lever 10 is not particularly limited, and a direction in which the player can easily operate is desirable.

(Modification 3)
In the start lever unit 1 of the first embodiment, the MAX bet button is omitted, and when the operation lever 10 is operated to be pulled forward, the “MAX bet single operation” is performed. For example, the single bet button may be omitted, and a single bet sensor may be used instead of the MAX bet sensor, and the operation lever 10 may be pulled out forward so that “single bet single operation” is performed. Of course, in this configuration, when the operation lever 10 is tilted downward, a single bet signal and a start signal are sequentially output as a “single bet and start operation”. However, the “MAX bet” function itself is omitted by omitting the MAX bet button (corresponding to a single bet three-time operation), or an operation corresponding to “MAX bet” is performed by providing another “MAX bet button”. It may be configured as follows. Alternatively, when a MAX bet sensor is provided on both the MAX bet button and the start lever unit 1 and the operation lever 10 is tilted downward, a MAX bet signal and a start signal are sequentially output as “MAX bet and start operation”. The “MAX bet single operation” may be performed by pressing the MAX bet button or pulling the operation lever 10 forward. In this case, the single bet switch may be provided separately or omitted. Alternatively, when a single bet sensor is provided on both the single bet button and the start lever unit 1 and the operation lever 10 is tilted downward, a single bet signal and a start signal are sequentially output as “single bet and start operation”. “Single bet single operation” may be performed by pressing the single bet button or pulling the operation lever 10 forward. In this case, the MAX bet switch may be provided separately or omitted.

(Modification 4)
In the start lever unit 1 of the first embodiment, when the operation lever 10 is “tilted upward” or “drawn forward”, the operation lever 10 is shielded in any case. The movement of the plate 81 was detected. That is, some operation (processing) is performed even if the operation lever is operated in any of the movable operation directions. However, the present invention is not limited to this. For example, as shown in FIG. 17, by changing the shape of the light shielding plate 81, the distance from the detection unit 71 of the MAX bet sensor 70 to the rear end of the MAX bet detected unit 85 is the same as that of the first embodiment. Make it longer. Specifically, the distance from the detecting portion 71 of the MAX bet sensor 70 to the rear end portion of the MAX bet detected portion 85 is formed to be larger than the maximum pullable distance S of the operation lever 10. Even when “forward operation” is performed with respect to the operation lever 10, neither sensor detects the movement of the light shielding plate 81, and “tilt operation upward” “downward” When the “tilting operation” is performed, it is also possible to detect each sensor in the same manner as in the first embodiment. That is, in addition to giving some game action to all the operation directions in which the operation lever 10 is movable (that is, executing the game process), one of the plurality of operation directions in which the operation lever 10 is movable. The game operation may be given to the operation direction of the part (that is, the game process is executed).

(Modification 5)
In the start lever unit 1 of the first embodiment, “MAX bet” and “start” are performed when the operation lever 10 is tilted downward, and “operating lever 10” is tilted upward. However, the present invention is not limited to this. For example, as shown in FIG. 18, when the operation lever 10 is tilted upward, the “MAX bet” and the “start” are displayed. In addition, the operation lever 10 can be configured to perform a “start alone” operation by tilting the operation lever 10 “downward”. That is, the start sensor 60 is disposed below the MAX bet sensor 70, and the shape of the light shielding plate 81 is a shape that is inverted upside down from that of the above-described embodiment. Even in this case, when the operation lever 10 is pulled out in the “forward direction”, the “MAX bet alone” operation is performed.

