CN113178399A - Processing device - Google Patents

Abstract

The invention provides a processing device, which can easily consult in the transmission of information related to the processing device without spending time. A bar code (10) in which device information including a device number for individually identifying a processing device (1) is recorded is provided at an arbitrary position in the processing device (1). When a bar code (10) provided in a processing device (1) is read by an information communication medium (200) in the processing device (1), a consultation table in which the device number of the processing device (1) is recorded is generated in the information communication medium (200).

Description

Processing device

Technical Field

The present invention relates to a processing apparatus.

Background

A method of managing a machining apparatus is known in which history information of the machining apparatus and the like can be easily obtained at a work site (see patent document 1).

Patent document 1: japanese patent laid-open publication No. 2016-115073

When a machining device is out of order and a user of the machining device wants to consult a manufacturer of the machining device, the manufacturer desires to know device information, error information, and the like related to the machining device in order to confirm the occurrence of a phenomenon. On the other hand, it is troublesome for the user side to confirm and transmit detailed information relating to the processing apparatus, and there is a demand for prompt and labor-free communication.

Disclosure of Invention

The present invention has been made in view of the above problems, and an object of the present invention is to provide a machining apparatus capable of easily making a query without taking time to transmit information relating to the machining apparatus.

In order to solve the above problems and achieve the object, a machining device according to the present invention is a machining device including a bar code in which device information including a device number for individually identifying the machining device is recorded is provided at an arbitrary position of the machining device, and when the bar code is read through an information communication medium, a consultation table in which the device number is recorded is generated in the information communication medium.

The bar code may be provided on an outer wall of the processing apparatus.

The barcode may be displayed on the touch panel.

When an error occurs, a barcode including error information may be displayed on the touch panel, and the barcode may be read by using an arbitrary information communication medium, thereby generating a consultation table in which the error information is recorded in the information communication medium.

The present invention enables easy consultation without taking time to transmit information relating to a processing apparatus.

Drawings

Fig. 1 is a perspective view showing a configuration example of a processing system including a processing apparatus according to embodiment 1.

Fig. 2 is a block diagram showing an example of barcode information shown by a barcode provided in the processing apparatus of fig. 1.

Fig. 3 is a diagram showing details of an example of the barcode information of fig. 2.

Fig. 4 is a diagram schematically showing an example of the functional configurations of the information communication medium, the server, and the information communication network in fig. 1.

Fig. 5 is a diagram showing a 1 st format stored in the advisory table database of fig. 4.

Fig. 6 is a diagram showing a 2 nd format stored in the advisory table database of fig. 4.

Fig. 7 is a flowchart illustrating an example of the operation of the machining system including the machining apparatus of fig. 1.

Fig. 8 (a), (B), and (C) are explanatory diagrams for explaining the operation of the machining system including the machining apparatus of fig. 1.

Fig. 9 is a diagram showing a process of generating a consultation table in the machining system including the machining apparatus of fig. 1.

Fig. 10 is a diagram schematically showing an example of the functional configuration of the processing apparatus according to embodiment 2.

Fig. 11 is a diagram illustrating an example of a display screen displayed on the touch panel of the processing apparatus of fig. 10.

Fig. 12 is a block diagram showing an example of barcode information shown in the barcode displayed on the touch panel of fig. 11.

Fig. 13 is an explanatory diagram for explaining an operation of a machining system including the machining apparatus of fig. 10.

Fig. 14 is a diagram showing information of the advisory table generated by the machining system including the machining apparatus of fig. 10.

Description of the reference symbols

1: a processing device; 10. 10-2: a bar code; 13. 13-2: device information; 14: numbering devices; 40: a touch panel; 111: error information; 200: an information communication medium; 331. 332: and consulting the table.

Detailed Description

A mode (embodiment) for carrying out the present invention will be described in detail with reference to the drawings. The present invention is not limited to the contents described in the following embodiments. The components described below include substantially the same components as can be easily conceived by those skilled in the art. The following structures can be combined as appropriate. Various omissions, substitutions, and changes in the structure can be made without departing from the spirit of the invention.

