JPH06206148A - Playing board manufacturing device - Google Patents

Abstract

PURPOSE:To work a variety of playing boards in a common line by specifying the kind of the playing board to be worked, by reading out a discriminating body for specifying the kind of the playing board and drive-controlling the working means by the operation program corresponding to the kind of the playing board. CONSTITUTION:Plural kinds of working means 11 for applying the working processing on a plate-shaped member transferred along the production line of a playing board is provided, and a product is finished through a process for attaching a decoration plate on the surface of the plate shaped member, process for cutting the plate shaped member to a desired shape, process for striking nails, and a process for installing a windmill, winning device, etc. In this case, plural kinds of operation programs corresponding to the kinds of the playing boards is memorized in the ROM 103 in a drive controller 10. Further, on each playing board, a bar code 3 for specifying the kind 15 attached, and this bar code 3 is read out by bar code reader 9, and the pertinent operation program is read out from the ROM 103 by a CPU 102 on the basis of the read- out information, and each working means 11 is controlled according to the operation program.

Description

Description: FIELD OF THE INVENTION The present invention relates to a game board manufacturing apparatus, and more particularly to improvement of an automated game board manufacturing apparatus.

BACKGROUND OF THE INVENTION On a board surface of a game board, which is a main part of a pachinko game machine, a coin game machine, a smart game machine, and the like, a large number of nails and windmills (with the nail as a central axis, for changing a drop of a ball, (A decorative wheel that is rotatable with respect to the shaft is attached) and the like. Furthermore, a prize hole and an out hole are formed in the game board, and a prize device is arranged in association with the prize hole, and its configuration is complicated as a whole. In recent years, the automation of the production of game boards with such a complicated structure has progressed,
For example, processing machines such as an automatic nailing machine and a router machine for cutting a game board into a predetermined shape have been devised, and are being introduced into the actual manufacturing process. By the way, since the position of the nail and the position of the wind turbine are different depending on the type (model) of the game board to be manufactured, the processing machine, for example, the automatic nailing machine is operated by the operation program according to the type of the game board to be manufactured. I have to let you. Therefore, in the conventional processing machine, every time the type of game board to be manufactured changes, the processing machine is temporarily stopped and its operation program is changed. However, in order to manufacture one game board, it is necessary to use various types of processing machines such as an automatic nailing machine, a router machine, an automatic windmill mounting machine, etc., so every time the type of game board to be manufactured changes. Moreover, the operating programs of all the machines must be changed, which is troublesome. In particular, if the type of game board to be manufactured must be changed frequently, for example, a type A game board is manufactured in the morning, a type B game board is manufactured in the afternoon, and a type C game is performed in the evening. In the case of manufacturing the game board, there is a drawback that it takes a long time to change the operation program.

Object of the Invention The present invention solves the above-mentioned drawbacks, and an operation program is automatically selected according to the type of game board to be manufactured, and the processing machine is driven and controlled by the selected program. It is to provide a game board manufacturing apparatus according to the above.

Structure of the Invention The present invention has a processing means for performing processing on a plate-shaped member which is to be processed and becomes a game board, and a plurality of operation programs are built in, and according to any one of the plurality of operation programs. It is a game board manufacturing apparatus including drive control means for driving and controlling the processing means, and selection means for selecting one program for driving and controlling the processing means from a plurality of operation programs.

EFFECTS OF THE INVENTION Since the present invention is configured as described above, the operation program is selected for each game board to be manufactured, and the processing means is drive-controlled by the operation program, so that the type of game board to be manufactured is frequent. Even if it is changed to, the program is automatically changed accordingly, and the troublesomeness of having to stop the processing machine and manually change the program each time is released. Further, in the process of manufacturing the game board, the involvement of a person is reduced as compared with the conventional case, so that the labor cost can be saved and the production efficiency can be improved. In order to further clarify the above-mentioned objects, configurations and effects of the present invention, preferred embodiments will be described below with reference to the drawings.

