JP3211789B2 - Plate processing system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plate material processing and stacking apparatus for cutting a product from a plate material with a plate processing machine such as a punch press machine or a laser processing machine, sorting the cut products into an accumulation area, and stacking the cut products.

[0002]

2. Description of the Related Art Conventionally, the following technology has been put to practical use as a technique for integrating products after cutting a plate material. (A) After processing, pick up the product with a picking device,
Sort into the sorting box. (B) After processing is completed, the positional relationship according to
Reproduce and accumulate on the accumulation side.

[0003] However, in the method of (a) sorting and feeding into sorting boxes, when there are many types of products, it is necessary to arrange a large number of sorting boxes. Therefore, the area occupied by the integrated region increases, which is practically impossible. Further, there is no flexibility in the case of changing the sorting method. In the method of (b) of stacking by reproducing the arrangement at the time of board removal on the stacking side, it is necessary to perform sorting according to purpose such as product or delivery date in a later process. Also, there are the following problems in creating an automatic driving program. In other words, when creating a processing program for controlling the plate material processing machine or a sorting and collecting program for causing the transfer device to perform sorting and collecting,
It is necessary to carry out a matching process of non-matching of the sorting information with a general restriction or requirement in production such as a specification of a transfer device, a high yield, and a low cost. Conventionally, when sorting into sorting boxes (or pallets or the like), information (for example,
The sorting box number) had to be input directly to the automatic programming device by humans in advance, taking into account the processing contents such as the above-mentioned matching processing. For this reason, it has been troublesome for a person to take into account the above-mentioned matching process and the like and to input information.

An object of the present invention is to provide a plate material processing system which can sort and accumulate processed products according to purpose, accumulate efficiently in a limited area, and easily create a control program therefor. is there.

[0005]

The structure of the present invention will be described with reference to FIG. 1 corresponding to an embodiment. This plate material processing system is a plate material processing machine (1) for cutting a product (M) from a material plate material (W), and the product (M) is transported from the plate material processing machine (1) to an arbitrary position in an accumulation area (E). Transfer device (2)
And a control device (3) for program-controlling the plate material processing machine (1) and the transport device (2), and an automatic programming device (4). The automatic programming device (4) has a program (M) set in the information setting means (6) as a program to be executed by the control device (3 ).
Shape indicating shape information (7a) and number of products (M)
From the predetermined information including the product information (7) including the number-of-sheets information (7a) and the sorting information (9) indicating the product arrangement on the accumulation area (E), the sheet material processing machine (1) uses the sheet material (1). A processing program (13) for cutting and processing W), and a product (M) after processing is picked by the transfer device (2) and collected in the collecting area (E) by sorting corresponding to the sorting information (9). Sorting and integration program (1
5) Ru Der things to generate. The information setting means (6)
It is provided separately from the dynamic programming device (4).
There is . According to this configuration, from the predetermined information including the set shape information (7a) and the sorting information (9) of the product (M),
Machining program (13) and sorting integration program (1
5) are generated by the automatic programming device (1). According to the generated processing program (13), under the control of the control device (3), the cutting of the product (M) from the material plate (W) by the plate processing machine (1) is performed. The processed product (M) is picked by the transport device (2) in accordance with the sorting and stacking program (15), and is stacked at a predetermined position in the stacking area (E) by sorting according to the sorting information (9). Therefore, the products (M) can be sorted and accumulated irrespective of the planing of the products (M) with respect to the material plate (W). In addition, since the machining program (13) and the sorting and integrating program (14) are generated in advance by using the shape information (7a) and the sorting information (9) of the product (M), it is possible to carry out plate cutting and machining suitable for sorting. Processes from processing to sorting and accumulation can be performed efficiently. Further, this plate material processing system matches, within a predetermined degree, non-alignment between the general requirements of productivity such as the specification of the transfer device (2), high yield and low cost, and the sorting information (9). Processing, and as a result, the machining order and the sorting destination can be reflected in the machining program (13) and the sorting and integrating program (14), and these programs (13) and (14) can be easily created. it can.