[ embodiment mode 1 ]

A processing apparatus 1 according to embodiment 1 of the present invention will be described with reference to the drawings. Fig. 1 is a perspective view showing a configuration example of a processing system 1000 including a processing apparatus 1 according to embodiment 1. As shown in fig. 1, the processing system 1000 includes: a processing device 1; an information communication medium 200 used by an operator on the user side of the processing apparatus 1; a server 300 managed by the manufacturer of the processing apparatus 1; and an information communication network 400.

The workpiece 500 processed by the processing apparatus 1 is, for example, a disc-shaped semiconductor wafer or an optical device wafer based on silicon, sapphire, gallium arsenide, or the like. As shown in fig. 1, a device 503 is formed in a region of a flat front surface 501 divided by a plurality of planned dividing lines 502 formed in a lattice shape in a workpiece 500. The object 500 has an adhesive tape 505 attached to a back surface 504 on the back side of the front surface 501, and a ring frame 506 attached to the outer edge of the adhesive tape 505. In the present invention, the workpiece 500 may be a rectangular package substrate, a ceramic plate, a glass plate, or the like, which includes a plurality of resin-sealed devices.

As shown in fig. 1, the processing apparatus 1 includes a main body 2 which is a box-shaped housing. The bar code 10 of the processing apparatus 1 is provided on the outer wall of the main body 2. The machining apparatus 1 is an apparatus for machining a workpiece 500, and includes a chuck table 20, a machining unit 30, a touch panel 40, and a control unit 50. In the present invention, the processing device 1 is not limited to this, and the barcode 10 may be provided at an arbitrary position (for example, inside an exterior door (not shown) of the main body 2) that can be read by the information communication medium 200. In embodiment 1, as shown in fig. 1, the barcode 10 is a so-called QR (Quick Response) code which is a matrix-type two-dimensional code, but the present invention is not limited thereto, and may be a one-dimensional code.

Fig. 2 is a block diagram showing an example of the barcode information 11 shown in the barcode 10 provided in the processing apparatus 1 of fig. 1. The barcode 10 is an identifier showing barcode information 11. Here, in the present specification, the barcode 10 described above indicates the barcode information 11, and the barcode 10 records the barcode information 11. The barcode information 11 is information that can be acquired by the information communication medium 200 when the barcode 10 is read by the information communication medium 200. That is, the information communication medium 200 can acquire the barcode information 11 by reading the barcode 10 in accordance with various computer programs such as predetermined barcode reading software and a barcode reading application (application). As shown in fig. 2, the barcode information 11 includes counselor information 12 and device information 13.

The counselor information 12 includes information of a receiver of the processing apparatus 1 on the manufacturer side and information specifying a predetermined format of a counseling form from the user side to the manufacturer side. Here, the format of the consultation table is a format in which various items of consultation with the processing apparatus 1, input fields for the various items, and transmission buttons for inputting information to be transmitted to the input fields are arranged in a predetermined arrangement.

The device information 13 includes a device number 14 for individually identifying the processing device 1. The device number 14 is represented by a number and character array, and is "ABC 001" in embodiment 1 (see fig. 3). The device number 14 is a part managed by the manufacturer side in contrast to the delivery date and time and delivery party of the processing device 1, and therefore is substantially a part including information on the user side. As shown in fig. 2, the device information 13 may include type information 15 indicating the type of the machining device 1 and model information 16 indicating the model of the machining device 1. The type of the processing apparatus 1 indicated by the type information 15 is a cutting apparatus, a grinding apparatus, a polishing apparatus, a grinding and polishing apparatus, a laser processing apparatus, or the like. The model number of the processing apparatus 1 indicated by the model number information 16 is a model of the apparatus. In the present invention, the device information 13 is not limited to this embodiment.

When the information communication medium 200 acquires the barcode information 11 including the counselor information 12 and the device information 13, a counseling table in a predetermined format is generated in the information communication medium 200 in a state where the manufacturer side of the processing device 1 is the recipient and the device number 14 is input in the input field of the device number.

Fig. 3 is a diagram showing details of an example of the barcode information 11 of fig. 2. In embodiment 1, as shown in fig. 3, the counselor information 12 and the device information 13 included in the barcode information 11 are addressed and processed in information communication. As shown in fig. 3, the address of the barcode information 11 is an address to which an additional address of the device information 13 is added after the address of the counselor information 12.