Description of preferred embodiments-Generally, if the manufacturing and processing steps of the game board are finely divided, a step of attaching a decorative plate to the surface of the plate member of the material, a step of cutting the plate member into a desired shape, a gauge Steps to determine the position to hit the nail using the original plate, step to hit the nail to the specified position, step to install the windmill, step to place the winning device in a predetermined position, step to fix the placed winning device with screws, for example , It can be divided into steps such as installing the guide rail. FIG. 1 is a block diagram showing the flow of a manufacturing process of a game board according to an embodiment of the present invention, and this manufacturing process includes the above-mentioned processes. Figure 2 shows
The plate-shaped member 2 is fixed on the moving table 1, and the plate-shaped member 2
It shows a state in which the barcode 3 is attached to the one end side surface. An outline of a game board manufacturing process according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. First, in step 1, the plate member 2 is fixed on the moving table 1.
For this fixing, for example, at least two positions of the plate member 2 are fixed by the positioning fixing pins 4 and 5. The positioning fixing pin 4 is a pin protruding to the upper surface of the moving table 1, and the positioning fixing pin 5 is the plate-shaped member 2.
From the top, it is a screw-shaped pin that penetrates the plate-shaped member and is screwed into the moving table 1. The movable table 1 to which the plate-shaped member 2 is fixed is placed on the movable rails 6a and 6b and fixed by the table fixing pins 7a and 7b. Then, by moving the moving rails 6a and 6b, the moving table 1 also sequentially moves, and following the movement, the plate-shaped member is subjected to the following processing, and the game board is manufactured.
In step 2, a bar code 3 showing identification information for identifying the format of the game board to be manufactured is attached. The sticking position of the bar code 3 is, for example, one short side surface of the plate-like member 2 and is a part which is not cut by a router machine described later. Then, in the next step 3, the barcode 3 is read, and the read barcode (identification information) is given to the control means (described later). The control means selects an operation program of the processing machine that executes the following steps based on the bar code 3, and controls the driving of the processing machine based on the selected operation program. This is the feature of this embodiment. Explaining each step, in step 4, among the plurality of operation programs built in the control device of the decorative sheet sticking machine, based on the barcode 3 read in step 3,
The operation program corresponding to the bar code 3 is selected. The control device drives and controls the decorative plate sticking machine according to the selected program, and sticks a predetermined decorative plate to the plate member. Similarly in the following steps, the control device for each processing machine selects an operation program corresponding to the barcode 3 read by the barcode reader, and each processing machine performs processing in accordance with the selected operation program. That is, in step 5, a pin hole for positioning a decorative member, a winning device, etc., and a screw guide hole for screwing a screw at the time of screwing are formed at predetermined positions. In step 6, a predetermined gauge plate is selected according to the program,
The nail driving position is defined by using the original plate. In step 7,
The plate-shaped member 2 is cut into a desired shape by the router machine. In step 8, the nail is driven into the nail driving position defined in step 5. In step 9, the wind turbine is attached at a predetermined position. In step 10, the winning device is placed at a predetermined position. In step 11, a guide rail surrounding the board surface of the game board is attached. In step 12, the winning device arranged in step 10 is fixed with screws. As described above, in this embodiment, the processing machine that reads the barcode 3 in step 3 and executes the processing of steps 4 to 12 is
It is controlled by the operation program corresponding to the read bar code 3. FIG. 3 is a diagram showing the relationship between the contents of the bar code and the type (model) of the game board corresponding to the bar code. For example, the barcode "12053
“6” represents the model “fever”. Similarly, the bar code “302581” represents the model “King Star” and the bar code “746821” represents the model “Galaxy Diver”. FIG. 4 is a configuration block diagram of an embodiment of the present invention. Referring to FIG. 4, the bar code reader 9 includes a bar code 3 attached to the plate member 2.
Read the identification information (bar code) from. The read identification information is given to the drive control means 10. The drive control means 10 includes an input / output (I / O) interface 101, a CPU 102, a ROM 103, and a RAM 1.
It is composed of 04 etc. Here, the I / O interface 101 is for adapting the input / output signal to the signal of the CPU 102. The CPU 102 is the ROM 10
The operation program stored in 3 is read out, and arithmetic control is executed according to the operation program. That is, when certain identification information (bar code) is input from the bar code reader 9, the CPU 102 reads an operation program corresponding to the information from the ROM 103. Then, the processing means 11 is drive-controlled based on the read operation program. Here, the processing means 11 is, for example, a decorative plate sticking machine for sticking a decorative plate in step 4 of FIG. Further, in step 5, a multi-axis ball plate is formed in which pin holes and the like are formed at predetermined positions of the plate member 2. Thus, as the processing means 11, a decorative plate pasting machine, a multi-axis ball plate, a router machine, a nailing machine, a windmill mounting machine, a prize winning device arranging machine, a screw stop device, etc., which perform processing for each process. Is applicable.
Further, a plurality of drive control means 10 for controlling the drive of these processing means 11 may be provided corresponding to each processing means, or a single drive control means, for example, a host computer, makes each processing means common. Drive control can also be performed. FIG. 5 is an illustrative view showing a storage area of the ROM 103 shown in FIG. A plurality of operation programs A, B, C are stored in the storage area of the ROM 103. An index code is attached to each operation program A, B, C. This index code corresponds to any of the barcodes described above. FIG. 6 is a flow chart for explaining the operation of the embodiment shown in FIG. The operation of this embodiment will be described mainly with reference to FIG. 6 and with reference to FIGS. When the operation of the game board manufacturing apparatus is started, it waits for the bar code input from the bar code reader 9. When there is an input, the CPU 102 searches for the index code in the ROM 103 with the input bar code. If there is an index code corresponding to the input barcode, the operation program corresponding to the index code is executed. For example, the barcode reader 9
When the bar code "120536" is entered, the CPU1
02 is the index code of the ROM 103,
Find "120536". Then, the operation program A corresponding to this index code "120536"
To execute. Now, as an example, it is assumed that the processing means 11 is a router machine and the drive control means 10 is a drive control means provided corresponding to the router machine. At this time, by executing the operation program A, the plate-shaped member 2 (FIG. 2) is cut at a predetermined outer peripheral portion by the router machine so that the plate-shaped member 2 (FIG. 2) becomes the game board of the model “fever”, A winning hole or the like is formed at the position. The same control operation is performed when the processing means 11 and the driving means 10 are other processing machines and drive control means, and processing is performed so as to be a game board of a model corresponding to the bar code. In the above embodiment, the bar code 3 attached to the plate member 2 is read by the bar code reader 9 so that the ROM 1 of the drive control means 10 is read.
A desired operation program is selected from among a plurality of operation programs built in 03. However, this selecting means is not limited to the barcode reader 9, and may be a keyboard, for example. In this case, the operator gives the drive control means 10 a selection signal for selecting a desired operation program. Also, instead of the barcode 3, a font for an optical character reading device (OCR font)
And an optical character reader (OCR) may be used instead of the barcode reader 9. Next, referring to FIGS. 7 to 14, Step 6, Step 7, Step 8, Step 9,
A brief description will be given of each of the components of the processing means 11 used in the steps 10 and 12 by giving an example. FIG. 7 is a view showing a nail striking position regulating device used in step 6, particularly FIG. 7A is a front view of the nail striking position regulating device 70, and FIG. 7B is an enlarged view of the nail striking position regulating part. The figure is shown. In the figure, the nailing position regulating device 70 is provided with a base 71 for mounting the moving table 1 (FIG. 2) on which the plate-shaped member 2 is mounted. In this base 71,
For example, a groove is cut so as to stop the moving table 1 at a predetermined position. A push plate 73 is arranged corresponding to the base 71. The push plate 73 is connected to the piston 74. The piston 74 is a cylinder 75
Move up and down inside. This up and down is done by a hydraulic pump 76. A predetermined gauge original plate 78 is fixed to the lower surface of the push plate 73 so that the transfer pin 77 faces downward. Therefore, when the push plate 73 moves downward, the plate member 2 placed on the base 71 is formed with a hole defining the nailing position. The reason why the holes for defining the nailing positions are previously formed in the plate member 2 in this way is as follows. A decorative plate 2A made of, for example, melamine is attached to the surface of the plate member 2 in step 4 (see FIG. 1). Therefore, when a nail is directly hit on the surface of the plate-shaped member 2, the tip of the nail slips and the position at which the nail is driven is easily displaced, or when the nail is vigorously driven, the melamine decorative board 2A is cracked. Inconvenience such as occurrence occurs. Therefore, holes are formed in advance to prevent this. Also, gauge plate 7