In the present invention, the sorting information (9)
The sorting type information (9) indicates which of a plurality of sorting types including loading by delivery date, loading by process, standing loading, space saving loading, loading by product, and arbitrary loading.
a), the automatic programming device (1) determines an arrangement of each product (M) in a predetermined integration area (E) based on the sorting type information (9a) and the product shape information (7a). May be provided with an integrated area board removing means (42) determined according to the board removing rule (45). in this way,
In the automatic programming device (1), the collecting area plate collecting means (4
2) is provided, and based on the sorting type information (9a) and the product shape information (7a), the stacking position of each product (M) is determined according to a predetermined board take-up rule (45), so that loading by delivery date and by process The sorting / accumulating program (15) is generated so that various kinds of loading such as loading, standing loading, space-saving loading, product-specific loading, and arbitrary loading can be performed efficiently, and more efficient loading can be performed.

In the present invention, the transfer device (2)
A plurality of suction pads (35) for adsorbing the product (M) on a traveling body (27) capable of traveling between the plate material processing machine (1) and the accumulation region (E) of the product (M); A pad range changing means (37) for changing the arrangement range of the plurality of suction pads (35); and generating the machining program (13) and the sorting / collecting program (14) by the automatic programming device (4). The predetermined information may include specification information (10) of the transport device (2) including the pad range changing means (37). Thus, the suction pad (35) of the transport device (2)
Plate material processing machine (1)
By avoiding interference between the transfer device (2) and the transfer device (2), it is possible to adsorb products of various shapes and sizes, and restrictions on the shape and size of the product (M) that can be handled by the transfer device (2) are reduced. The machining program (13) and the sorting / collecting program (14) by the automatic programming device (1).
The specification information (1) of the transport device (2) including the pad range varying means (37) is used as the predetermined information for generating
0), it is possible to change the arrangement range of the appropriate suction pad (35) for each product (M) and to generate the processing program (13) according to the limited range according to the specifications of the transfer device (2). .

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIGS. First, an outline of this device will be described. This sheet material processing and integrating apparatus includes a sheet material processing machine 1 such as a punch press machine or a laser processing machine, a sheet material storage device 5, a transfer device 2, a control device 3 for controlling the plate material processing machine 1 and the transfer device 2, An automatic programming device 4. According to this configuration, the products M cut and processed by the plate material processing machine 1 are picked by the transport device 2, sorted at predetermined positions in the stacking area E, and stacked.

FIG. 6 shows various examples of sorting at the time of integration.
FIG. 7A shows an example of standing, and the arrangement is as shown in the planing state with respect to the raw plate material. (B) is an example of product-specific loading, in which products M are arranged collectively by type and group.
(C) is an example of the arrangement in the next step, which is collectively arranged in the next step. In the illustrated example, the next step is a bending step and a painting step, and the product is placed in another sorting box B for each next step. If the next process is a bending process, the small product M and the large product M are placed in separate sorting boxes B, or if the next process is only the painting process, the product M is separated by the color of the painting. They are placed in another sorting box B. (D) is an example of loading by order, in which products M are arranged collectively in order units. Also,
Different sorting boxes B are used for different orders.
(E) is an example of loading by delivery date, in which products M are arranged collectively by delivery date and another sorting box B is used. When a plurality of sorting boxes B are used as in (C) to (E), the accumulation area E (FIG. 1) is divided into sorting areas E1 and E2 for each sorting box B.

This plate material processing system enables the following techniques for these sorting methods. (A) In the case of sorting loading by product. The accumulation area E is subjected to automatic board removal (also referred to as “automatic nesting”) by the automatic programming device 1, and the same product M after processing is processed regardless of the board removal for the material board W.
The automatic accumulation is efficiently performed in the accumulation area E which is a limited area. (B) In the case of other purpose-based sorting. The classification code for each purpose assigned to the product M is stored in the accumulation position data (XY address) for each of the accumulation areas E1 and E2.
And the data is accumulated in a sorting box B provided for each delivery date.