When the information communication terminal 200 accesses the barcode information 11 shown in fig. 3, the information communication terminal 200 generates a consultation table 331 (see fig. 9) in the 1 st format 311 in a state where the manufacturer side of the processing apparatus 1 is the recipient and the apparatus number 14 is input in the apparatus number input field.

In the present invention, the address of the barcode information 11 is not limited to the above-described embodiment. For example, the address of the barcode information 11 may be accessed via the information communication medium 200, and a mail form in which the device information 13 is input may be generated in the information communication terminal 200 with the manufacturer side of the processing device 1 as the receiver.

The chuck table 20 has a holding surface 21, and sucks and holds the workpiece 500 from the back surface 504 side by the holding surface 21 by negative pressure supplied from a suction source not shown. The chuck table 20 can be rotated about the Z axis by a rotation drive source not shown. The Z-axis direction is a vertical direction.

The machining unit 30 machines the workpiece 500 held by the chuck table 20. The machining unit 30 is, for example, a cutting unit, and includes a 1 st machining unit 31 and a 2 nd machining unit 32. In the 1 st and 2 nd machining units 31 and 32, the cutting tool 33 is attached to be rotatable about an axial center along the Y-axis direction. The cutting tools 33 of the 1 st processing unit 31 and the 2 nd processing unit 32 are opposed to each other in the Y-axis direction. The Y-axis direction is one of the horizontal directions and is perpendicular to the Z-axis direction. The machining unit 30 performs cutting on the workpiece 500 by the rotating cutting tool 33.

The machining device 1 includes, for example, X-axis moving means, not shown, for moving the chuck table 20 relative to the housing of the machining device 1 in the X-axis direction. The X-axis direction is one of the horizontal directions, and is perpendicular to the Y-axis direction and the Z-axis direction. The machining apparatus 1 further includes: a Y-axis moving unit, not shown, for moving the machining unit 30 relative to the housing of the machining apparatus 1 in the Y-axis direction; and Z-axis moving means, not shown, for moving the machining means 30 relative to the housing of the machining apparatus 1 in the Z-axis direction. The machining device 1 relatively moves the chuck table 20 and the machining unit 30, for example, along the line 502 to divide by the respective moving units, and cuts the workpiece 500 held by the chuck table 20 along the line 502 to divide.

In embodiment 1, the processing unit 30 included in the processing apparatus 1 is a cutting unit that cuts the workpiece 500, but the present invention is not limited to this, and may be a grinding unit that performs grinding using a grinding wheel, a polishing unit that performs polishing using a polishing pad, or a laser processing unit that performs laser processing by irradiating laser beams.

The touch panel 40 is provided in the processing apparatus 1 with the display surface facing outward. The touch panel 40 includes: a display unit 41 (see fig. 10) for displaying various information related to the machining device 1; and an input unit 42 (see fig. 10) that receives various operation inputs related to the machining apparatus 1, such as a setting input of machining conditions, from an operator.

The control unit 50 controls each component of the machining apparatus 1 to realize the machining process of the machining apparatus 1. The control unit 50 controls each part of the machining apparatus 1 including the chuck table 20 and the machining unit 30 according to the machining conditions input and set by the operator, for example, to realize the machining process of the workpiece 500.

In embodiment 1, the control unit 50 includes a computer system. The control unit 50 has: an arithmetic Processing Unit having a microprocessor such as a CPU (Central Processing Unit); a storage device having a Memory such as a ROM (Read Only Memory) or a RAM (Random Access Memory); and an input/output interface device. The arithmetic processing device executes arithmetic processing in accordance with a computer program stored in the storage device, and outputs a control signal for controlling the machining device 1 to each component of the machining device 1 via the input/output interface device.

Fig. 4 is a diagram schematically showing an example of the functional configurations of the information communication medium 200, the server 300, and the information communication network 400 of fig. 1. As shown in fig. 4, the information communication medium 200 includes an imaging unit 201, a display unit 202, an input unit 203, a display processing unit 204, and a barcode reading unit 205. Server 300 has a consulting table database 301. The information communication network 400 connects the information communication medium 200 and the server 300 so as to be able to communicate information.