If the nailing position is defined in advance by 8, the operation program of the nailing machine to be described later can be simplified (because the program for defining the nailing position can be omitted in the operation program of the nailing machine). There are also advantages. FIG. 8 is a perspective view of an example of a router machine used in step 7 (see FIG. 1). In the figure, the router machine 80 has a horizontal base 81 and a vertical base 82, a moving bed 83 is provided on the horizontal base 81, and a moving head 84 is provided on the vertical base 82. There is. The moving bed 83 can move in the horizontal direction (X-axis, Y-axis direction) with the moving table 1 having the plate-shaped member 2 fixed thereon. A drill 85 for cutting the plate-shaped member 2 is fixed to the moving head 84, and the moving head 84 can move in the vertical direction (Z-axis direction). Therefore, the plate-shaped member 2 is cut into an arbitrary shape by the moving bed 84 and the moving head 84 to which the drill 85 is fixed. In addition, the plate member 2 is drilled 85
Chips and the like generated during the cutting process are sucked up by the dust collecting pipe 86, so that dust is not generated. With the router machine 80 shown in FIG.
It is possible to process one plate member 2. The number of sheets that can be processed at the same time can be changed as needed. FIG. 9 is a front view showing an example of a nailing machine used in step 8. The nailing machine 90 includes a nail storing and supplying mechanism 91 including a nail tank 911, a nail feeding mechanism 92 including a vibrator 912 for selecting the length of a nail, a nailing mechanism 93, and a work table 94 that is slidable in a horizontal direction. And an operation panel 95 provided with various operation switches and the like. The detailed structure and operation of such a nailing machine 90 are described in detail, for example, in Japanese Patent Application No. 57-76094 filed by the applicant of the present application, and therefore detailed description thereof will be omitted. Note that this nailing machine 90 is also similar to the above-mentioned machines,
In principle, the drive control means 10 controls the drive. FIG. 10 is a perspective view showing an example of a wind turbine mounting machine used in step 9. In the figure, a moving bed 111
Are movable in the horizontal direction (X-axis and Y-axis directions). The plate-shaped member 2 fixed to the moving table 1 is placed on the moving bed 111 and processed. The wind turbine mounting machine 10 is equipped with two types of parts feeders. One is a nail parts feeder 112 and the other is a windmill bahts feeder 113. Windmills (decorative cars) are sequentially sent from the parts feeder 113 of the windmill. The nails sequentially fed from the nail part feeder 112 are inserted into the center of the fed windmill and driven into a predetermined position of the plate-shaped member 2. First
FIG. 1 is a perspective view showing a state in which a decorative member and a winning device are arranged at predetermined positions on the plate member 2. That is, the decorative member 121 is attached in correspondence with the variable display member attachment hole 2a of the plate member 2. In addition, a prize winning device 122 and a decorative prize winning device 123 are arranged corresponding to each person's prize hole 2b. This placement is performed by, for example, a winning device placement robot. FIG. 12 is a perspective view showing a part of the back surface side (mounting surface side) of the decorative winning device 123 used in FIG. FIG. 13A and FIG. 13B are cross-sectional views showing a procedure for attaching the decorative winning device 123 to the surface of the plate-shaped member 2. In the figure, a positioning pin 123a is formed on the rear surface side of the decorative winning device 123.
Further, in the surface of the plate-shaped member 2, a pin hole 2c to be fitted with the positioning pin is formed in step 5 (see FIG. 1). Therefore, for example, when arranging the decorative winning device 123 on the surface of the plate-shaped member 2, if the positioning pin 123a and the pin hole 2c are arranged so as to be fitted to each other, the arrangement position of the decorative winning device 123 is displaced. Can be placed accurately without. FIG. 14 is a perspective view showing a manner in which the prize winning device is screwed and fixed in step 12, which is the final step of this embodiment. The screw stop is performed by, for example, the automatic screw stop device 140. In the automatic screw stopper 140, screws are automatically sent from the parts feeder 141 to the driver 142 portion. That is, the driver 142
Screws are sent from above to below the cylindrical body 143 surrounding it. Then, the screw that has been sent is pressed by the screw pressing portion 144 at the tip of the tubular body 143 with the screw portion of the screw directed downward. The screw that was pressed was driver 1
It is screwed into place by the rotation of 42. In addition,
This automatic screw stop device 140 is also controlled by the drive control means 10 that performs control operation according to the operation program corresponding to the bar code, similarly to the above-described processing means.
That is, the barcode 3 attached to a part of the side surface of the plate member 2 is read by the barcode reader 9. The operation program corresponding to the read bar code is selected (see the explanation of FIG. 4). FIG. 15 is a perspective view showing an example of the entire game board manufacturing process configured by combining the processing means and the drive control means. In the figure, the manufacturing process flows as indicated by arrow 150. FIG. 15 will be described in accordance with the flow of manufacturing steps. First, the plate-shaped member 2 which is a material for the game board is taken out from the parts warehouse 151. The plate-shaped member 2 is fixed on the moving table 1 as described above, and the barcode 3 is attached to the side surface of the plate-shaped member 2 by the barcode attaching machine 152 (see FIG. 2). Next, the bar code 3 is read by the bar code reader 9a, and the decorative sheet sticking machine 1 according to the read bar code.
53 attaches a predetermined decorative plate to the surface of the plate member 2. Further, the multi-axial ball plate 154 forms necessary holes on the surface of the plate-shaped member 2, for example, pin holes 2a that fit with the pins of the decorative member (see FIG. 13). Next, a predetermined gauge original plate is taken out from the gauge original plate automatic warehouse 155 based on the operation program selected corresponding to the bar code information, and the nailing position defining device 70 defines the nailing position. Decorative plate pasting machine 153 in the above process, multi-axis ball plate 15
4 and the nail driving position defining device 70 are the terminal control device 156.
Controlled by. When the process proceeds next, the barcode 3 is read by the barcode reader 9b, and the read barcode is given to the terminal control device 157. The terminal control device 157 controls the router machine 80.
Then, the plate-shaped member 2 is cut into a predetermined shape by the router machine 80. Next, the barcode 3 is read by the barcode reader 9c, and the read information is given to the terminal control device 158. Then, this terminal control device 158
The nailing machine 90 is controlled by the nailing machine and the nail is driven on the surface of the plate-shaped member 2. Further, the barcode is read by the barcode reader 9d, and the read barcode is the terminal control device 1
Given to 59. Then, the terminal control device 159 executes a predetermined program in accordance with the read barcode to drive and control the wind turbine mounting machine 110. A windmill is attached to the surface of the plate member 2. Next, on the surface of the plate member 2, a decorative member, a winning device, etc. are arranged. In this arrangement, the pins formed on the decorative member or the winning device as described above and the pin holes formed on the game board surface are fitted to each other and are accurately arranged at a predetermined position. A guide rail is attached to the plate-shaped member 2 on which the decorative member and the winning device are arranged. Finally, the bar code is read by the bar code reader 9e, and the read bar code is the terminal control device 1
The automatic screw stopper 140 is controlled by the terminal control device 160, the screw is screwed into a predetermined position, and the decorative member and the like are fixed. The game board manufactured in this way is temporarily stored in the product automatic warehouse 161.
Moved to the next step. In the manufacturing process shown in FIG. 15, each terminal control device 156, 157, 158, 159 and 1
60 is a host computer 200 and a transmission line 201.
Connected through. Therefore, the host computer 200 can comprehensively control this manufacturing process. In addition, without using such a host computer,
Each terminal control device can also be used as an independent control device. Further, the bar code readers 9a to 9e are provided at five places so that the bar codes read by the bar code readers 9a to 9e are given to the respective terminal control devices. For example, the bar code read by the first bar code reader 9a is Terminal control devices 156, 157, 158, 159 and 160
May be given to. FIG. 16 is a block diagram of the control-related circuit shown in FIG. FIG. 17 shows the first
6 is an example of the host computer 200 shown in FIG. 6 and is a specific perspective view. FIG. 18 shows a host computer 2
It is a figure which shows an example of the printing contents printed from the printer 240 of 00. Referring to FIGS. 16-18, the host computer 200 generally includes a host CPU 210.
A display 220 for displaying information, etc.
A keyboard 230 for inputting data and the like and a printer 240 for printing data and the like are included. Keyboard 2
From 30, it is possible to give data for modifying or changing the control data to each terminal control device. Display 22
For example, as shown in FIG. 17, the number of manufactured units for each processing means can be displayed in 0, and the printer 240 can print the content. Therefore, if each terminal control device is commonly controlled by such a host computer 200, the management of the game board manufacturing process can be performed more conveniently.

