JPH0679621B2 - Pachinko machine controller - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to various operations such as opening and closing a glass door, opening and closing a wooden frame, opening and closing a punching gate for safe balls and out balls, and stopping a beating motor for a pachinko machine. The present invention relates to a pachinko machine controller that can be easily operated from the outside without contact.

(Prior art and its problems) Conventional pachinko machines generally have individual keyholes, while the employee has a key, and if necessary, opens the glass door with the key to remove jammed balls. To eliminate
I open the wooden frame and perform the above various operations,
Since the operation is performed by inserting the key into the keyhole, there is a drawback that the operation requires time and effort. In addition, pachinko parlors have various types of pachinko machines with different specifications, such as different manufacturers, and different keys are provided for each, so that many employees need to operate a large number of keys to operate those pachinko machines. I had to carry it, and it was annoying to operate.

Therefore, as shown in Japanese Utility Model Laid-Open No. 61-73390, two light receivers are provided on a pachinko machine and one of the light receivers receives a light beam so that a glass door (described as a glass window in the publication). ) By opening the opening / closing solenoid and allowing the other light receiver to receive the light beam, the wooden frame (described in the publication as a front plate) opening / closing solenoid is configured to open,
It is proposed that the glass door and the wooden frame can be opened and closed without contact.

However, in the case of the conventional example having such a configuration, since a dedicated optical receiver is provided for each of the glass door and the wooden frame, if various operations such as stopping of another beating motor are attempted, those are As many as the number of operation targets,
It has to be equipped with a light receiver in a wooden frame, which is structurally complicated and expensive, and it has to be determined which light receiver is to be operated and which is unexpected. There is a drawback that it is easy to mis-operate such as operating another one, and also there is a drawback that the receivers are adjacent to each other and other objects are also operated when the light beam is projected. It was

Especially when opening all the glass doors for polishing the pachinko machine rails and adjusting nails after closing the store, insert the key into the keyhole for all the pachinko machines and open / close the door. In that case, it is necessary to project a light beam, which requires a great deal of labor to operate them, and there is a drawback that maintenance and inspection after the store is closed takes time.

(Object of the invention) The present invention has been made in view of the above circumstances, and enables various operations on a pachinko machine to be structurally simple even if there are many objects to be operated, and moreover, without any erroneous operation. In addition, it is intended to facilitate the same operation for many pachinko machines.

(Structure and Effect of the Invention) In the first invention of the present invention, a pachinko machine controller is provided with a key code generating section for generating a set unique key code, and a function code for generating a function code for driving and operating an actuator. A transmitter having a generator, a continuous operation code generator that generates a continuous operation code for continuous operation, and a transmitter that converts and outputs each of the key code, the function code, and the continuous operation code into a wave signal; A key code storage unit that is provided on the first pachinko machine and stores a unique key code, a reception unit that converts a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, the key code A key code collating circuit that compares the key code of the storage unit with the key code signal obtained by the receiving unit and outputs an operation permission signal when they match, and an actuator corresponding to the function code signal by the operation permission signal. From an output circuit that outputs an eta drive signal, a continuous operation transmission unit that transmits a function code signal to the second pachinko machine in response to the continuous operation code signal, and a continuous operation transmission unit of the third pachinko machine. And a receiver including a continuous operation receiving unit that outputs the function code signal to the output circuit and outputs the function code signal to the continuous operation transmitting unit.

According to a second aspect of the present invention, the pachinko machine control device includes a key code generation unit that generates a set unique key code, a function code generation unit that generates a function code for driving and operating an actuator,
A continuous operation code generator for generating a continuous operation code for continuous operation, a continuous operation stop generator for generating a continuous operation stop code for stopping a continuous operation, and the key code, function code, continuous operation code, and continuous operation stop A transmitter provided with a transmitter for converting each code into a wave signal and transmitting the wave signal, a key code storage unit provided on the first pachinko machine for storing a unique key code, and a wave signal from the transmitter as a key. A code signal, a function code signal, a continuous operation code signal, and a continuous operation stop code signal, and a receiving section for converting them respectively. The key code of the key code storage section and the key code signal obtained by the receiving section are compared and both are compared. Key code collating circuit that outputs an operation allowance signal when they match, an output circuit that outputs an actuator drive signal corresponding to the function code signal by the operation allowance signal, and a function code in response to the continuous operation code Signal to the second pachinko machine for continuous operation, and the function code signal from the continuous operation transmitter of the third pachinko machine is received and output to the output circuit and to the continuous operation transmitter. From a continuous operation receiving unit that outputs a function code signal, and a receiver that includes a continuous operation stopping unit that stops the output of the continuous operation signal of the continuous operation transmitting unit in response to the continuous operation stop code signal. It became the composition.