(Modification 6)
In the start lever unit 1 of the first embodiment, as shown in FIG. 11A, the sensor unit 50 is disposed on the central axis at the origin position of the operation lever 10, and the MAX bet sensor 70 is sandwiched between the central axes. Although the start sensor 60 is arranged, the present invention is not limited to this. For example, as shown in FIG. 19, the sensor unit 50 is arranged at a position deviating from the central axis at the origin position of the operation lever 10, and the start sensor 60 and the start sensor 60 are started. Both of the sensors 60 may be arranged at positions away from the central axis at the origin position of the operation lever 10. That is, in the start lever unit 1 of the above-described embodiment, when the installation space of the unit is limited, the start lever unit 1 is configured as compact as possible by placing the center line at the origin position of the operation lever 10. As shown in the figure, the MAX bet sensor 70 and the start sensor 60 may be arranged near the center line of the operation lever 10 and at a position deviating from the center line at the origin position of the operation lever 10. Of course, if the installation space of the unit is not limited, a configuration in which the unit size is increased may be adopted, or each member may be separately attached to the operation panel without being unitized.

(Modification 7)
In the start lever unit 1 of the first embodiment, as shown in FIG. 11 (A), when the operation lever 10 is at the origin position, the light shielding plate 81 is connected to the detection portions 71 and 61 of the MAX bet sensor 70 and the start sensor 60. However, the present invention is not limited to this. For example, as shown in FIG. 20A, when the operation lever 10 is at the home position, the light shielding plate 81 is the MAX bet sensor. You may comprise so that the detection parts 71 and 61 of 70 and the start sensor 60 may not be interrupted (in other words, a to-be-detected part is made into an opening part or a notch part). That is, when the operation lever 10 is at the origin position, the light shielding plate 81 (the first detected portion and the second detected portion of the detection piece) is located outside the detection range of the detection portion of the first sensor and the second sensor. It can also be configured as follows. Alternatively, as shown in FIG. 20B, the light shielding plate 81 blocks only one of the detection portions of the MAX bet sensor 70 or the start sensor 60 (in other words, either one of the detected portions is a light shielding portion, The other may be configured as an opening or a notch. That is, when the operation lever 10 is at the origin position, a part of the light shielding plate 81 to be detected (either the first detected part or the second detected part of the detection piece) is the first sensor or the second sensor. It can also comprise so that it may be located outside the detection range of the detection part of a sensor.

Further, in the above-described embodiment, the detection units 71 and 61 of the MAX bet sensor 70 and the start sensor 60 are displaced in the front-rear direction, but not limited to this, by devising the shape and detection method of the light shielding plate 81, As shown in FIG. 20A, the MAX bet sensor 70 and the detection units 71 and 61 of the start sensor 60 may be arranged in the vertical direction.
(Modification 8)
In the start lever unit 1 of the first embodiment, when the sensor unit 50 is assembled to the start lever unit 1 as shown in FIG. The detection unit 61 is positioned above, and the detection unit 71 of the MAX bet sensor 70 and the detection unit 61 of the start sensor 60 are positioned above and below the axis of the operation lever 10. As shown in FIG. 21A, in addition to the arrangement in which the detecting portions 71 and 61 of the MAX bet sensor 70 and the start sensor 60 are displaced in the vertical direction with respect to the axis of the operation lever 10 as described above. Further, the detecting portions 71 and 61 of the MAX bet sensor 70 and the start sensor 60 can be provided at the same height in the vertical direction (particularly, arranged side by side on the axis of the operation lever 10). Can be formed compactly. In this case, the detection units 71 and 61 of the MAX bet sensor 70 and the start sensor 60 are detected by the light receiving and emitting elements 61A and 61B of the detection unit 61 of the start sensor 60 as shown in FIG. What is necessary is just to arrange | position so that it may be located inside the leg part of the light emitting / receiving element 71A, 71B of the part 71. In the case of forming in this way, the front of the unit case 51 that covers these sensors in accordance with the change in the mounting position of the detection unit 71 of the MAX bet sensor 70 and the detection unit 61 of the start sensor 60 with respect to the sensor circuit board 56. The cover 52 (the shape of the first bulging portion 54 and the second bulging portion 55 and the position of the slit) also needs to be changed.