The information communication medium 200 is an information processing terminal exemplified by a mobile phone including a high-performance mobile phone (so-called smartphone), a tablet terminal, a notebook type or desktop PC (Personal Computer), a PDA (Personal Digital Assistant) as a portable information terminal, a glasses type or clock type Wearable Device (Wearable Device), and the like. The information communication medium 200 includes the same computer system as the control unit 50, and has: an arithmetic processing device having a microprocessor such as a CPU; a storage device having a memory such as a ROM or a RAM; and an input/output interface device. The arithmetic processing device executes arithmetic processing in accordance with a computer program stored in the storage device, and realizes each processing of the information communication medium 200.

The server 300 includes the same computer system as the control unit 50, and has: an arithmetic processing device having a microprocessor such as a CPU; a storage device having a memory such as a ROM or a RAM; and an input/output interface device. The arithmetic processing device executes arithmetic processing in accordance with a computer program stored in the storage device, and realizes each processing of the server 300.

The storage means of the server 300 stores a database of various information related to the counsel form as a counsel form database 301. The server 300 realizes a function of information communication with the information communication medium 200 via the information communication network 400 by the input-output interface device of the server 300.

Fig. 5 is a diagram showing the 1 st format 311 stored in the advisory table database 301 of fig. 4. Fig. 6 is a diagram illustrating the 2 nd format 312 stored in the advisory table database 301 of fig. 4.

The counseling form database 301 has information of various formats of the counseling form from the user side to the manufacturer side including the 1 st format 311 shown in fig. 5 and the 2 nd format 312 shown in fig. 6 as the counseling form basic information. The 1 st format 311 is arranged with an item of a device number and an input field thereof, an item of consultation content and an input field thereof, and a send button. In addition to the items arranged in the 1 st format 311, the 2 nd format 312 also arranges items of the software version, the error code, the error occurrence date and time, and the error occurrence frequency, and input fields thereof.

In embodiment 1, as shown in fig. 6, the consulting table database 301 stores and saves the respective formats such as the 1 st format 311 and the 2 nd format 312 in comparison with addresses for accessing the respective formats from the information communication medium 200.

In embodiment 1, the information communication network 400 includes communication lines in a factory or a business where the processing apparatus 1 is installed, public communication lines, dedicated communication lines, and the like. In addition, the information communication network 400 may be connected wirelessly or by wire. The information communication network 400 may be a network in which only the information communication medium 200 and the server 300 are connected without providing a predetermined information processing device.

The operation of the machining system 1000 including the machining device 1 having the above-described configuration will be described with reference to the drawings. Fig. 7 is a flowchart illustrating an example of the operation of the machining system 1000 including the machining apparatus 1 of fig. 1. Fig. 8 (a), (B), and (C) are explanatory diagrams for explaining the operation of the machining system 100 including the machining device 1 of fig. 1. Fig. 9 is a diagram illustrating a process of generating the advisory table 331 by the machining system 100 including the machining apparatus 1 of fig. 1.

When the information communication medium 200 starts a predetermined camera application and a predetermined barcode reading application in accordance with an operation by the operator, the image capturing unit 201 starts capturing an image, the display processing unit 204 starts generating a captured image based on the captured image, and the display unit 202 starts displaying the captured image. The information communication medium 200 is positioned so that the barcode image 210 is included in the image pickup screen of the display unit 202 (that is, so that the barcode 10 provided in the processing device 1 is included in the image pickup area of the image pickup unit 201) while the operator views the image pickup screen of the display unit 202 to recognize the image pickup area of the image pickup unit 201. When the information communication medium 200 is positioned by the operator in this way, the barcode 10 is imaged by the imaging unit 201 to obtain the barcode image 210, the imaging screen 211 including the barcode image 210 is generated by the display processing unit 204, the display unit 202 displays the image, and the barcode reading unit 205 reads the barcode image 210 (step ST11 in fig. 7).

When the barcode image 210 cannot be read by the barcode reading unit 205 and the barcode information 11 cannot be acquired (no in step ST12 of fig. 7), the information communication medium 200 repeats the operation of step ST11 until the barcode information 11 is acquired. When the information communication medium 200 is capable of acquiring the barcode information 11 by reading the barcode image 210 by the barcode reading unit 205 (yes in step ST12 of fig. 7), as shown in fig. 8B, a pop-up screen 212 for inquiring the operator about access to the address of the barcode information 11 is superimposed on the imaging screen 211 (step ST13 of fig. 7).