According to a third aspect of the present invention, the pachinko machine controller includes a key code generation unit that generates a set unique key code, a function code generation unit that generates a function code for driving and operating an actuator,
A continuous operation code generating section for generating a continuous operation code for continuous operation; and a transmitter including a transmitting section for converting the key code, the function code and the continuous operation code into wave signals and transmitting the wave signals. A key code storage unit provided on a pachinko machine for storing a unique key code, a reception unit for converting a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, and a key code storage unit. A key code collating circuit that compares the key code and the key code signal obtained by the receiving unit and outputs an operation permission signal when they match, and an actuator drive operation signal corresponding to the function code signal by the operation permission signal. A first receiver provided with an output circuit for outputting, and a continuous operation transmitting unit for transmitting a continuous operation signal to a second pachinko machine in response to the continuous operation code, and a second receiver provided on the second pachinko machine. A continuous operation receiving unit for receiving a continuous operation signal from the first pachinko machine, and a second receiver including an output circuit for driving and operating an actuator by the continuous operation receiving unit. .

According to a fourth aspect of the present invention, the pachinko machine controller includes a key code generation unit that generates a set unique key code, a function code generation unit that generates a function code for driving and operating an actuator,
A continuous operation code generating section for generating a continuous operation code for continuous operation; and a transmitter including a transmitting section for converting the key code, the function code and the continuous operation code into wave signals and transmitting the wave signals. A key code storage unit provided on a pachinko machine for storing a unique key code, a reception unit for converting a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, and a key code storage unit. A key code collating circuit that compares the key code and the key code signal obtained by the receiving unit and outputs an operation permission signal when they match, and an actuator drive operation signal corresponding to the function code signal by the operation permission signal. A first receiver provided with an output circuit for outputting, and a continuous operation transmission unit for transmitting a continuous operation signal to a second pachinko machine in response to the continuous operation code, and a second receiver provided on the second pachinko machine. From Said first receiving unit for continuous operation which receives a continuous operation signal from the pachinko machine, the output circuit of the actuator drives operated by the continuous operation receiving unit,
And a second receiver including a continuous operation transmission unit that transmits a continuous operation signal to the third pachinko machine in response to the continuous operation code.

According to a fifth aspect of the present invention, the pachinko machine controller includes a key code generation unit that generates a set unique key code, a function code generation unit that generates a function code for driving and operating an actuator,
A continuous operation code generating section for generating a continuous operation code for continuous operation, a continuous operation stop code generating section for generating a continuous operation stop code for stopping a continuous operation, and the key code, function code, continuous operation code and continuous operation A transmitter provided with a transmitter that converts each stop code into a wave signal and transmits the wave signal, a key code storage unit that is provided on the first pachinko machine and stores a unique key code, and a wave signal from the transmitter. A receiving unit for converting the key code signal to the function code signal and the continuous operation code signal, the key code of the key code storage unit and the key code signal obtained by the receiving unit are compared, and when the two match, the operation permission signal A key code collating circuit for outputting a key code collating circuit, an output circuit for outputting an actuator drive operation signal corresponding to a function code signal by the operation permission signal, and a second pachinko machine for outputting a continuous operation signal in response to the continuous operation code. A continuous operation transmitting section for transmitting, and a first receiver provided with a continuous operation stopping means for stopping output of the continuous operation signal from the continuous operation transmitting section in response to the continuous operation stop code signal; Of the pachinko machine, the second operation receiving section for receiving the continuous operation signal from the first pachinko machine, and the second receiving apparatus including the output circuit for driving and operating the actuator by the continuous operation receiving section. It was configured with a machine.

According to a sixth aspect of the present invention, the pachinko machine controller includes a key code generation unit that generates a set unique key code, a function code generation unit that generates a function code for driving and operating an actuator,
A continuous operation code generating section for generating a continuous operation code for continuous operation, a continuous operation stop code generating section for generating a continuous operation stop code for stopping a continuous operation, and the key code, function code, continuous operation code and continuous operation A transmitter provided with a transmitter that converts each stop code into a wave signal and transmits the wave signal, a key code storage unit that is provided on the first pachinko machine and stores a unique key code, and a wave signal from the transmitter. A receiving unit for converting the key code signal to the function code signal and the continuous operation code signal, the key code of the key code storage unit and the key code signal obtained by the receiving unit are compared, and when the two match, the operation permission signal A key code collating circuit for outputting a key code collating circuit, an output circuit for outputting an actuator drive operation signal corresponding to a function code signal by the operation permission signal, and a second pachinko machine for outputting a continuous operation signal in response to the continuous operation code. A first receiver including a continuous operation transmitting section for transmitting, and a continuous operation stopping means for stopping output of the continuous operation signal of the continuous operation transmitting section in response to the continuous operation stop code signal; The second pachinko machine is provided with a continuous operation receiving unit that receives a continuous operation signal from the first pachinko machine, an output circuit that drives and operates an actuator by the continuous operation receiving unit, and the continuous operation code. In response, a continuous operation signal is transmitted to the third pachinko machine, and the second receiver is provided with a continuous operation transmitter.

According to the configuration of the first invention, on the transmitter side, the function code and the continuous operation code corresponding to the object to be operated are converted into the wave signal from the transmitter together with the key code and transmitted. On the receiver side of the pachinko machine, the wave signal is received by one receiving unit and converted into a key code, a function code, and a continuous operation code or a continuous operation stop code.
Based on the key code, the key code matching circuit identifies whether or not it is a wave signal from a predetermined transmitter, and when it is identified that it is a signal transmitted from a predetermined transmitter, the operation is allowed. A predetermined operation can be performed by outputting a drive signal corresponding to the function code.