The automatic programming device 1 is a program for automatically generating a machining program 13 and a transfer program 14 based on the product information 7, material information 8, sorting information 9 and transfer device specification information 10 set in the information setting means 6. It is a computer which includes a display 16 such as a CRT and an input 17 such as a keyboard and a pointing device. Information setting means 6 is a means for storing the information, Oh those provided separately from the automatic programming apparatus 1
You . The transport program 14 includes a loading program (not shown) for transporting the material plate into the plate processing machine 1 and a sorting / accumulating program 15 for transporting the product M. In this example, the automatic programming device 4 is constituted by a part of a CAD / CAM device. The automatic programming device 4 includes a machining program generator 18 and an integrated program generator 19.

The control device 3 includes an automatic programming device 4
A sheet processing machine control means 20 and a transfer apparatus control means 21 for numerically controlling the sheet processing machine 1 and the transfer apparatus 2, respectively;
And a synchronous control means 22 for performing predetermined control by synchronizing the control signals 21. The control device 3 is provided with manual teaching means 23 for teaching the transport device 2 by manual operation. Control device 4
Is a sorting / accumulating program 1 of a transport program 14 which is an NC program created by the automatic programming device 1.
5, after the product is picked, synchronous control of the plate material processing machine 1 and the transport device 2 is performed, and the transport device 2 is moved to the origin O of the accumulation area E at high speed. Thereafter, the transport device 2 is moved at a low speed with reference to the product-specific XY address from the integration area origin O,
The product M is accumulated.

The details of each component, and the processing and operation thereof will be described below. As shown in FIGS. 2 and 3, the plate material processing machine 1 converts a plate material W to a product M
In this example, a turret type punch press is used. P indicates a processing position (punch position). The plate material storage device 5 includes an accumulation area E of the product M.
And a material loading area 24 and a remaining material accumulation area 25 are arranged in a line. Each of the areas E, 24, and 25 is composed of an upper surface of each pallet in a state where the pallets movable in the direction in which these areas are arranged are stopped at predetermined positions. The arrangement direction of the regions E, 24, and 25 is a direction (Y-axis direction) orthogonal to the arrangement direction (X-axis direction) of the plate material processing machine 1 and the plate material storage device 5. An auxiliary table 33 is provided between the plate processing machine 1 and the plate storage device 5.

The transport device 2 is a means for picking up the product M processed by the plate processing machine 1 and transporting the product M to the collecting area E in a sorted state. The transport device 2 transfers the material plate W from the material loading area 24 of the plate storage device 5 to the plate material W. The means for carrying in the processing machine 1 and the means for carrying out the skeleton-like residual material generated by cutting the product M in the plate material processing machine 1 to the residual material accumulation area 25 are also used. The transport device 2 is provided in the form of a rail extending in the direction in which the plate material processing machine 1 and the plate material storage device 5 are arranged (X-axis direction), and is movable in a direction perpendicular to the rail direction (Y-axis direction). The rail-shaped movable base 26 includes a traveling body 27 installed so as to be able to travel in the longitudinal direction (X-axis direction) thereof, and a plate holding means 28 installed on the traveling body 27 so as to be able to move up and down. Accordingly, the plate holding means 28 can be moved in three orthogonal directions. The movement of the rail-shaped movable base 26, the movement of the traveling body 27, and the elevation of the plate material holding means 28 are performed by driving the servo motors 29, 30, 31 (FIG. 3) of each axis. The rail-shaped movable table 26 is installed on a rail 32 provided along both sides of the plate material storage device 5, is movable above the plate material storage device 5, and extends cantilever up to above the plate material processing machine 1. ing.