When the no button 214 on the pop-up screen 212 is selected and the information communication medium 200 receives an input to prevent access to the address of the barcode information 11 (no in step ST14 of fig. 7), the operation is resumed from step ST 11. When the yes button 213 of the pop-up screen 212 is selected and the information communication medium 200 receives an input to access the address of the barcode information 11 (yes in step ST14 of fig. 7), a predetermined web browser application is started to access the address of the barcode information 11, thereby starting information communication with the server 300 via the information communication network 400 (step ST15 of fig. 7). The information communication medium 200 requests the server 300 to fetch the information of the 1 st format 311 by accessing the address of the counselor information 12. In addition, the information communication medium 200 transmits the information of the device number 14 to the server 300 by accessing the additional address of the device information 13, and requests a process of inputting the device number 14 in the input field of the device number of the 1 st format 311.

When the server 300 accepts access of the address of the barcode information 11 from the information communication medium 200, as shown in fig. 9, the processing based on the input information 321 is performed on the 1 st format 311 in accordance with the barcode information 11, a consultation table 331 is generated, and the information of the consultation table 33 is transmitted to the information communication medium 200 via the information communication network 400.

The information communication medium 200 receives the information of the counseling table 331 into which the information of the barcode information 11 is input from the server 300 via the information communication network 400 (step ST16 of fig. 7). As shown in fig. 8C, the information communication medium 200 generates a counseling table screen 215 including the counseling table 331 from the acquired information of the counseling table 331 by the display processing unit 204, and displays the generated counseling table screen on the display unit 202 (step ST17 in fig. 7). In this way, the consultation table 331 in which the device information 13 (device number 14) is recorded is generated in the information communication medium 200 based on the barcode 10 provided in the processing device 1. When the operator inputs the counseling content in the input field of the counseling content of the counseling table 331 displayed on the display portion 202 and selects the transmission button of the counseling table 331, the information communication medium 200 transmits the counseling content to the server 300 via the information communication network 400 together with the device information 13 (device number 14) automatically input into the counseling table 331.

In the processing apparatus 1 according to embodiment 1 having the above-described configuration, the barcode 10 storing the apparatus information 13 is provided at an arbitrary position, the apparatus information 13 includes the apparatus number 14 for individually identifying the processing apparatus 1, and when the barcode 10 is read through the information communication medium 200, the advisory table 331 in which the apparatus number 14 is recorded is generated in the information communication medium 200. Therefore, the processing apparatus 1 according to embodiment 1 has the following operational effects: the operator can easily make a consultation with the manufacturer side of the machining apparatus 1 without spending time in transferring the apparatus information 13 (apparatus number 14) as information related to the machining apparatus 1.

In the processing apparatus 1 according to embodiment 1, the barcode 10 is provided on the outer wall of the main body 2 of the processing apparatus 1. Therefore, the processing apparatus 1 according to embodiment 1 has the following operational effects: the operator can more quickly and easily transmit the device information 13 (device number 14) as information related to the machining device 1 and make a consultation to the manufacturer side of the machining device 1.

In the machining device 1 according to embodiment 1, the device number 14 included in the barcode information 11 recorded in the set barcode 10 substantially includes information on the user side, which is the delivery side of the machining device 1, and information on the type of the machining device 1, for the manufacturer side of the machining device 1. Therefore, the processing apparatus 1 according to embodiment 1 has the following operational effects: even if the operator on the user side of the machining apparatus 1 does not perform the operation of inputting the information of the user side and the information of the type of the machining apparatus 1, the manufacturer side of the machining apparatus 1 can easily and reliably acquire the information of the user side and the information of the machining apparatus 1 as the consultation source based on the contents of the consultation transmitted from the consultation table 331 in which the apparatus number 14 is recorded.

In the processing apparatus 1 according to embodiment 1, the counselor information 12 included in the provided barcode 10 includes information of a receiver of the processing apparatus 1 on the manufacturer side. Therefore, the processing apparatus 1 according to embodiment 1 has the following operational effects: even if the operator on the user side of the machining apparatus 1 does not perform the work of investigating or inputting the information of the receiver on the manufacturer side, the operator can easily and reliably make a consultation with the manufacturer side of the machining apparatus 1 without mistaking a consultant.