(Second embodiment)
The second embodiment is a slot machine S in which the start lever unit 1 as a gaming machine switch device also functions as an effect selection switch.
Here, the basic configuration of the slot machine S according to the second embodiment and the mechanical configuration of the switch unit 1 are the same as those described in the first embodiment (including modifications). Will be omitted, and only the feature points of this embodiment will be described.
In the slot machine S according to the second embodiment, although not particularly illustrated, the operation switch portion 4 of the front door 3 is provided with a bet button including a single bet button and a MAX bet button. Each bet button is provided with a single bet switch 4BS and a MAX bet switch 4BM (FIG. 23).

  Further, in the start lever unit 1 of the slot machine S in the second embodiment, as shown in FIG. 23, there are a start switch 4C and an effect selection switch 4F for enabling the player to select the presence or absence of the effect. Be placed. The start switch 4C is connected to the input side of the main control board 7A, and the effect selection switch 4F is connected to the input side of the sub control board 7B via the sensor circuit board 56, respectively. That is, the start lever unit 1 is provided with an “effect sensor” connected to the sub control board 7B so that a predetermined effect start signal can be output, instead of the “MAX bet sensor” in the first embodiment. deep. The “production sensor” outputs a “production start signal” to the sub-control device 7B when the detection unit detects the movement of the light shielding plate 81 (turns ON). The output mode of the “effect start signal” is the same as the “MAX bet signal” in the first embodiment.

Here, the sub control board 7B is formed so as to be able to execute a predetermined notification effect (including a winning notice and a winning notice) based on winning flag establishment information from the main control board 7A. Specifically, the sub control board 7B stores a plurality of effect data (pattern data related to image display, sound effect change, and lamp lighting) to be displayed on the effect device 9, although not particularly illustrated. Depending on the start signal, whether or not the winning notification effect is executed is determined, and the effect data is selected according to the result of the effect lottery and the type of the winning flag, and the effect device 9 is caused to display based on the selected effect data. It can be done.
For example, if the configuration of the start lever unit 1 is as shown in FIG. 2, when the start sensor 60 is positioned above the effect sensor and the operation lever 10 is tilted downward, the effect start signal is After the change, the start signal changes, and when the operation lever 10 is tilted upward, only the start signal changes without changing the effect start signal. On the other hand, the sub-control board 7B that has received the change in the effect start signal causes the effect corresponding to the winning flag to be executed. With this configuration, when you want to enjoy a game with a notice effect (notification effect), perform a game start operation “downward” and enjoy a game without a notice effect (notification effect). The player can perform a game start operation in the “upward direction” and the player can select according to his / her preference.

In the above case, when the operation lever 10 is operated in the “forward direction”, the game is not started and only the notice effect is executed. It is also possible not to be performed. Further, in FIG. 2, the positions of the “effect sensor” and the start sensor 60 are exchanged so that when the operation lever 10 is tilted downward, the effect start signal changes after the start signal changes. good.
Furthermore, the effect selection switch 4F may be formed not only to select the presence / absence of the effect but also to select the type of execution effect. For example, when the operation lever 10 is tilted downward, the effect selection switch 4F and the start switch 4C are turned ON, the rotation reel 5A starts rotating, and the predetermined control determined by the effect lottery on the sub control board 7B. It is assumed that an effect accompanying the game is executed by video and audio. In this case, by operating the operation lever 10 in the “forward direction” while the rotating reel 5A is rotating, the effect signal output from the “effect sensor” changes, and the effect being executed can be changed to another pattern (for example, image display). It can be formed so that the character or BGM type appearing on the screen of the section 9B, the output sound volume, sound quality, tone color, etc. are different. When formed in this way, if the user does not like the effect pattern started after the start, the effect mode can be changed according to the player's preference. Further, there is no need to separately provide a switch for effect selection.