The plate holding means 28 includes a holding means frame 3
6, a plurality of suction pads 35 are attached, and a gripper (not shown) for holding the remaining material is provided as necessary. The gripper frame 36 is provided with a central main frame 36a.
And a pair of movable frames 36b provided on both sides of the main frame 36a. When the movable frame 36b moves toward and away from the main frame 36a, the arrangement range of the plurality of suction pads 30 is increased. The running direction is variable. These movable frame 36b and driving means (not shown) such as a cylinder device for moving the movable frame 36b constitute a pad range variable means 37. The state indicated by the solid line in FIG. 2 is the maximum spread state, and the state indicated by the chain line is the minimum narrow state in the plate material holding means 28.

Each suction pad 35 is for vacuum suction, and is connected to a negative pressure generating means (not shown) such as a vacuum pump by piping. Among the plurality of suction pads 35 provided,
As shown in FIG. 2, a part of the suction pad 35 is a pad group including a large number of small suction pads 35a. Each of the small suction pads 35a is connected to the above-mentioned negative pressure generating means via a throttle means. Therefore, the suction pad 35 composed of this pad group can be used even when a part thereof is located off the product M. , Without causing adsorption failure due to negative pressure leakage,
The product M can be sucked only by the small suction pads 35a corresponding to the product M.

The machining program generating section 18 of the automatic programming device 4 has a material plate removing means 38 and an NC data converting means 39.
In addition, an accumulation-considering board removal rule 41 is provided. The blanking means 38 is a means for blanking each product M on the blank material W, and performs blanking according to the general boarding rule 40 or the boarding rule 41 considering accumulation. The NC data converting means 39 is means for performing, for example, allocating a tool in a punch press, setting processing conditions, and the like in accordance with a predetermined rule with respect to the plate removing result, and finishing the executable processing program 13. The integrated program generating unit 19 includes an integrated area board removing unit 42, a pad range determining unit 43, and an NC data converting unit 4.
4, and a collecting rule 45 is provided in the collecting area collecting means 42. The collecting area plate removing means 42 is provided for the collecting area E.
This is a means for performing board trimming of each product M in accordance with the board trimming rule 45 (or the sorting accumulation areas E1 and E2). The pad range determining unit 43 is a unit that determines the arrangement range of the suction pad 35 by the pad range changing unit 37 for each product M,
For example, both movable frames 3 of the gripper frame 36
6b, open only one movable frame 36b, or close both movable frames 36b. The NC data converting means 44 is means for finishing the transfer program 14 which is executable NC data for moving the transfer device 2 with respect to the result of the board removal of the accumulation area and the result of the determination by the pad range determining unit 43.

The product information 7 set in the information setting means 6 includes product shape information 7a and shape-specific number information 7b indicating the number of products M. The sorting information 9 includes sorting type information 9a indicating types of sorting as shown in FIG. 6 and information on how to set an accumulation area for each sorting type, for example, the entirety of the accumulation area E. Is performed as one integrated area, or the integrated area E is divided into a plurality of divided integrated areas E1,
The information includes information on whether the data is divided into E2 and the sorting is performed for each of the divided accumulation areas E1 and E2. The product shape information 7a is, for example, a CAD /
The figure data of bent sheet material designed by CAM device
It consists of a development drawing obtained by D development or surface synthesis, or graphic data obtained by a CAD device different from this CAD / CAM device. The product shape information 7a includes the product M
And data of the shape of the punching hole and the shape of the forming process when punching is performed inside the product.

The sorting types included in the sorting type information 9a include, for example, loading types such as arbitrary loading, loading by delivery date, loading by process, loading by standing, space saving loading, loading by product, loading by order, and the like. The space-saving loading is a method of loading the products M in the accumulation area E in a space as small as possible without considering other purposes. Arbitrary loading is a method of loading in the accumulation area E without requiring any particular regulation. Other loading types are as described above with reference to FIG. The product information 7 and the sorting information 9 may be input to the automatic programming device 4 through a communication line such as a bus or a communication line such as a telephone line, or may be input through a storage medium. You may input it.