[ embodiment 2 ]

A processing method according to embodiment 2 of the present invention will be described with reference to the drawings. Fig. 10 is a diagram schematically showing an example of the functional configuration of the processing apparatus 1 according to embodiment 2. Fig. 11 is a diagram illustrating an example of a display screen 46 displayed on the touch panel 40 of the processing apparatus 1 of fig. 10. Fig. 12 is a block diagram showing an example of the barcode information 11-2 shown in the barcode 10-2 displayed on the touch panel 40 of fig. 11. Fig. 13 is an explanatory diagram for explaining an operation of the machining system 1000 including the machining apparatus 1 of fig. 10. Fig. 14 is a diagram showing information of the advisory table 332 generated by the machining system 1000 including the machining apparatus 1 of fig. 10. In fig. 10 to 14, the same components as those in embodiment 1 are denoted by the same reference numerals, and description thereof is omitted.

As shown in fig. 11, when an error occurs, the processing device 1 according to embodiment 2 displays a barcode 10-2 showing barcode information 11-2 including error information 111 (see fig. 12) on the display unit 41 of the touch panel 40.

As shown in fig. 11, the display screen 46 displayed on the display unit 41 of the touch panel 40 of the processing apparatus 1 according to embodiment 2 is an example of a screen displayed when an error that the width of the cutting groove 510 exceeds the allowable range and is too wide, that is, a "notch too wide error", occurs in a so-called notch inspection in which the processing unit 30 performs a cutting process on the workpiece 500 to form the cutting groove 510 (notch) along the planned dividing line 502 and the quality of the cutting groove 510 is checked. The display screen 46 displays an image 47 of the workpiece 500 after the cutting process on the left side of the screen. Image 47 shows a region where the width of the cutting groove 510 formed in the workpiece 500 is wider than the width of the line 502 to be divided and reaches the device 503. The display screen 46 displays the name "slit width error" of an error that has occurred when the slit inspection was performed in the display area 48 on the upper right of the screen. The display screen 46 displays an error code 112, i.e., "error 192", in the display area 49 immediately below the display area 48, in contrast to an error in which a name is displayed in the display area 48. The display screen 46 displays the barcode 10-2 at the lower right of the screen, and the barcode 10-2 shows the barcode information 11-2 containing the error information 111 relating to the "slit too wide error" that has occurred.

The barcode 10-2 of embodiment 2 is an identifier showing the barcode information 11-2. The barcode information 11-2 is information that can be obtained by reading the barcode 10-2 from the information communication medium 200. The information communication medium 200 can acquire the barcode information 11-2 by reading the barcode 10-2 in accordance with various computer programs such as predetermined barcode reading software and barcode reading application (application). As shown in fig. 12, the barcode information 11-2 includes counselor information 12-2, device information 13-2, and error information 111.

The counseling party information 12-2 is information in which a format designated in the counseling party information 12 of embodiment 1 is changed. The device information 13-2 is information obtained by further changing the device information 13 of embodiment 1 to include the software version 18. The software version 18 is represented by a string of numbers, such as, for example, "1.0", "1.1", "2.1", "3.0", and the like. In embodiment 2, the software version 18 of the processing apparatus 1 is "3.0". When the information communication medium 200 acquires the device information 13-2, the device number 14 is automatically input in the input field of the device number of the counseling form generated from the information communication medium 200 based on the counselor information 12-2 based on the device information 13-2, and the software version 18 is automatically input in the input field of the software version.

As shown in fig. 12, the error information 111 includes: an error code 112 associated with the error that occurred; error occurrence date and time information 113 which is information indicating the date and time when the error occurred; and error occurrence frequency information 114 indicating the frequency of occurrence of the same kind of error as the error. Here, the frequency of occurrence of the type of error is the number of occurrences of the type of error per predetermined unit time, and is calculated and updated by the processing unit 52 described later as needed with reference to error occurrence date-and-time data described later.

The error code 112 is composed of, for example, a character string of "error" and a numeric string such as "001" or "002", and in embodiment 2, the error code 112 is "error 192" against the error "notch too wide error" that has occurred. In embodiment 2, the error occurrence date-and-time information 113 is the date and time "11/15/2019/18/36 min" at which the error occurred. In embodiment 2, the error occurrence frequency information 114 is "101 times a month" of the occurrence frequency of the same type of error as the error.