Further, when the continuous operation code is transmitted from the transmitter side or the third pachinko machine, the function code is output from the continuous operation transmission unit in response to the continuous operation code on the receiver side of the first pachinko machine. , To the second pachinko machine side.

According to the configuration of the second invention, in the first invention, the transmitter further converts the continuous operation stop code into the wave signal from the transmitter, and transmits the wave signal. On the other hand, on the receiver side of the first pachinko machine. , And the receiving unit receives it and converts it into a continuous operation stop code.

Further, when the continuous operation stop code signal is transmitted from the transmitter side or the third pachinko machine, the continuous operation transmission section is continuously operated in response to the continuous operation stop code signal on the receiver side of the first pachinko machine. Stop outputting operation signals.

According to the configuration of the third invention, on the transmitter side, each of the function code and the continuous operation code corresponding to the object to be operated is converted into a wave signal from the transmitter together with the key code and transmitted, while the first code is transmitted. On the receiver side of the pachinko machine, the wave signal is received by one receiving unit and converted into a key code, a function code, and a continuous operation code or a continuous operation stop code.
Based on the key code, the key code matching circuit identifies whether or not it is a wave signal from a predetermined transmitter, and when it is identified that it is a signal transmitted from a predetermined transmitter, the operation is allowed. A predetermined operation can be performed by outputting a drive signal corresponding to the function code.

Further, a continuous operation signal of the first pachinko machine is given to the second pachinko machine, whereby a predetermined operation is performed on the second pachinko machine.

According to the configuration of the fourth invention, in the third invention, the same interlocking operation is further performed from the second pachinko machine to the third pachinko machine.

According to the configuration of the fifth invention, in the third invention, further, the continuous operation stop code signal is given from the transmitter to the first pachinko machine to stop the output of the continuous operation signal of the first pachinko machine. To be done.

According to the configuration of the sixth invention, in the fourth invention, further, the continuous operation stop code signal is given from the transmitter to the first pachinko machine and further to the second pachinko machine, and the first and second pachinko machines are provided. The output of continuous operation signals from the pachinko machine is stopped.

Therefore, according to the first, third, and fourth inventions, various operations can be performed without contact without using a mechanical key, so that the operations can be performed easily and quickly.
In addition, the key code is used to determine whether it was operated by a predetermined transmitter.Therefore, regardless of the specifications of the pachinko machine, the pachinko machine is equipped with a receiver and the key code is unified for the entire pachinko parlor. By doing so, it becomes possible to easily operate all pachinko machines with one transmitter, and furthermore, various operations are divided by function codes, and based on the function code converted from the wave signal received by the receiving unit, the function Since the drive signal corresponding to the code is output, only one receiving unit is required, and even if there are many objects to be operated, it is structurally simple and inexpensive, and unexpectedly another operation is performed at the same time. I was able to avoid this and perform the operation satisfactorily.

In addition, since you can increase the number of objects to be operated, you can also perform operations in the wooden frame such as stopping and stopping the beating motor and punching, so that you can perform various operations without listening to the wooden frame, Various operations can now be performed more easily and quickly.

Furthermore, by sending a continuous operation code from a transmitter to a predetermined pachinko machine and performing a transmission operation to any pachinko machine, one block connected in a loop, that is, a so-called 1 "striped" pachinko machine All or all pachinko machines in the entire pachinko parlor, such as all pachinko machines from a given pachinko machine to a specified pachinko machine, can automatically perform the prescribed operations sequentially, so glass after closing the store, etc. It is not necessary to open and close the doors or perform operations such as punching, for each pachinko machine individually using the transmitter, and maintenance and inspection work after the store is closed can now be performed easily and with less effort.

According to the second, fifth, and sixth inventions, in each of the first, third, and fourth inventions, the continuous operation stop can be further performed. Therefore, for example, for stopping the continuous operation, a predetermined pachinko machine is used. This eliminates the troublesome work of releasing the connection between the adjacent pachinko machines, and makes maintenance and inspection work easier.

(Description of Embodiments) Hereinafter, the present invention will be described in detail based on embodiments illustrated in the drawings.

FIG. 2 is a schematic configuration diagram of a pachinko machine controller according to an embodiment of the present invention, in which 1 is a pachinko machine,
Reference numeral 2 denotes a wooden frame which is openably and closably attached to the support frame, and 3 denotes a glass door which is openably and closably attached to the wooden frame 2 so as to be fixed. The receiver 4 is provided inward, and the light receiving portion as the receiving portion is arranged so as to face the hole 5 of the wooden frame 2. Although not shown, the pachinko machine 1 includes a solenoid that unlocks the wooden frame 2 to allow the opening / closing operation or a solenoid that unlocks the glass door 3 to allow the opening / closing operation.
Actuators such as solenoids and ball striking motors are provided to open and close the punching gates for safe balls and out balls.

6 is a transmitter that sends out infrared rays as a wave signal,
Five operation keys 7 ... Are provided on the outer surface thereof, and a slide key 8 for switching between individual operation, continuous operation, and continuous operation stop. Reference numeral 9 is an operation display section that indicates by light emission that transmission is in progress, and 10 is a connector section to which the write jack 12 of the writer 11 is connected.