[Brief description of drawings]

FIG. 1 is a block diagram showing a flow of manufacturing steps of a game board according to an embodiment of the present invention. FIG. 2 is a perspective view showing a state where the plate-shaped member 2 is fixed on the moving table 1 and the bar code 3 is attached to one end side surface of the plate-shaped member 2. FIG. 3 is a diagram showing the relationship between the contents of the bar code 3 and the type (model) of the game board corresponding to the bar code 3. FIG. 4 is a block diagram showing the configuration of an embodiment of the present invention. FIG. 5 is an illustrative view showing a storage area of the R0M103 shown in FIG. FIG. 6 is a flow chart for explaining the operation of the embodiment shown in FIG. FIG. 7 to FIG. 14 are views showing an idle device (machine) of the processing means 11 shown in FIG. FIG. 7 shows a nailing position defining device, FIG. 8 shows a router machine, FIG. 9 shows a nailing machine, FIG. 10 shows a wind turbine mounting machine, and FIG. 14 shows an automatic screw stop device. First
FIG. 5 is a perspective view showing the entire manufacturing process of the game board according to the embodiment of the present invention. FIG. 16 is a block diagram of the control system shown in FIG. FIG. 17 is a perspective view showing an example of a host computer. FIG. 18 is a diagram showing an example of print contents printed by the printer 240 of the host computer. In the figure, 2 is a plate member, 3 is a bar code, 9 is a bar code reader, 10 is drive control means, 11 is processing means,
70 is a nailing position defining device, 80 is a router machine, 90 is a nailing machine, 110 is a windmill mounting machine, 140 is an automatic screw stopper,
A, B, and C indicate a plurality of different operation programs.

[Procedure amendment]

[Submission date] January 14, 1991

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Game board manufacturing equipment

[Claims]

Detailed Description of the Invention

BACKGROUND OF THE INVENTION The present invention relates to a pachinko game, for example.
Machines, coin game machines, smart game machines, etc.
A game board manufacturing facility for manufacturing game boards used in machines.
For more information about equipment, please refer to
While moving along the production line,
Related to the game board manufacturing equipment for manufacturing the game board of the game machine.
To do.

2. Description of the Related Art On a board surface of a game board which is a main part of a pachinko game machine, a coin game machine, a smart game machine, etc., a large number of nails and windmills (with the nails as a central axis) for varying the drop of balls are used. , Which has a rotatable decoration wheel attached to its shaft) and the like. Furthermore, a prize hole and an out hole are formed in the game board, and a prize device is arranged in association with the prize hole, and its configuration is complicated as a whole. Regarding the production of such a complicated game board, in recent years, automation has progressed, and processing machines such as an automatic nailing machine and a router machine for cutting the game board into a predetermined shape have been devised.
It is being introduced into the actual manufacturing process. And game board
The plate-shaped member that is the source of
Along with the automatic nailer along the production line
Various processing machines such as router machine and automatic wind turbine mounting machine are installed.
By automating the entire production line of game boards as much as possible
In the end, we would like to unmanned the game board production line
There is a request to say. By the way, since the position of the nail or the position of the wind turbine is different depending on the type (model) of the game board to be manufactured, the processing machine must be operated by an operation program corresponding to the type of the game board to be manufactured. Therefore, in the conventional processing machine, every time the type of game board to be manufactured changes, the processing machine is temporarily stopped and its operation program is changed. However, as mentioned above
As described above, in order to produce one of the game board, for example the own
Various types of machines such as moving nailer, router machine, automatic windmill mounting machine, etc.
Since the machine tool must be used, every time the type of game board to be manufactured changes, the operation programs of all machines must be changed, and the change is troublesome. Especially when the type of game board to be manufactured must be changed frequently, for example, a type A game board is manufactured in the morning, a type B game board is manufactured in the afternoon, and a type C game board is manufactured in the evening. High -mix low-volume production such as manufacturing game boards
If you perform, there is a drawback that it must spend an inordinate amount of time because of the change of the operation program.

Therefore, in the technical field of industrial automatic processing and molding apparatus, Japanese Patent Laid-Open No. 58-22 has been proposed.
It is conceivable to apply the technique of automatic program selection described in Japanese Patent No. 412 and Japanese Patent Laid-Open No. 57-209504 to a game board manufacturing apparatus to solve the above-mentioned drawbacks. That is, the above-described industrial machining apparatus has a plurality of machining programs stored in advance according to the type of the object to be machined, and based on the detection signal from the detection device that detects the size and shape of the object to be machined. Determine the type of workpiece,
The processing program corresponding to the indexed type is selected, and the processing means is operated based on the selected program to perform the processing according to the type of the processing object. However, this industrial automatic processing and molding device detects the size and shape of the object to be processed and determines the type of the object to be processed, and when the size and shape of the object to be processed are not so different depending on the type. However, there is a drawback in that accurate detection cannot be performed unless a very expensive detection device is used, and the type of object to be processed cannot be accurately determined. Further, if the technology of this industrial automatic processing and molding apparatus is directly applied to the manufacture of a game board, there is a drawback that the type of the processing target cannot be specified. That is, the object to be processed by the game board manufacturing device is a plate-shaped member that is the base of the game board, and this plate-shaped member has a substantially constant size and shape regardless of the type of the game board before processing. However, it is impossible to determine the type of game board to be processed by detecting the plate member. Therefore, the shape of the plate-shaped member is made different in advance according to the type of the game board to be processed, and the type of the game board to be manufactured can be specified by detecting the shape of the plate-shaped member. It is possible. However, this plate-shaped member forms the game board by being processed, and even if the shape of the plate-shaped member is changed for each type of the game board, it is actually within the range where the game board can be formed and the material. The plate-shaped member is limited to such an extent that it is not wasted so much, and there is a situation in which it is difficult to make such a large difference in shape. As a result, when the above-mentioned industrial automatic processing / molding apparatus technology is applied, the shape of the object to be processed cannot be accurately detected, and the type of the object to be processed cannot be accurately determined, as described above. That is the inconvenience. As a result, if the type of the object to be processed is erroneously determined, an incorrect program may be selected, the processing machine may malfunction, and a wrong type of game board may be manufactured. Therefore, it is necessary to arrange a supervisor in the game board production line to check the above-mentioned malfunction of the processing machine, and there is a drawback that the unmanned request in the game board manufacturing line cannot be met. In view of such circumstances, an object of the present invention is to provide a game board manufacturing facility device that can meet the demand for unmanned production lines for game boards as much as possible.