When the information communication medium 200 acquires the error information 111, the contents related to the error information are automatically input in the input fields related to the error information of the counseling form generated from the information communication medium 200 based on the counselor information 12 based on the error information 111. Specifically, when the information communication medium 200 acquires the error information 111, the error code 112 is automatically input in the input field of the error code of the counseling form generated by the information communication medium 200 based on the counselor information 12 based on the error information 111, the error occurrence date and time information 113 is automatically input in the input field of the error occurrence date and time information, and the error occurrence frequency information 114 is automatically input in the input field of the error occurrence frequency information.

When the information communication terminal 200 accesses the address of the barcode information 11-2 to which the additional address of the device information 13-2 and the additional address of the error information 111 are added after the address of the counselor information 12-2, a counseling table 332 (see fig. 14) is generated in the information communication terminal 200, and the counseling table 332 is in a state as follows according to the 2 nd format 312: the manufacturer side of the processing apparatus 1 is set as the receiver, the apparatus number 14 is input in the input field of the apparatus number, the software version 18 is input in the input field of the software version, the error code 112 is input in the input field of the error code, the error occurrence date and time information 113 is input in the input field of the error occurrence date and time information, and the error occurrence frequency information 114 is input in the input field of the error occurrence frequency information.

As shown in fig. 10, the control unit 50 of the processing device 1 according to embodiment 2 includes a storage unit 51 and a processing unit 52. The storage unit 51 and each storage unit included in the storage unit 51 are realized by a storage device of the control unit 50. The processing unit 52 and each functional unit included in the processing unit 52 are realized by the arithmetic processing unit of the control unit 50 executing a computer program stored in a storage device.

As shown in fig. 10, the storage unit 51 includes: a device data storage unit 71 that stores various information for identifying the processing device 1 as device data; an operation history data storage unit 72 that stores information of the operation history of the machining apparatus 1 as operation history data; and a barcode generation data storage unit 81 that stores, as barcode generation data, various information used for the generation processing of the barcode 10-2 displayed on the display unit 41 of the touch panel 40.

As shown in fig. 10, the device data storage section 71 includes: a device number data storage unit 73 that stores device number 14 data for individually identifying a hardware surface of the processing device 1 in the device data; and a software version data storage unit 74 that stores data identifying the software version 18 of the software surface of the processing apparatus 1 in the apparatus data.

As shown in fig. 10, the operation history data storage unit 72 includes: an error data storage unit 75 that stores information relating to an error as error data; and a processing condition data storage unit 76 for storing history information on the processing conditions as processing condition data. The error data storage unit 75 includes: an error code data storage unit 77 that stores, as error code data, information relating to an error code for individually identifying the type of error in the error data; an error occurrence date and time data storage unit 78 that stores history information about the date and time of the error occurrence in the error data as error occurrence date and time data; and an error occurrence frequency data storage unit 79 that stores information regarding the occurrence frequency of errors in the error data as error occurrence frequency data.

The error code data is data in which the type of error is compared with the error code 112 for all types of errors. The error occurrence date and time data is history data in which the error code 112, which is compared with the type of the error, and the date and time at which the error occurred (error occurrence date and time information 113) are compared with each other for all errors that have occurred. The error occurrence frequency data is data in which the error code 112 matched with the type of the error and the occurrence frequency of the error of the type (error occurrence frequency information 114) are matched with each other for all errors that have occurred.

The machining conditions are various conditions for the machining device 1 to machine the workpiece 500, and include, for example, the size and type of the workpiece 500, the machining area and machining order on the workpiece 500, and various conditions relating to the machining unit 30. In embodiment 2 in which the machining unit 30 is a cutting machining unit, the various conditions relating to the machining unit 30 are the size, type, and rotational speed of the cutting tool 33, the amount and pressure of the cutting water supplied from the machining unit 30, the relative speed (feed speed) of the machining unit 30 with respect to the chuck table 20, and the like. The machining condition data is history data in which these machining conditions are compared with the date and time of machining under the machining conditions.