The writer 11 includes a key operation unit 13, key code display units 14a and 14b for displaying the 6-digit new and old key codes (key code for change and comparison key code) that have been key-inputted, and for confirmation. A light receiving unit 15, an OK display unit 16 that lights up to indicate that writing has been performed correctly, and an NG display unit 17 that indicates that writing has not been performed due to an input error or the like. 18 is a main switch.

In the transmitter 6, as shown in FIG. 1A, a key code storage unit 19 for storing a unique key code written and set by a writer 11, and a key code from the key code storage unit 19 A key code generator 20 that is read out and generated, and a function code generator 21a that generates a function code for driving and operating the corresponding actuator in response to the output accompanying the operation of the operation keys 7 ... A continuous operation code generator 21b that generates a continuous operation code in response to an output that accompanies the operation of the slide key 8 to the continuous operation position, and an output that accompanies the operation of the slide key 8 to the continuous operation stop position. A continuous operation stop code generator 21c that generates a continuous operation stop code in response, a key code from the key code generator 20, a function code from the function code generator 21a, and a continuous operation code from the continuous operation code generator 21b. And from the continuous operation stop code generator 21c Transmitter that converts each continuous operation stop code of each to infrared signalized and transmits
22 and are provided.

When the slide key 8 is in the single operation position, the single operation code is output, and any one of the single operation code, the continuous operation code, or the continuous operation stop code is set as the style code, According to the operation state of the slide key 8, the transmitter 6 outputs the data together with the function code.

The transmission unit 22 amplifies the serial signal-converted electric signal, and a signal conversion unit 23 that converts a parallel signal including the key code and the function code (including the continuous operation code or the continuous operation stop code) into a serial signal. An amplifier 24 and an infrared light emitting section that generates and outputs infrared light by the amplified electric signal.
It consists of 25 and.

As shown in FIG. 1 (b), the receiver 4 receives a infrared ray from a key code storage section 26 that stores a preset unique key code and the transmitting section 22, and converts the infrared ray into the infrared ray. From the corresponding key code, function code, and single operation code, continuous operation code or continuous operation stop code, and outputs the receiving unit 27, from the key code and receiving unit 27 stored in the key code storage unit 26 Key code collating circuit 28 which outputs an operation permitting signal when they match each other, and a drive signal corresponding to the function code in response to the operation permitting signal, which is set by the actuator 29 ... And an output circuit 30 for outputting to the other.

The receiving unit 27 includes an infrared light receiving unit 31 that receives infrared light and converts it into an electric signal, and an amplifier 32 that amplifies the electric signal.
And a signal converter 33 for converting the amplified electric signal into a parallel signal composed of the key code and the function code (including the continuous operation code or the continuous operation stop code).

Further, the receiver 4 is connected by the electric wire cable 34 only in response to the input of the slide key 8 in the transmitter 6 and the output of the continuous operation code from the continuous operation code generator 21b. Adjacent pachinko machine 1
Continuous operation transmission unit 35 for transmitting the key code and the function code to the receiver 4 and the continuous operation transmission unit of the adjacent pachinko machine 1
A key code collating circuit that receives the key code and the function code from 35
A continuous operation receiving unit 36 that outputs the key code and the function code to the continuous operation transmitting unit 35 while outputting to 28, respectively, though not shown, through a photo coupler to a connection terminal with the electric wire cable 34. It is provided in a connected state.

Upon receiving the continuous operation stop code, the receiver 4 sets the continuous operation stop code in a storage circuit (not shown) and receives a signal from the continuous operation transmitter 35 of the adjacent pachinko machine 1. At that time, the continuous operation stop code is read from the memory circuit.

In response to the continuous operation stop code, the output circuit 30 outputs a drive signal to the actuator 29 ... Corresponding to the function code even if the function code is input from each of the receiving section 27 and the continuous operation receiving section 36. Then, the output of the function code from the continuous operation transmitter 35 to the continuous operation receiver 36 of the adjacent pachinko machine 1 is stopped.

Then, as shown in FIG. 3, the pachinko machines 1 gathered in one block are so-called 1 "strip" pachinko machines 1.
, Are connected to each other by an electric wire cable 34, and those at both ends of the pachinko machine base 1 of 1 "stripes" are further connected to each other to form an annular connection as a whole, for example, a predetermined pachinko machine. With respect to the platform 1, the slide key 8 is set to the continuous operation position to transmit a predetermined function code, and to the pachinko machine 1 on the side connected to the continuous operation receiver 36 in the receiver 4 of the pachinko machine 1. Then, the slide key 8 is set to the continuous operation stop position and transmitted, so that the key code and the function are sequentially started, starting from any one of the pachinko machines 1 that transmitted the key code and the function code in the continuous operation position. The code and the key code stored in the key code storage unit 26 and the key code from the continuous operation receiving unit 36 are transmitted to all the pachinko machines 1 ... Compare When the two coincide with each other, the glass door 3 can be opened and closed automatically in sequence.

At this time, by appropriately selecting the pachinko machine 1 that transmits the function code in the continuous operation position and the pachinko machine 1 that transmits the function code in the continuous operation stop position, any pachinko machine 1 can be selected.
To any pachinko machine 1 glass door 3 ... or wooden frame 2
It is possible to automatically open ...