  As described above, the embodiment of the present invention has been described by taking the start lever unit as an example of the gaming machine switch device. However, the gaming machine switch device is not limited to the start lever unit, and effect image information (for example, a character image or a background image). , Production information selection lever unit for selecting and operating various production information such as production audio information (eg BGM and operation sound), model explanation, explanation of game method, symbol arrangement, appearance history and subgame It may be a game information selection lever unit for selecting various game information such as a result history. Further, although the embodiment of the present invention has been described by taking a slot machine as an example of a gaming machine, the present invention can also be applied to gaming machines other than the slot machine.

(Correspondence between terms described in embodiment and terms described in claims)
The start lever unit 1 corresponds to the gaming machine switch device according to claim 1 or 9, the swing shaft member 23 corresponds to the support portion according to claim 1 or 9, and the light shielding plate 81 is provided. An origin return mechanism 30 corresponding to the detection piece according to claim 1 or 9 and comprising a coil spring 31, a cylindrical member 32, a retaining ring 34, and a flat washer 33 is an origin return mechanism according to claim 1 or 9. Corresponding to
Further, the MAX bet sensor 70 and the production sensor correspond to the first sensor according to claim 1 or claim 9, the start sensor 60 corresponds to the second sensor according to claim 1 or claim 9, and MAX. The bet sensor 70, the start sensor 60, and the effect sensor correspond to the detection sensor according to claim 1 or claim 9, and the MAX bet signal and the effect start signal correspond to the first detection according to claim 1 or claim 9. Corresponding to the signal, the start signal corresponds to the second detection signal according to claim 1 or claim 9, the downward direction corresponds to the first operation direction according to claim 1 or claim 9, and the upward direction Corresponds to the second operation direction according to claim 1 or claim 9, and the front direction corresponds to the third operation direction according to claim 1 or claim 9.

The MAX bet detected portion 85 corresponds to the first detected portion described in claim 3, and the start detected portion 84 corresponds to the second detected portion described in claim 3. The lever shaft holder 20 corresponds to the front case according to claim 8, the lever shaft case 40 corresponds to the rear case according to claim 8, and the light emitting display portion 91 corresponds to the light emitting portion according to claim 8. Correspond. The sensor signal processing circuit corresponds to the signal conversion circuit of claim 13.
The slot machine S corresponds to the gaming machine described in claim 9, the betting process and the notice (notification) effect process correspond to the first gaming process described in claim 9, and the start process corresponds to claim 9. Corresponding to the second game process described above, the main control board 7A and the sub control board 7B correspond to the control means described in claim 9.

S Slot machine 1 Start lever unit 3 Front door 3B Operation panel
4B bet button 4BS single bet switch
4BM MAX bet switch 4C Start switch
4D Stop switch 4F Production selection switch 5 Reel unit 5A Rotating reel 6 Hopper unit 7 Controller
7A Main control board 7B Sub control board 8 Symbol display window 9 Production equipment
10 Control lever 11 Lever shaft
12 Operation part 13 Sleeve
20 Lever shaft holder 21 Holder body
22 Flange part 23 Oscillating shaft member
30 Origin return mechanism 31 Coil spring
40 Lever shaft case 41 Case cap
42 Upper through hole 43 Lower through hole
50 Sensor unit 51 Unit case
56 Sensor circuit board 57 Start LED
58 MAX bet LED
60 Start sensor 61 Detector
61A Light emitting element 61B Light receiving element
70 MAX bet sensor 71 Detector
71A Light emitting element 72B Light receiving element
80 Shading member 81 Shading plate
84 Start detected part 85 MAX bet detected part
90 Light guide plate 91 Light emitting display

Claims (13)