FIG. 4 shows two types of automatic plate removal processing, namely, the plate removal by the material plate removal means 38 shown in FIG. 1 (automatic material plate removal A) and the plate removal by the accumulation area plate removal means 42 (automatic area plate removal B). The material board removing means 38 is provided with a general board removing rule 40 and an accumulation-considering board removing rule 41, and is capable of performing board removing in consideration of sorting during stacking. According to the accumulation-considering board removal rule 41,
Sorting methods for various purposes as described above with reference to FIG. 6 (placement, loading by product, loading by next process, loading by order,
Rules are set for each delivery date, and sorting information 9
The rule of the sorting method according to the sorting type information 9a is adopted. Automatic planing of a plurality of products M is performed according to the general planing rule 38 so as to maximize the yield with respect to the raw plate material W within a range that does not violate the planing rule 41 for accumulation.

The stacking area picking means 42 is a means for automatically picking up each product M on the stacking area E (E1, E2) in accordance with the boarding rule 45, and generating a sorting stacking program 15 corresponding to the boarding result. is there. The board taking rules 45 are provided with rules corresponding to the various sorting methods (placement, loading by product, loading by next process, loading by order, loading by delivery date, etc.), and correspond to the sorting type information 9a. A rule is selected. In the selected sorting method, the stacking position of each product M is determined such that the remaining area where the plurality of products M are placed is minimized with respect to a certain plane range that becomes the stacking region E. In the case of the sorting method in which the accumulation region E is divided into a plurality of divided accumulation regions E1 and E2, automatic plate removal in which the remaining area where the product M is placed is the smallest for each of the divided accumulation regions E1 and E2 is performed. Will be In the sorting / accumulating program 15 obtained as a result of the automatic sheet picking, the stacking position of each of the cut products M is defined by the XY address with respect to the stacking area origin O. When the accumulation area E is sectioned, the origins O1, O2 of the corresponding section accumulation areas E1, E2
The accumulation position of each product M is defined by the XY address with respect to.

FIG. 5 shows the mechanical operation by the control device 3 of FIG. Based on the two types of NC data of the machining program 13 obtained by the automatic programming device 1 and the transfer program 14 (including the sorting and accumulation program 15), the control device 3 changes to the NC data owned in advance by immediate processing. To control the transport device 2 and the plate material processing machine 1. The real-time control item A is the NC data (the machining program 1 shown in FIG. 1) obtained by the automatic blank extraction (A) described in FIG.
The control according to 3) is shown, and after the sheet processing machine 1 performs the outer shape processing and the perforation processing of the internal processing, the sheet is processed by the transport device 2. If the picking fails, the picking position is shifted slightly and the operation is retried. After the picking, the traveling body 27 of the transport device 2 is moved at high speed to the accumulation region origin O under the control of the control device 3. When reaching the accumulation area origin O, the control of the real-time control item B is performed. That is, the control device 3 moves the traveling body 27 at a low speed (for example, by a skip movement) to an accumulation position corresponding to the product M defined in the sorting and accumulation program 15. After positioning in this manner, the plate material gripping means 28 of the traveling body 27 is lowered to
Are accumulated in the accumulation region E. At this time, the stacking height control unit (not shown) provided in the control device 3 counts and updates the stacking height each time one sheet is stacked at each stacking position, and the plate material gripping means of the transport device 2 28 is controlled in real time to lower the accumulation height command.