In the key code collating circuit 28, it is determined whether or not the key code and the function code from the continuous operation receiving unit 36 are received. The key code and the function code are transmitted to the transmission unit 35, and those codes are transmitted from the continuous operation transmission unit 35.

The transmission of the key code and the function code from the continuous operation transmission unit 35 is performed after the driving of the actuators 29 is completed, and drives a predetermined actuator 29 for a large number of pachinko machines 1. Due to this, it is possible to avoid an instantaneous increase in the amount of electric power.

As shown in FIG. 4, the writer 11 includes the key operation unit 13, and a new change key code input based on an input operation on the key operation unit 13 and a comparison key code up to that point. For generating the key code, a key code storage section 38 for storing the key code generated from the key code generation section 37, and a numerical display of each of the stored change key code and comparison key code at the time of storage therein. The key code display sections 14a and 14b and the transmitting section 39 for outputting the stored key code to the transmitter 6 are provided. Further, the light receiving unit 15 is provided on the lighter 11.
The verification unit 40, the OK display unit 16, and the NG display unit 17 are provided. On the other hand, in the transmitter 6, when the key code is output from the transmission unit 3, the output key code is transmitted to the infrared emitting unit. It is configured to output from 25, when writing the key code,
The key code written in the transmitter 6 and the key code written by the writer 11 are compared in the collating unit 40. When the two match, the OK display unit 16 is turned on, and when they do not match, the NG display unit
It is configured to light up 17.

The key code in the transmitter 6 is, as shown in FIG.
Each of them consists of a 6-digit change key code A ₂ and a comparison key code A ₁ , and these change key code A ₂ and comparison key code A ₁ and the same two consecutive operation codes ( _{Alternatively} , the transmission code is composed of the function codes A ₀ and A _{0 including the} continuous operation stop code) and the function code. Further, the change key code A ₂ and the comparison key code A ₁ each have 20 bits,
It is possible to set about one million different key codes.
Further, the continuous operation code or the function code A ₀ consisting of the continuous operation stop code and the function code is composed of 4 bits, and 16 kinds of function codes (including the continuous operation code or the continuous operation stop code) can be set. It has become.

Each of the writer 11, the transmitter 6 and the receiver 4 is
A microcomputer including a CPU, a ROM, and a RAM is configured to perform a predetermined control operation. The control operation will be described below.

First, the writer 11 will be described. As shown in the flowchart of FIG. 6, the write jack 12 is connected to the connector portion 10 of the transmitter 6, and then the 6-digit change key code is input by the key operation portion 13. It is input (F1), the change key code is stored in the key code storage unit 38 and displayed on the key code display unit 14a (F2). Then enter the 6-digit comparison key code (F
3) The key code for comparison is stored in the key code storage unit 38 and displayed on the key code display unit 14b (F4).

Then, it is determined whether the clear key C is turned on (F5). If there is no error in the input, the clear key C is not pressed, and the process proceeds to step F6 to determine whether the write key W is turned on. If the write key W is turned on, the process proceeds to step F7 for change. Both the key code and the comparison key code are transmitted to the transmitter 6.

After the transmission, the writing jack 12 is removed and the changing key code is transmitted by an operation from the transmitter 6. Therefore, the changing key code for the transmitter side and the changing key code sent from the writer 11 are collated with each other. The comparison is made at 40 (F8), and if they match, the OK display section 16 is turned on (F9). Conversely, if they do not match, the NG display section 17 is displayed.
Lights up (F10).

When the clear key C is turned on in step F5, the process proceeds to step F11 to initialize the key code storage section 38 and then returns to step F1.

By these processes, the key code of the transmitter 6 can be set by the writer 11.

Next, the control operation of the transmitter 6 will be described. As shown in FIG. 7, the RAM of the transmitter 6 has a reception buffer including a change key code a2 and a comparison key code a1 and a setting code b.
And a rewrite code c and a rewrite flag f. Under this RAM configuration, first, as shown in the flowchart of FIG. 8, it is judged whether or not the write jack 12 is connected. (N1) If not connected, the process proceeds to step N2 to determine whether the operation keys 7 ... And the slide key 8 have been operated. The key code is read from the two storage areas where the key code is stored (N
3), it is determined whether those key codes match (N4). If a mismatch occurs due to the occurrence of irregularity due to a decrease in the battery life of the transmitter 6, the process proceeds to step N5, the key code storage unit 19 is initialized, and the setting code b is set to 000000.

If both key codes match, the key code generator 20 generates and outputs the key code (N6), and the function code generator 21a generates and outputs the corresponding function code (N7). At this time, if the slide key 8 is operated to the continuous operation position,
The continuous operation code generating section 21b generates and outputs a continuous operation code, and when the continuous operation stop position is operated, the continuous operation stop code generating section 21c generates and outputs a continuous operation stop code. Then, the process proceeds to step N8, in which the function code is added after the key code, and the infrared light emitting section 25 transmits the function code.

If the write jack 12 is connected in step N1, the process proceeds to step N9, and the change key code and the comparison key code from the writer 11 are input and stored in the reception buffer.

Next, it is determined whether the setting code b and the comparison key code a1 match (N10), and if they match, it is determined whether the rewrite flag f is 1 (N11).