A lever shaft;
An operating portion provided at one end of the lever shaft and exposed from the surface of the gaming machine;
A support part that is provided on the back side of the gaming machine from the operation part and supports the lever shaft movably,
A detection piece provided on the back side of the gaming machine from the support part;
A detection sensor that detects the movement of the detection piece and outputs a detection signal;
In a gaming machine switch device having at least an origin return mechanism for holding the lever shaft at the origin position,
As the detection sensor, a first sensor that outputs a first detection signal and a second sensor that outputs a second detection signal different from the first detection signal are provided.
The operation unit includes a first operation direction in which movement of the detection piece is sequentially detected by the first sensor and the second sensor, and the first detection signal and the second detection signal are sequentially output; A second operation direction in which movement is detected only by the second sensor and only the second detection signal is output, and movement of the detection piece is detected only by the first sensor and only the first detection signal is output. The switch device for gaming machines is formed so as to be movable in the third operation direction, and the type of the detection signal output from the detection sensor can be selected according to the operation direction of the operation unit.   The operation portion moves in the operation direction in which the lever shaft tilts in any one of a plurality of directions with the support portion as a fulcrum, and in the axial direction of the lever shaft in a state where the lever shaft is supported by the support portion. 2. The switch device for gaming machines according to claim 1, wherein the switch device is configured to be operable in three different directions among the operation directions. The detection parts of the first sensor and the second sensor are arranged close to each other on or in the vicinity of the extension line of the axial center line of the lever shaft,
The detection piece includes a first detected portion detected by the detecting portion of the first sensor and a second detected portion detected by the detecting portion of the second sensor,
The first detected part and the second detected part are located in the vicinity of each detecting part of the first sensor and the second sensor in a state where the lever shaft is at the origin position. Item 3. A gaming machine switch device according to Item 1 or 2.   The first sensor and the second sensor are arranged such that each detection unit is positioned at a predetermined interval in a direction different from the moving direction of the detection piece corresponding to the first operation direction. The gaming machine according to any one of claims 1 to 3. The detection piece includes a first detected portion detected by the detecting portion of the first sensor and a second detected portion detected by the detecting portion of the second sensor,
The first detected part and the second detected part are located outside the detection range of the detection parts of the first sensor and the second sensor, with the lever shaft being at the origin position, and the operation part is When operated in each operation direction, it is formed to move within the detection range of the detection unit of each sensor according to each operation direction,
In the detection piece, when the operation unit is operated in the first operation direction, the detected units are detected in the order of the detection unit of the first sensor and the detection unit of the second sensor. When operated in the direction, only the detection part of the second sensor detects the second detected part, and when operated in the third operation direction, only the detection part of the first sensor detects the first detected part. 5. The gaming machine switch device according to claim 3, wherein the gaming machine switch device is formed in a shape capable of detecting a portion. The detection piece includes a first detected portion detected by the detecting portion of the first sensor and a second detected portion detected by the detecting portion of the second sensor,
The first detected part and the second detected part are located within a detection range of each detecting part of the first sensor and the second sensor in a state where the lever shaft is at the origin position, and the operation part is When operated in each operation direction, it is formed to move to a position outside the detection range of the detection unit of each sensor according to each operation direction,
In the detection piece, when the operation unit is operated in the first operation direction, the detected units are detected in the order of the detection unit of the first sensor and the detection unit of the second sensor. When operated in the direction, only the detection part of the second sensor detects the second detected part, and when operated in the third operation direction, only the detection part of the first sensor detects the first detected part. 5. The gaming machine switch device according to claim 3, wherein the gaming machine switch device is formed in a shape capable of detecting a portion. The lever shaft is arranged so that the axial direction is horizontal,
The operation unit is formed to be movable upward or downward as the first operation direction, downward or upward as the second operation direction, and axially forward as the third operation direction,
The detection units of the first sensor and the second sensor are composed of a light receiving unit and a light emitting unit arranged to face each other, and are respectively positioned above and below an extension line of the axial center line of the lever shaft, and the first sensor The detection part of the sensor is arranged rearwardly from the detection part of the second sensor,