The present invention relates to a game board manufacturing facility device for manufacturing a game board of a ball game machine by processing a plate member while moving it along a production line in line production. There are a plurality of types of processing means for performing processing on the plate-like member that is moved along the production line, and a control program for operating the processing means. Storage means for storing a plurality of types of operation programs corresponding to the type of board, and the type of gaming board to be manufactured by processing the plate-shaped member that is provided corresponding to the plate-shaped member that is the processing target Based on the identifiable identification body, the reading means for reading the identification body, and the read information of the reading means, a selection for selecting a corresponding operation program from a plurality of types of operation programs stored in the storage means means And a drive control unit that drives and controls the processing unit based on the operation program selected by the selection unit, wherein the various processing units operate the production line from the upper side to the lower side of each processing step. It is characterized in that they are arranged in order, and each of them performs a processing operation according to the type of game board to be manufactured .

According to the present invention, a plate-shaped member should be processed and manufactured.
The object that can identify the type of game board is the object to be processed
It is provided in correspondence with the plate-shaped member, and its identification body can read
Read by means. And read by the reading means
Based on the read information that is stored in the storage means.
Applicable operation program from the operation programs of the type
Is selected and based on the selected operating program
Various processing means are drive-controlled. In addition, various processing hands
Each step is processed from the upper side to the lower side of the production line
The production line because it is arranged according to the order of the process
To manufacture a plate-like member that is moved along
Various types of processing depending on the type of game board
It is applied by steps.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Generally, if the manufacturing and processing steps of a game board are subdivided, a step of attaching a decorative plate to the surface of a plate-shaped member of material, a step of cutting the plate-shaped member into a desired shape,
The step of deciding the position to hit the nail using the gauge plate, the step of hitting the nail at a predetermined position, the step of mounting the windmill, the step of arranging the winning device in a predetermined position, the arranged winning device is fixed by, for example, a screw. It can be divided into a process, a process of installing a guide rail, and the like. FIG. 1 is a block diagram showing the flow of a manufacturing process of a game board according to an embodiment of the present invention, and this manufacturing process includes the above-described processes. FIG. 2 shows a state in which the plate member 2 is fixed on the moving table 1 and the bar code 3 is attached to one end side surface of the plate member 2. An outline of a game board manufacturing process according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. First, in step 1, the plate-shaped member 2 is placed on the moving table 1.
To fix. For this fixing, for example, at least two positions of the plate member 2 are fixed by the positioning fixing pins 4 and 5. The positioning fixing pin 4 is used for the moving table 1.
The positioning fixing pin 5 is a pin protruding on the upper surface of
From the plate-shaped member 2, the movable table 1 is penetrated through the plate-shaped member.
It is a screw-shaped pin that is screwed into. The movable table 1 to which the plate member 2 is fixed is placed on the movable rails 6a and 6b, and fixed by the table fixing pins 7a and 7b. Then, by moving the moving rails 6a and 6b, the moving table 1 also sequentially moves, and the plate-shaped member is subjected to the following processing in accordance with the movement, and the game board is manufactured. In step 2, a bar code 3 showing identification information for identifying the shape of the game board to be manufactured is attached. The sticking position of the barcode 3 is, for example, one short side surface of the plate-like member 2 and is a portion that is not cut by a router machine described later. Then, in the next step 3, the barcode 3 is read, and the read barcode (identification information) is given to the control means (described later). The control means selects an operation program of the processing machine that executes the following steps based on the bar code 3, and controls the driving of the processing machine based on the selected operation program. This is the feature of this embodiment. Explaining each step, in step 4,
Based on the barcode 3 read in step 3, an operation program corresponding to the barcode 3 is selected from among a plurality of operation programs built in the control device of the decorative sheet sticking machine. The control device drives and controls the decorative plate sticking machine according to the selected program, and sticks a predetermined decorative plate to the plate member. Similarly in the following steps, the control device for each processing machine selects an operation program corresponding to the barcode 3 read by the barcode reader, and each processing machine performs processing in accordance with the selected operation program. That is, in step 5, a pin hole for positioning the decorative member 3, the winning device, etc., and a screw guide hole for screwing the screw when screwing the screw are formed at predetermined positions. In step 6, a predetermined gauge original plate is selected according to the program, and the nailing position is defined using the original plate. In step 7, the router machine cuts the plate member 2 into a desired shape. In step 8, nails are driven into the nailing positions defined in step 5. In step 9, the wind turbine is attached at a predetermined position. In step 10, the winning device is placed at a predetermined position. In step 11, a guide rail surrounding the board surface of the game board is attached. In Step 12, Step 1
The winning device arranged at 0 is fixed by screws. As described above, in this embodiment, the bar code 3 is read in step 3, and the processing machine that executes the processing of steps 4 to 12 is controlled by the operation program corresponding to the read bar code 3. It FIG. 3 is a diagram showing the relationship between the content of the barcode and the type (model) of the game board corresponding to the barcode. For example, the bar code “120536” represents the model “ABC”. Similarly,
The bar code “302581” represents the model “LMN” and the bar code “746821” represents the model “XYZ”. FIG. 4 is a configuration block diagram of an embodiment of the present invention. Referring to FIG. 4, the bar code reader 9
The identification information (bar code) is read from the bar code 3 attached to the plate member 2. The read identification information is given to the drive control means 10. The drive control means 10 is an input / output (I / O) interface 101, C.
The PU 102, the ROM 103, the RAM 104 and the like are included. Here, the I / O interface 101 is for adapting the input / output signal to the signal of the CPU 102. The CPU 102 reads the operation program stored in the ROM 103 and executes arithmetic control according to the operation program. That is, the barcode reader 9
When certain identification information (bar code) is entered from
U102 stores the operation program corresponding to the information in the ROM1.