The integration operation when the integration region E is divided into a plurality of regions is basically the same as the case where the division is not performed, but differs in that the operation is performed for each of the division integration regions E1 and E2 as follows. In this case, high-speed feeding after product picking is performed up to the origins O1 and O2 of the corresponding section accumulation areas E1 and E2.
Thereafter, the traveling body 27 is moved at a low speed to the collecting position determined by the sorting and collecting program 15. Which of the section accumulation areas E1 and E2 corresponds to is determined by the section designation data described in the sorting and accumulation program 15. The classification specification data is specified by the classification area information 9b of the classification information 9 input to the automatic programming device 1, or the purpose classification code or the like set for each product M at the time of board-cutting by the stacking area board-cutting means 45. Is generated according to.
The accumulation position data inside each of the section accumulation areas E1 and E2 is processed by the same address data (XY address). Note that, as described above, the plurality of divided integrated areas E1, E2
In the case of the sorting method of dividing into
The classification code for each purpose provided for each product
1 and E2, and their divided accumulation areas E1 and E2
It may be converted to the XY address within.

In the above-described embodiment, the product information 7 and the sorting information 9 are input to the automatic programming device 4. However, as shown in FIG. 46, and a machining program and a transport program may be generated by the automatic programming device 4A based on the input information. In this case, the product information 46 includes information such as a delivery date, a sub-assembly unit name, a product shape, a material, and a plate thickness. The material boarding information 45 is information defining the boarding of each product M with respect to the material board W. These material board information 45
And the product information 46 are set in the information setting means 6A.
The information setting means 6A may constitute the automatic programming device 4A or may be a means provided separately therefrom. In this embodiment, items that are not particularly described are the same as those in the embodiment described with reference to FIGS.

In each of the above-described embodiments, the machining program 13 and the transport program 14 are generated as independent programs. However, the automatic programming device performs a single item machining for machining one product M in the machining program 13. A command group 13a and a single-item transport command group 14a for transporting one product M in the transport program 14 are generated as one single-item corresponding program, and a processing program and a transport program are configured by a set of the one single-item corresponding program. You may do it. In this case, the machining program and the transport program may constitute one program by both programs. FIG. 8 shows an example of an automatic programming device for generating such a single item correspondence program.
Shows the creation process. In this embodiment, items that are not particularly described are the same as those in the embodiment described with reference to FIGS.

In FIG. 8, the automatic programming device 3
The single item correspondence program generation means 47 provided in B is a means for automatically generating a single item correspondence program 48, which is an NC program for automatic board cutting for one product M, based on the product shape information 7a (FIG. 1). . The single item correspondence program 48 includes plate material processing information and pad range varying means 37.
, And these pieces of information are generated by the product-specific machining program generating means 49 and the product-specific pad range setting means 50 in the single-item corresponding program generating means 47, respectively.

FIG. 9 shows a process of creating the single item correspondence program 48. Automatic tool placement is performed on the product shape information 7a by the product-specific machining program generating means 49 (FIG. 8) as shown in step S1. The details of the processing in step S1 will not be described. The result of the automatic tool placement is displayed on the display means 16 (FIG. 1) to be checked by the operator (S2). As a result of the confirmation, if necessary, correct the tool arrangement manually. After that, the pad range is specified. The specification of the pad range may be automatically performed by the single item corresponding program generation means 47, or may be manually performed. The means for determining the pad range in the single item correspondence program 48 in this manner is the product-specific pad range setting means 50 in FIG. In this way, the creation of the single item handling program 48 for automatic board removal is completed. The single item correspondence program 48 is created for each product M and stored in a predetermined storage area.

[0028]