Since the rewriting flag f is not set at the initial stage, the process proceeds to step N12, the changing key code a2 is written in the rewriting code c, and the rewriting flag f is set to 1 (N13). After that, the processes of step N1, step N9 to step N11 are repeated again, and in step N14,
It is determined whether or not the change key code a2 and the rewrite code c match, and if they do not match, the process moves to step N12, and if they match, the process moves to step N15 and the change key code Write a2 to the setting code b, and after that, set the rewrite flag f to 0 (N16) Step N
Move to 2.

In step N10, if the comparison key code a1 and the setting code b match, the process proceeds to step N17, it is determined whether the setting code b is 000000, and the setting code b is 00.
If it is 0000, the process proceeds to step N11, and if not, the process proceeds to step N16. That is, if the previous setting code is forgotten or is unknown, the key code storage unit 19 of the transmitter 6 is initialized so that another key code can be set again. There is.

As the setting operation of the key code in the transmitter 6, the operation from step N10 to step N17 is eliminated, and at step N9, the change key code and the comparison key code up to that time are accompanied by the writing by the writer 11. It may be rewritten forcibly.

Further, the control operation of the receiver 4 will be explained. As shown in FIG. 9, the RAM of the receiver 4 is set with a reception buffer composed of a change key code A2, a comparison key code A1 and a function code A0. It is composed of a code B, a rewrite code C, and a rewrite flag F. Under this RAM configuration, first,
As shown in the flowchart of the figure, as the infrared light from the transmitter 6 is received by the infrared light receiving unit 31, the change key code and the comparison key code are input and accepted by the input of the infrared light. The key code is stored in a buffer (S1), and the key code storage unit 26 reads the key code from two storage areas in which the same key code is stored in advance (S2), and determines whether the key codes match. Judge (S3). Power outage or disconnection,
Alternatively, if there is a disagreement due to the power being turned off after the store is closed and the two do not match, the process proceeds to step S4 and the key code storage unit
26 is initialized and the setting code B is set to 000000.

If the two key codes match, the process proceeds to step S5 to determine whether the change key code A2 and the setting code B match. If they match, the process proceeds to step S6 and continues. It is determined whether there is neither an operation code nor a continuous operation stop code, that is, whether it is a single operation. If it is a single operation, the function code is determined, an output corresponding to the function code is output, and a predetermined actuator 29 Drive (S7).

In step S6, if it is determined that the operation is not a single operation, the process proceeds to step S8 to determine whether or not the continuous operation code is received, and if it is received, the function code is determined and an output corresponding to the function code is output. Take out the prescribed actuator 29
Is driven (S9), and at the same time, the key code and the function code are output from the continuous operation transmitting section 35 (S10).

In step C8, if it is determined that the continuous operation stop code is not received, it is determined that the continuous operation stop code is received, and in response to the continuous operation stop code, the output corresponding to the function code is output to output the predetermined actuator 29. At the same time as driving (S11), the output of the key code and the function code from the continuous operation transmitting section 35 is stopped (S12). This step S8, step S11
The process including step S12 and step S12 is referred to as continuous operation stopping means.

If it is determined in step S5 that the change key code A2 and the setting code B do not match, the process proceeds to step S13, and it is determined whether the setting code B and the comparison key code A1 match. (S13), and if they match, it is determined whether the rewrite flag F is 1 (S14).

Since the rewriting flag F is not set in the initial stage, the process proceeds to step S15, and the changing key code A2 is rewritten as the rewriting code C.
And the rewrite flag F is set to 1 (S1
6). After that, the processes of steps S1 to S3, step S5, step S13 and step S14 are repeated again, and in step S17, it is determined whether the changing key code A2 and the rewriting code C match, and they match. If not, the process proceeds to step S15, and if they match, the process proceeds to step S18 to write the change key code A2 into the setting code B, and thereafter, the rewrite flag F is set to 0 (S19) step. Move to S6.

If the comparison key code A1 and the setting code B do not match in step S13, the process proceeds to step S20, it is determined whether the setting code B is 000000, and the setting code B
Is 000000, the process proceeds to step S14, and if not, the process proceeds to step S19. That is, if you forget the previous setting code, or if you do not understand it,
By initializing the key code storage unit 26 of the receiver 4, another key code can be set again.

By the above control operation, a specific person can set a predetermined key code in the transmitter 6 by the writer 11 and set a specific one key code in all the receivers 4 of the pachinko machine 1. The key code can be changed and set as appropriate.

Therefore, even if the pachinko machine 1 has different specifications,
It can be operated with one type of transmitter 6, and even if the transmitter 6 is lost or stolen, or the key code is leaked,
It is possible to easily and favorably prevent the occurrence of fraud by changing the key code. In addition, when the slide key 8 is input to the continuous operation position or the continuous operation stop position respectively, an operation such as opening the glass doors 3 is sequentially sequentially performed on a large number of pachinko machines 1 such as 1 "stripes". It was possible to provide a pachinko machine operation control device that can be carried out as desired and is extremely convenient in practice.

Although infrared rays are used in the above-mentioned embodiments, for example, ultrasonic waves can be used in the present invention, and they are collectively referred to as a wave signal.

As the present invention, for example, as a transmitter 6, a master and an employee are prepared, and while the master transmitter 6 is provided with all the functions, the employee transmitter 6 is
It may be configured such that only the functions of opening the glass door 3 and releasing the stop of the beating motor are provided.