Read from 03. Then, the processing means 11 is drive-controlled based on the read operation program. Here, the processing means 11 is, for example, a decorative plate sticking machine that sticks a decorative plate in step 4 of FIG. Further, in step 5, a multi-axis ball plate in which pin holes and the like are formed at predetermined positions of the plate member. As described above, as the processing means 11, there are a decorative plate sticking machine, a multi-axis ball plate, a router machine, a nailing machine, a windmill mounting machine, a winning device arranging machine, a screw stop device, etc., which execute the processing for each process. Applicable Further, a plurality of drive control means 10 for driving and controlling these processing means 11 may be provided corresponding to each processing means, or a single drive control means, for example, a host computer, makes each processing means common. Drive control can also be performed.
The ROM 103 constitutes a storage means for storing a plurality of types of operation programs corresponding to the type of game board to be manufactured, which is a control program for operating the processing means. With the barcode 3,
An identifier is provided corresponding to the plate-shaped member that is the object to be processed, and is capable of specifying the type of game board to be manufactured by processing the plate-shaped member. The bar code reader 9 constitutes a reading means for reading the identification body. Further, the CPU 102 constitutes selection means for selecting a corresponding operation program from a plurality of types of operation programs stored in the storage means based on the read information of the reading means. FIG. 5 is an illustrative view showing a storage area of the ROM 103 shown in FIG. ROM1
In the storage area 03, a plurality of operation programs A, B, C
Is remembered. Then, each operation program A, B,
An index code is attached to C. This index code corresponds to any of the barcodes described above. FIG. 6 is a flow chart for explaining the operation of the embodiment shown in FIG. Focusing on this Figure 6,
The operation of this embodiment will be described with reference to FIGS. When the operation of the game board manufacturing apparatus is started, it waits for the bar code input from the bar code reader 9.
When there is an input, the CPU 102 searches the index code in the ROM 103 with the input bar code. If there is an index code corresponding to the input barcode, the operation program corresponding to the index code is executed. For example, barcode reader 9
However, if the bar code “120536” is entered, the CP
The U 102 finds “120536” in the index code of the ROM 103. Then, the operation program A corresponding to this index code “120536” is executed. Now, as an example, it is assumed that the processing means 11 is a router machine and the drive control means 10 is a drive control means provided corresponding to the router machine. At this time, by executing the operation program A, the plate-shaped member 2
(Refer to FIG. 2) is a router machine that cuts a predetermined outer peripheral part so that it becomes a game board of the model "ABC".
A winning hole or the like is formed at a predetermined position. The same control operation is performed when the processing means 11 and the driving means 10 are other processing machines and drive control means, and processing is performed so as to be a game board of a model corresponding to the bar code. In the above embodiment, the bar code reader 9 reads the bar code 3 attached to the plate-shaped member 2 as an identification body, so that the bar code reader 9 selects from among a plurality of operation programs stored in the ROM 103 of the drive control means 10. , So that a desired operation program can be selected. However, the identifier is not limited to the barcode 3,
They may be formed in different shapes depending on the type of game board. In this case, a shape reading device that reads the shape of the identification body is used instead of the barcode reader 9. An optical reading device font (OCR font) may be used in place of the bar code 3, and an optical character reading device (OCR) may be used in place of the bar code reader 9. Next, referring to FIG. 7 to FIG.
A concrete example of the processing means 11 used in the steps 7, 8, 9, 10 and 12 will be briefly described with an example. 7: is a figure which shows the nailing position defining device used in the process 6, FIG. 7A shows the front view of the nailing position defining device 70 in particular, and FIG. 7B shows the enlarged view of the nailing position defining part. In the figure, the nailing position regulating device 70 is provided with a base 71 on which the movable table 1 (see FIG. 2) on which the plate-shaped member 2 is mounted is placed.
For example, a groove is formed in the base 71 so as to stop the moving table 1 at a predetermined position. A push plate 73 is arranged corresponding to the base 71. The push plate 73 is connected to the piston 74. Piston 7
4 moves up and down inside the cylinder 75. This up and down is done by a hydraulic pump 76. A predetermined gauge original plate 78 is provided on the lower surface of the push plate 73 so that the transfer pin 77 faces downward.
Is fixed. Therefore, when the push plate 73 moves downward, the plate member 2 placed on the base 71 is provided with a hole defining the nailing position. The reason why the holes for defining the nailing positions are previously formed in the plate member 2 in this way is as follows. A decorative plate 2A made of, for example, melamine is attached to the surface of the plate member 2 in step 4 (see FIG. 1). Therefore, when a nail is directly hit on the surface of the plate-shaped member 2, the tip of the nail slips and the position at which the nail is driven is easily displaced, or when the nail is vigorously driven, the melamine decorative board 2A is cracked. Inconvenience such as occurrence occurs.
Therefore, holes are formed in advance to prevent this. Further, if the nail driving position is defined in advance by the gauge original plate 78, the operation program of the nail driving machine described later is simplified (the program for defining the nail driving position is omitted in the operation program of the nail driving machine. There is also the advantage that it is possible. FIG. 8 is a perspective view of an example of a router machine used in step 7 (see FIG. 1). In the figure, the router machine 80 includes a horizontal base 81 and a vertical base 82, and a moving bed 83 is provided on the horizontal base 81.
The vertical base 82 has a moving head 84. The moving bed 83 can move in the horizontal direction (X-axis, Y-axis direction) with the moving table 1 having the plate-shaped member 2 fixed thereon. A drill 85 for cutting the plate-shaped member 2 is fixed to the moving head 84, and the moving head 84 can move in the vertical direction (Z-axis direction). Hence the moving bed 83
The plate-shaped member 2 is cut into an arbitrary shape by the moving head 84 to which the drill 85 is fixed. In addition,
The chips and the like generated when the plate member 2 is cut and processed by the drill 85 are sucked up by the dust collecting pipe 86 so that dust is not generated. Router machine 80 shown in FIG.
Then, it is possible to process up to four plate-shaped members 2 at the same time. The number of sheets that can be processed at the same time can be changed as needed. FIG. 9 is a front view showing an example of a nailing machine used in step 8. The nailing machine 90 includes a nail storing and supplying mechanism 91 including a nail tank 911, a nail feeding mechanism 92 including a vibrator 912 for selecting the length of a nail, a nailing mechanism 93, a work table 94 that is slidable in a horizontal direction, and The configuration includes an operation panel 95 provided with various operation switches and the like. The detailed structure and operation of such a nailing machine 90 are described, for example, in Japanese Patent Application No. 57-7 filed by the applicant of the present application.