The plate processing system according to the present invention includes a plate processing machine, a transfer device for transferring products to an accumulation area, a control device for program-controlling the plate processing machine and the transfer device, and an automatic programming device. The automatic programming device generates a machining program and a sorting / accumulating program from predetermined information including product shape information and sorting information indicating a product arrangement on the accumulating area as a program to be executed by the control device. As a result, the processed products can be sorted and accumulated according to purpose,
In addition, the processing program and the sorting / collecting program can be efficiently created in a limited area, and the processing program and the sorting / accumulating program can be efficiently created. In addition, it is possible to easily create the machining program and the sorting / collecting program. The sorting information includes sorting type information indicating which one of a plurality of sorting types including loading by delivery date, loading by process, loading by standing, loading by space saving, loading by product, and optional loading, and If the automatic programming device has an accumulation area board removing means for determining the accumulation position of each product with respect to a predetermined sorting area according to a predetermined board removal rule from the sorting type information and the product shape information, the automatic programming apparatus has various purposes. The sorting and stacking program can be generated so that the stacking according to the above can be performed efficiently, and the stacking can be performed more efficiently. A transfer device including a plurality of suction pads and a pad range variable unit configured to change the arrangement range of the suction pads; and a transfer device including the pad range variable unit as predetermined information for program generation by the automatic programming device. In the case where the specification information is included, it is possible to change the arrangement range of the appropriate suction pad for each product and to generate a processing program in accordance with the limited range based on the specifications of the transfer device.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a conceptual configuration of an embodiment of the present invention.

FIG. 2 is a plan view showing the plate material processing machine and a transfer device.

FIG. 3 is a front view showing the sheet material processing machine and a transfer device.

FIG. 4 is an explanatory diagram of automatic material blanking and automatic area blanking.

FIG. 5 is a flowchart of a machine operation.

FIG. 6 is a perspective view showing various sorting methods.

FIG. 7 is a block diagram showing a part of a conceptual configuration of another embodiment according to the present invention.

FIG. 8 is a block diagram showing a part of a conceptual configuration of still another embodiment of the present invention.

FIG. 9 is an explanatory diagram of a process of creating the single item correspondence program.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Plate processing machine 2 ... Conveying device 3 ... Control device 4 ... Automatic programming device 5 ... Plate material storage device 6 ... Information setting means 7 ... Product information 7a ... Product shape information 8 ... Material information 9 ... Sorting information 9a ... Sorting type information 9b ... sorting area information 10 ... transfer device specification information 13 ... processing program 14 ... transfer program 15 ... sorting and integrating program 20 ... plate material processing machine control means 21 ... transfer device control means 27 ... traveling body 28 ... plate material gripping means 35 ... suction pad 37 ... Pad range variable means 38 ... Material board removal means 43 ... Pad range determination unit 45 ... Material board removal information E ... Accumulation area E1, E2 ... Segment accumulation area M ... Product W ... Material board material

Continued on the front page (51) Int.Cl. ⁷ Identification code FI B65H 29/00 B65H 29/00

Claims (3)

(57) [Claims] 1. A plate processing machine for cutting a product from a raw plate, a transfer device for transferring the product from the plate processing device to an arbitrary position in an accumulation area, a control device for program-controlling the plate processing machine and the transfer device, An automatic programming device, wherein the automatic programming device is installed in the information setting means as a program to be executed by the control device.
Shape information indicating the specified product shape and the number of each product
A processing program for cutting and processing a plate material by the plate processing machine from predetermined information including product information including the number-of-sheets information and sorting information indicating a product arrangement form on the accumulation area, and transferring the processed product to the transfer device. And a sorting / accumulating program for accumulating in the accumulating area by sorting corresponding to the sorting information.
The setting means is provided separately from the automatic programming device.
Plate material processing system as hereinbefore. 2. The sort type indicating whether the sort information is one of a plurality of sort types including loading by delivery date, loading by process, loading by standing, loading by space saving, loading by product, and optional loading. 2. The sheet material according to claim 1, including information, wherein said automatic programming device has an integrated area board removing means for determining an arrangement of each product with respect to a predetermined integrated area according to a predetermined board removing rule based on the sorting type information and the product information. Processing system. 3. The transfer device according to claim 1, wherein the plurality of suction pads for sucking the product and a disposition range of the plurality of suction pads are variable on a traveling body capable of running between the plate material processing machine and the product accumulation region. Means for generating the machining program and the sorting / accumulating program by the automatic programming device, wherein the predetermined information includes specification information of a transfer device including a variable range by the pad range changing means. The plate processing system according to claim 1 or 2.