The detection piece is positioned between the light receiving portion and the light emitting portion of each sensor in a state where the lever shaft is at the origin position, and the second detection target of the detection piece from the detection portion of the second sensor. The distance from the detection part of the first sensor to the lower end of the first detected part of the detection piece is shorter than the distance to the lower end of the part, and from the detection part of the second sensor to the upper end of the second detected part The distance from the detection part of the first sensor to the upper end of the first detected part is longer than the distance of the first sensor, and the distance from the detection part of the second sensor to the rear end of the second detected part is longer than The gaming machine switch device according to claim 6, wherein the switch device is formed in a shape such that a distance from a detection unit of one sensor to a rear end portion of the first detection target unit is shortened. A rear case that houses at least the rear of the lever shaft, and a front case that houses at least the front of the lever shaft and has a front surface exposed to the front of the gaming machine;
A light emission source is provided behind the rear case, and a detection unit and the detection piece of each sensor are arranged, and irradiation light of the light emission source is arranged on the surface of the gaming machine above the rear case. The light guide member that guides to the light emitting part is stored,
As the light source, it comprises two LEDs,
The light emitting part is provided as a single member on the front surface of the front case,
The light guide member is disposed between the two LEDs and the single light emitting unit, and can receive irradiation light of the two LEDs from the back side, and is directed to the light emitting unit from the front side. The gaming machine switch device according to claim 7, wherein the switch device has a structure capable of emitting irradiation light. A lever shaft, an operation portion provided at one end portion of the lever shaft and exposed from the surface of the gaming machine, a detection piece provided at an end portion opposite to the operation portion of the lever shaft, the operation portion and the detection A support unit that is positioned between the pieces and supports the lever shaft in a movable manner; a detection sensor that detects a movement of the detection piece based on an operation of the operation unit and outputs a detection signal; and the lever shaft at an origin position A switch device for a gaming machine having at least an origin return mechanism held in
In a gaming machine comprising control means capable of executing a predetermined gaming process based on a detection signal from a detection sensor of a switch device for gaming machines,
The detection sensor includes a first sensor that outputs a first detection signal and a second sensor that outputs a second detection signal different from the first detection signal, and the operation unit includes the detection piece. The first sensor direction is detected in the order of the first sensor and the second sensor, and the second detection signal is output after the first detection signal, and the movement of the detection piece is the second sensor. A second operation direction in which only the second detection signal is output and only the second detection signal is output, and a third operation direction in which the movement of the detection piece is detected only by the first sensor and only the first detection signal is output. It is formed so that it can move, and according to the operation direction of the operation unit, the type of detection signal output from the detection sensor can be selected,
The control means is configured to start a first game process based on a detection signal from the first sensor and start a second game process based on a detection signal from the second sensor. A gaming machine characterized by that. The control means starts the first game process and the second game process based only on a detection signal from the detection sensor corresponding to each game process,
10. The gaming machine according to claim 9, wherein when the detection signal from one detection sensor is input, the gaming process is started regardless of the detection signal from another detection sensor. A game machine that can start a game by inserting a predetermined specified number of game media from a game medium insertion port, and can store the game media input in excess of the specified number as credits inside the gaming machine,
When the first detection signal is input, the control means starts a bet process in which the credits are replaced with input game media within a specified number as the first game process, and inputs the second detection signal. When this is done, as the second game process, a start process for starting the game is started,
When the operation unit is operated in the first operation direction, the start process is started after the bet process,
When the operation unit is operated in the second operation direction, the start process is started,
The gaming machine according to claim 9 or 10, wherein the betting process is started when the operation unit is operated in a third operation direction.   The control means starts a MAX bet process for replacing the credit with a maximum prescribed number of inserted game media as the first game process when the first detection signal is input. Item 11. A gaming machine according to Item 11. A sensor circuit board for inputting the first and second detection signals and individually outputting a signal based on the detection signals to the control means of the gaming machine,
The gaming machine according to any one of claims 9 to 12, wherein the sensor circuit board includes a signal conversion circuit for preventing signals based on detection signals of the sensors from being simultaneously output.

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