The detailed description is omitted here because it is described in detail in No. 6094. The driving of the nail driving machine 90 is also controlled by the drive control means 10 in principle, like the above-mentioned machines. FIG. 10 is a perspective view showing an example of a wind turbine mounting machine used in step 9. In the figure, the moving bed 111 is movable in the horizontal direction (X-axis, Y-axis direction). The plate-shaped member 2 fixed to the moving table 1 is placed on the moving bed 11 and processed. The wind turbine mounting machine 10 is equipped with two types of parts feeders. One is a nail parts feeder 112, and the other is a windmill parts feeder 113. Windmills (decorative cars) are sequentially sent from the parts feeder 113 of the windmill. The nails sequentially fed from the nail part feeder 112 are inserted into the center of the fed windmill and driven into a predetermined position of the plate-shaped member 2. FIG. 11 is a perspective view showing a state in which a decorative member and a winning device are arranged at predetermined positions of the plate member 2. That is, the decorative member 121 is attached in correspondence with the variable display member attachment hole 2a of the plate member 2. Also, each winning hole 2
Corresponding to b, the prize winning device 122 and the decorative prize winning device 123
Are placed. This placement is performed by, for example, a winning device placement robot. FIG. 12 is a perspective view showing a part of the back surface side (mounting surface side) of the decorative winning device 123 used in FIG. 13 (A) and 13 (B) are cross-sectional views showing a procedure for attaching the decorative winning device 123 to the surface of the plate-shaped member 2. In the figure, the winning device 1 with decoration
Positioning pins 123 a are formed on the back surface side of 23. Further, in the surface of the plate-shaped member 2, a pin hole 2c to be fitted with the positioning pin is formed in step 5 (see FIG. 1). Therefore, for example, a decorative prize device 123
When arranging the pin on the surface of the plate member 2, the positioning pin 12
By arranging so that 3a and the pin hole 2c are fitted to each other, the decoration winning device 123 can be accurately arranged without being displaced. FIG. 14 is a perspective view showing a manner of fixing the winning device with screws in the step 12 which is the final step of this embodiment. The screw fixing is performed by, for example, the automatic screw stopper 140. In the automatic screw stopper 140, screws are automatically sent from the parts feeder 141 to the driver 142 portion. That is, the screws are sent from above the cylindrical body 143 surrounding the driver 142 to below. And, the screw that is sent is the cylindrical body 1.
At the screw pressing portion 144 at the tip of 43, the screw portion of the screw is directed downward and pressed. The screw thus pressed is screwed into a predetermined position by the rotation of the driver 142.
The automatic screw stopper 140 is also controlled by the drive control means 10 that performs a control operation according to an operation program corresponding to the bar code, as in the above-described processing means. That is, the barcode 3 attached to a part of the side surface of the plate member 2 is read by the barcode reader 9. The operation program corresponding to the read bar code is selected (see the explanation of FIG. 4). FIG. 15 is a perspective view showing an example of a game board manufacturing facility device according to the present invention and showing the entire game board manufacturing process configured by combining each processing means and drive control means. In the figure, the manufacturing process flows along the production line indicated by arrow 150. FIG. 15 will be described according to the flow of the manufacturing process. First, the plate-shaped member 2 which is a material for the game board is taken out from the parts warehouse 151. The plate-shaped member 2 is, as described above, the moving table 1
The barcode 3 is affixed to the upper side, and the barcode 3 is affixed to the side surface of the barcode attachment machine 152 (see FIG. 2). next,
The barcode 3 is read by the barcode reader 9a, and the decorative plate sticking machine 153 sticks a predetermined decorative plate on the surface of the plate-shaped member 2 in accordance with the read barcode. Further, the multi-axial ball plate 154 forms a necessary hole on the surface of the plate member 2, for example, a pin hole 2a for fitting a pin of a decorative member (see FIG. 13). Next, a predetermined gauge original plate is taken out from the gauge original plate automatic warehouse 155 based on the operation program selected corresponding to the bar code information, and the nailing position defining device 70 defines the nailing position. Decorative plate pasting machine 153 in the above process, multi-axis ball plate 15
4 and the nail driving position defining device 70 are the terminal control device 156.
Controlled by. When the process proceeds next, the barcode 3 is read by the barcode reader 9b, and the read barcode is given to the terminal control device 157. The terminal control device 157 controls the router machine 80.
Then, the plate-shaped member 2 is cut into a predetermined shape by the router machine 80. Next, the barcode 3 is read by the barcode reader 9c, and the read information is given to the terminal control device 158. Then, this terminal control device 158
The nailing machine 90 is controlled by the nailing machine and the nail is driven on the surface of the plate-shaped member 2. Further, the barcode is read by the barcode reader 9d, and the read barcode is the terminal control device 1
Given to 59. Then, the terminal control device 159 executes a predetermined program according to the read barcode,
The wind turbine mounting machine 110 is drive-controlled. And the plate-shaped member 2
A windmill is attached to the surface of. Next, on the surface of the plate member 2, a decorative member, a winning device, etc. are arranged. In this arrangement, the pins formed on the decorative member or the winning device as described above and the pin holes formed on the game board surface are fitted to each other and are accurately arranged at a predetermined position. A guide rail is attached to the plate-shaped member 2 on which the decorative member and the winning device are arranged. Finally, the bar code is read by the bar code reader 9e, and the read bar code is the terminal control device 1
The automatic screw stopper 140 is controlled by the terminal control device 160, and the screw is screwed into a predetermined position to fix the decorative member and the like. The game board manufactured in this way is temporarily stored in the product automatic warehouse 161.
Moved to the next step. In the manufacturing process shown in FIG. 15, in each terminal control device 156, 157, 158, 159 and 16
0 is connected to the host computer 200 via the transfer line 201. Therefore host computer 2
00, the manufacturing process can be comprehensively controlled. Note that each terminal control device can be used as an independent control device without using such a host computer. Further, the bar code readers 9a to 9e are provided at five places, and the bar codes read by the bar code readers 9a to 9e are given to the respective terminal control devices. For example, the bar code read by the first bar code reader 9a is It may be provided to the terminal control devices 156, 157, 158.159 and 160, respectively. FIG. 16 is a block diagram of the control-related circuit shown in FIG. FIG. 17 is an example of the host computer 200 shown in FIG. 16, and is a specific perspective view. FIG. 18 is a diagram showing an example of print contents ejected from the printer 240 of the host computer 200. Referring to FIGS. 16 to 18, host computer 200 generally includes a host CPU 210, a display 220 for displaying information, a keyboard 230 for inputting data and the like, and a printer 240 for printing data and the like. Including. Data for modifying or changing control data can be given to each terminal control device from the keyboard 230. For example, as shown in FIG. 17, the display 220 can display the number of manufactured units for each processing means, and the printer 240 can print the content. Therefore, if each terminal control device is commonly controlled by such a host computer 200, the management of the game board manufacturing process can be performed more conveniently.