In the above-described embodiment, the key code and the function code are transmitted from the continuous operation receiving unit 36 to the key code collating circuit 28, and it is transmitted to the output circuit 30 after determining whether the key code is a predetermined one. However, according to the present invention, the function code may be directly transmitted from the continuous operation receiving unit 36 to the output circuit 30.

Further, in the above-described embodiment, the continuous operation transmitter 35 and the continuous operation receiver 36 of the adjacent pachinko machine 1 are connected to the electric cable.
Although the wiring is connected by 34, in the present invention, for example, by connecting via a photo coupler, or,
Infrared radiation may be transmitted from the continuous operation transmission unit 35, and the infrared light may be received by the continuous operation reception unit 36, so that connection may be made without contact.

In the above embodiment, when the continuous operation stop code is received, the pachinko machine 1 outputs the drive signal from the output circuit 30 to the actuator 29 corresponding to the function code, and the continuous operation transmitter 35. Although the output of only the function code of is stopped, in the present invention, for example,
In response to the continuous operation stop code, the output of the drive signal from the output circuit 30 to the actuator 29 corresponding to the function code may also be stopped. When the pachinko machine 1 ... Is to perform a predetermined operation, the slide key 8 is continuously operated to perform a function code transmission operation and a predetermined operation is performed. There is an advantage that it is only necessary to set the slide key 8 to the continuous operation stop position and perform the transmission operation, and it is not necessary to change the pachinko machine 1 to be operated for the transmission. In this case, for example, when performing a predetermined operation on the 1st to 100th pachinko machines 1 ...
The transmission for stopping the continuous operation is performed to the second pachinko machine 1.

According to the present invention, all the pachinko machines 1 of the entire pachinko parlor are connected in an annular shape by the electric cables 34, and the pachinko machines 1 gathered in one block.
The so-called 1 "striped" pachinko machine 1 ...
It may be connected in a ring by.

[Brief description of drawings]

FIG. 1 (a) is a block diagram showing a schematic configuration of a transmitter according to an embodiment of the present invention, FIG. 1 (b) is a block diagram showing a schematic configuration of a receiver, and FIG. FIG. 3 is a schematic configuration diagram showing a device configuration including the device, FIG. 3 is a schematic explanatory diagram of a connection mode of a pachinko machine, FIG. 4 is a block diagram showing a schematic configuration of a lighter, FIG. 5 is an explanatory diagram of a transmission code, Figure 6 shows
FIG. 7 is a flow chart explaining the control operation of the writer, FIG. 7 is a RAM configuration diagram of the transmitter, FIG. 8 is a flow chart explaining the control operation of the transmitter, and FIG. 9 is a RAM configuration diagram of the receiver. The figure is a flowchart for explaining the control operation of the receiver. 1 ... pachinko machine, 4 ... receiver, 6 ... transmitter, 20 ... transmitter key code generator, 21a ... function code generator, 21b ... continuous operation code generator, 21c ... continuous Operation stop code generator, 22 …… Sending unit, 26 …… Key code storage unit, 27 …… Reception unit, 28 …… Key code matching circuit, 29 …… Actuator, 30 …… Output circuit, 35 …… Continuous operation Transmitter, 36 ...... Receiver for continuous operation.

Claims (6)

[Claims] 1. A key code generator for generating a set unique key code, a function code generator for generating a function code for driving and operating an actuator, and a continuous operation code generator for generating a continuous operation code for continuous operation. And a transmitter having a transmitter for converting the key code, the function code, and the continuous operation code into wave signals and transmitting the wave signals, and a key provided on the first pachinko machine and storing a unique key code. A code storage unit, a reception unit that converts a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, a key code of the key code storage unit, and a key code signal obtained by the reception unit. A key code collating circuit that outputs an operation allowance signal when both of them match by comparison, an output circuit that outputs an actuator drive signal corresponding to a function code signal by the operation allowance signal, and the continuous operation code signal In response to the function code signal is transmitted to the second pachinko machine for continuous operation,
And a continuous operation receiver for receiving the function code signal from the continuous operation transmitter of the third pachinko machine and outputting it to the output circuit, and for outputting the function code signal to the continuous operation transmitter. A receiver and a pachinko machine controller consisting of. 2. A key code generator for generating a set unique key code, a function code generator for generating a function code for driving and operating an actuator, and a continuous operation code generator for generating a continuous operation code for continuous operation. Section, a continuous operation stop code generating section for generating a continuous operation stop code for stopping continuous operation, and a transmitting section for converting each of the key code, the function code, the continuous operation code, and the continuous operation stop code into a wave signal for transmission. And a key code storage unit that is provided on the first pachinko machine and stores a unique key code, and a wave signal from the transmitter is used as a key code signal, a function code signal, a continuous operation code signal, and a continuous wave code signal. A receiving unit that converts each of the operation stop code signals, a key code reference unit that compares the key code of the key code storage unit with the key code signal obtained by the receiving unit, and outputs an operation permission signal when the two match. Integrated circuit, an output circuit that outputs an actuator drive signal corresponding to a function code signal by the operation permission signal, a continuous operation transmission unit that transmits a continuous operation signal to a second pachinko machine in response to the continuous operation code, No. 3, a continuous operation receiver for receiving a function code signal from the continuous operation transmitter of the pachinko machine and outputting it to the output circuit, and a continuous operation receiver for outputting the function code signal to the continuous operation transmitter, and the continuous operation. A pachinko machine controller comprising: a receiver having continuous operation stopping means for stopping the output of the continuous operation signal from the continuous operation transmitting section in response to a stop code signal. 3. A key code generator for generating a set unique key code, a function code generator for generating a function code for driving and operating an actuator, and a continuous operation code generator for generating a continuous operation code for continuous operation. And a transmitter having a transmitter for converting the key code, the function code, and the continuous operation code into wave signals and transmitting the wave signals, and a key provided on the first pachinko machine and storing a unique key code. A code storage unit, a reception unit that converts a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, a key code of the key code storage unit, and a key code signal obtained by the reception unit. A key code collating circuit that outputs an operation permission signal when both of them match by comparison, an output circuit that outputs an actuator drive operation signal corresponding to a function code signal by the operation permission signal, and the continuous A first receiver provided with a continuous operation transmission unit that transmits a continuous operation signal to a second pachinko machine in response to an operation code, and a second receiver provided on the second pachinko machine and from the first pachinko machine. A pachinko machine controller comprising: a continuous operation receiving unit that receives a continuous operation signal; and a second receiver that includes an output circuit that drives and operates an actuator by the continuous operation receiving unit. 4. A key code generator for generating a set unique key code, a function code generator for generating a function code for driving and operating an actuator, and a continuous operation code generator for generating a continuous operation code for continuous operation. And a transmitter having a transmitter for converting the key code, the function code, and the continuous operation code into wave signals and transmitting the wave signals, and a key provided on the first pachinko machine and storing a unique key code. A code storage unit, a reception unit that converts a wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal, a key code of the key code storage unit, and a key code signal obtained by the reception unit. A key code reference circuit that outputs an operation allowance signal when both of them match by comparison, an output circuit that outputs an actuator drive operation signal corresponding to the function code signal by the operation allowance signal, and the continuous A first receiver provided with a continuous operation transmission unit that transmits a continuous operation signal to a second punching machine base in response to an operation code, and a second receiver provided on the second pachinko machine. A continuous operation receiving unit that receives a continuous operation signal, an output circuit that drives and operates an actuator by the continuous operation receiving unit, and a continuous operation that transmits a continuous operation signal to a third pachinko machine in response to the continuous operation code. A pachinko machine controller comprising a second receiver having an operation transmitter. 5. A key code generator for generating a set unique key code, a function code generator for generating a function code for driving and operating an actuator, and a continuous operation code generator for generating a continuous operation code for continuous operation. Section, a continuous operation stop code generating section for generating a continuous operation stop code for stopping continuous operation, and a transmitting section for converting each of the key code, the function code, the continuous operation code, and the continuous operation stop code into a wave signal for transmission. And a key code storage unit that is provided on the first pachinko machine and stores a unique key code, and converts the wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal. A receiving unit, a key code collating circuit that compares the key code of the key code storage unit and the key code signal obtained by the receiving unit, and outputs an operation permission signal when the two match, by the operation permission signal An output circuit for outputting an actuator drive operation signal corresponding to the function code signal, a continuous operation transmission unit for transmitting the continuous operation signal to the second pachinko machine in response to the continuous operation code,
And a first receiver provided with a continuous operation stopping means for stopping the output of the continuous operation signal of the continuous operation transmitting section in response to the continuous operation stop code signal, and a second pachinko machine, A pachinko machine including a continuous operation receiving unit that receives a continuous operation signal from the first pachinko machine, and a second receiver that includes an output circuit that drives and operates an actuator by the continuous operation machine. Control device. 6. A key code generation unit for generating a set unique key code, a function code generation unit for generating a function code for driving and operating an actuator, and a continuous operation code generation for generating a continuous operation code for continuous operation. Section, a continuous operation stop code generating section for generating a continuous operation stop code for stopping continuous operation, and a transmitting section for converting each of the key code, the function code, the continuous operation code, and the continuous operation stop code into a wave signal for transmission. And a key code storage unit that is provided on the first pachinko machine and stores a unique key code, and converts the wave signal from the transmitter into a key code signal, a function code signal, and a continuous operation code signal. A receiving unit, a key code collating circuit that compares the key code of the key code storage unit and the key code signal obtained by the receiving unit, and outputs an operation permission signal when the two match, by the operation permission signal An output circuit for outputting an actuator drive operation signal corresponding to the function code signal, a continuous operation transmission unit for transmitting the continuous operation signal to the second pachinko machine in response to the continuous operation code,
And a first receiver provided with a continuous operation stopping means for stopping the output of the continuous operation signal from the continuous operation transmitting unit in response to the continuous operation stop code signal, and a second pachinko machine provided on the second pachinko machine, A continuous operation receiving unit that receives a continuous operation signal from the first pachinko machine, an output circuit that drives and operates an actuator by the continuous operation receiving unit, and a continuous operation signal that is responsive to the continuous operation code And a second receiver having a continuous operation transmission unit for transmitting to the pachinko machine.