The present invention is for identifying the type of game board.
By reading the identification body provided separately in
You can specify the type of game board to
Processed by an operation program corresponding to the type of game board
Since the means is driven and controlled, the type of game board to be manufactured
Program that works with frequent changes
Is automatically changed, the machining means is stopped and the program
That you have to temporarily change each time
It is released from here. Moreover, the reading means is large for the workpiece.
Identify the type of game board rather than reading the size and shape
Because it is to read the identification body provided separately for
Read the information to identify the game board as accurately as possible.
It became possible to mistakenly identify the type of game board
Malfunctions of various processing means accompanying it are reduced as much as possible.
Monitoring personnel who monitor the malfunctioning of the processing means on the production line
The need to place along can be reduced as much as possible
We can meet the demand for unmanned production lines as much as possible.

[Brief description of drawings]

FIG. 1 is a block diagram showing a flow of manufacturing steps of a game board according to an embodiment of the present invention.

FIG. 2 is a perspective view showing a state in which a plate-shaped member is fixed on a moving table and a bar code is attached to one short side surface of the plate-shaped member.

FIG. 3 is a diagram showing a relationship between the contents of a bar code and the type (model) of the game board corresponding to the bar code.

FIG. 4 is a configuration block diagram used in an embodiment of the present invention.

5 is an illustrative view showing a storage area of a ROM shown in FIG . 4. FIG.

FIG. 6 is a flowchart for explaining the operation of the embodiment shown in FIG.

FIG. 7 shows a nailing position defining device, (A) of which is the front face.
FIG. 1B is a partially enlarged view of the same.

FIG. 8 is a perspective view showing an example of a router machine.

FIG. 9 is a front view showing an example of a nail driver.

FIG. 10 is a perspective view showing an example of a wind turbine mounting machine.

FIG. 11: Decorative members and winning devices at predetermined positions on the plate-shaped member
FIG. 3 is a perspective view showing a state in which is arranged.

FIG. 12: Part of the back surface side (mounting surface side) of the winning device with decoration
FIG.

[FIG. 13] Attaching the decorative winning device to the surface of the plate-shaped member
It is sectional drawing which shows a procedure.

FIG. 14 is a perspective view showing a usage state of the automatic screw stopper.
is there.

FIG. 15 is a perspective view showing a game board manufacturing facility apparatus according to an embodiment of the present invention.

16 is a block diagram of the controller shown in FIG.

FIG. 17 is a perspective view showing an example of a host computer.

FIG. 18 is a diagram showing an example of print contents printed by a printer of a host computer.

[Explanation of reference numerals] 2 is a plate-like member, 3 is a bar code, 9 is a bar code reader, 10 is a drive control means, 11 is a processing means, 70 is a nailing position defining device, 80 is a router machine, and 90 is a nailing device. Machine, 1
10 is a windmill mounting machine, 140 is an automatic screw stopper, A, B, C
Indicates a plurality of different operation programs, and 150 indicates a production line.

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

[Figure 3]

[Procedure 3]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 17

[Correction method] Change

[Correction content]

FIG. 17

[Procedure amendment 4]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 18

[Correction method] Change

[Correction content]

FIG. 18

Claims (1)

What is claimed is: (1) A game board manufacturing apparatus for processing a plate-shaped member to manufacture a game board of a ball game machine, which is a processing means for performing processing on the plate-shaped member. A plurality of operation programs are built-in, the drive control means for driving and controlling the processing means according to any of the plurality of operation programs, and the plurality of operation programs built in the drive control means, A game board manufacturing apparatus comprising a selection means for selecting one program for driving and controlling the processing means. (2) The selecting unit includes a unit that applies an identification mark that identifies any one of the plurality of operation programs to the plate-shaped member, and a unit that reads the identification information represented by the identification mark. The game board manufacturing apparatus according to claim 1, wherein: (3) The game board manufacturing apparatus according to claim 2, wherein the identification information is represented by a bar code, and the identification information reading means is a bar code reader. (4) The game board according to claim 2, wherein the identification information is represented by a font for an optical character reading device, and the identification information reading means is an optical character reading device. Manufacturing equipment. (5) The means for applying the identification mark to the plate-shaped member is a means for sticking a sticker on which the identification mark is displayed to the plate-shaped member. Game board manufacturing equipment. (6) The game board manufacturing apparatus according to claim 2, wherein the means for applying the identification mark to the plate-shaped member is means for printing the identification mark on the plate-shaped member. (7) The game according to claim 2, wherein the means for applying the identification mark to the plate-shaped member is a means for applying unevenness encoding the identification mark to the plate-shaped member. Board manufacturing equipment. (8) The game board manufacturing apparatus according to claim 1, wherein the selection means is a keyboard. (9) The game board manufacturing apparatus according to any one of claims 1 to 8, wherein the processing means is a router machine for processing the plate-shaped member. (10) The game according to any one of claims 1 to 8, wherein the processing means is a nailing machine for nailing the surface of the plate-shaped member. Board manufacturing equipment. (11) The processing means is a wind turbine mounting machine for mounting a wind turbine on the surface of the plate-shaped member.
The game board manufacturing apparatus according to any one of claims 1 to 8. (12) The processing means is an arrangement machine for a prize winning device, a decorative member, or the like that arranges a prize winning device, a decorative member, or the like on the surface of the plate-shaped member. The game board manufacturing device according to any one of items 8. (13) The processing means is a screw stopper for fixing a prize winning device, a decorative member, or the like arranged on the surface of the plate-like member with a screw stopper, and the processing means is a screw stopper. The game board manufacturing device according to any one of items 8. (14) The processing means includes at least two or more of a router machine, a nailing machine, a windmill mounting machine, a prize machine or a placement machine for decorative members, and a screw stopper. The game board manufacturing apparatus according to any one of items 1 to 8. (15) The game board manufacturing apparatus according to claim 14, wherein the drive control means is a plurality of drive control means provided respectively corresponding to the two or more machines. (16) The game board manufacturing apparatus according to claim 14, wherein the drive control means is a single drive control means for commonly controlling the two or more machines.