The barcode generation data storage unit 81 includes: a consultative table data storage unit 82 that stores various information for the generation processing of the barcode information 11-2 indicated by the barcode 10-2 in the barcode generation data; and a barcode image conversion data storage unit 83 that stores, as barcode image conversion data, various kinds of information used for image generation processing of the barcode 10-2 based on the barcode information 11-2 in the barcode generation data. The various information stored in the counsel table data storage unit 82 is the same as the various information stored in the counsel table database 301 of the server 300.

As shown in fig. 10, the processing unit 52 includes a barcode generation unit 61 and a barcode display processing unit 62. The barcode generator 61 generates an image of the barcode 10-2 by referring to various data stored in the storage unit 51.

Specifically, first, the barcode generator 61 refers to the device data storage 71 and extracts the device number 14 and the software version 18. Next, the barcode generating unit 61 refers to the operation history data storage unit 72, and extracts the error code 112 corresponding to the type of the error being generated, the error occurrence date and time information 113 of the error being generated, and the error occurrence frequency information 114 of the same type of error as the error being generated.

Then, the barcode generating unit 61 refers to the advisory table data storage unit 82 and generates the error information 111, in which the error information 111 includes the device information 13-2 including the device number 14 and the software version 18 extracted with reference to the device data storage unit 71, the error code 112 extracted with reference to the operation history data storage unit 72, the error occurrence date and time information 113, and the error occurrence frequency information 114. In embodiment 2, the barcode generator 61 refers to the counseling table data storage 82, extracts the identification addresses corresponding to the input fields of the various information extracted by referring to the device data storage 71 and the operation history data storage 72, and performs a process of combining the identification addresses and the various information to generate the additional address of the device information 13-2 and the additional address of the error information 111.

In addition, when processing the error information 111 as in embodiment 2, the barcode generator 61 refers to the counseling table data storage 82 and extracts counselor information 12-2 (see fig. 12) which is collated with the 2 nd format 312 capable of processing the error information 111. In embodiment 2, the barcode generator 61 refers to the counseling table data storage 82 and extracts an address to be compared with the extracted counselor information 12-2.

Then, the barcode generating section 61 combines the extracted counselor information 12-2 with the generated device information 13-2 and error information 111 to generate barcode information 11-2. In embodiment 2, the barcode generator 61 combines the extracted address of the counselor information 12-2 with the generated device information 13-2 and the generated additional address of the error information 111 to generate the address of the barcode information 11-2.

Then, the barcode generator 61 refers to the barcode image conversion data storage 83, performs predetermined image conversion processing on the basis of the generated barcode information 11-2, and generates an image of the barcode 10-2 that can be read through the information communication medium 200 to acquire the barcode information 11-2. In embodiment 2, the barcode generator 61 performs a predetermined image conversion process based on the address of the barcode information 11-2, and generates an image of the barcode 10-2 that can be read by the information communication medium 200 to access the address of the barcode information 11-2.

The barcode display processing unit 62 superimposes and displays the image of the barcode 10-2 generated by the barcode generating unit 61 on the display screen 46 displayed on the display unit 41 of the touch panel 40.

The operation of the machining system 1000 including the machining device 1 according to embodiment 2 having the above-described configuration will be described with reference to the drawings. When an error occurs, the processing apparatus 1 refers to various data stored in the storage unit 51, and generates an image of the barcode 10-2 indicating the error information 111 concerning the error occurred by the barcode generating unit 61 (step ST21 in fig. 13). Then, the processing apparatus 1 superimposes and displays the image of the barcode 10-2 generated by the barcode generating unit 61 on the display screen 46 displayed on the display unit 41 of the touch panel 40 by the barcode display processing unit 62 (step ST22 of fig. 13).

In embodiment 2, after the processing of steps ST21 and ST22 is performed, as shown in fig. 13, the same respective processing as from step ST11 to step ST17 of embodiment 1 is performed. In embodiment 2, specifically, the information communication medium 200 reads the barcode 10-2 in step ST11, acquires the barcode information 11-2 indicated by the barcode 10-2 in step ST12, accesses the address based on the barcode information 11-2 in step ST15, receives the counseling table 332 shown in fig. 14 generated by the server 300 based on the barcode information 11-2 in step ST16, generates the counseling table screen 215 including the counseling table 332 in step ST17, and displays the counseling table screen on the display unit 202.

In embodiment 2, when receiving an access from the information communication medium 200 at the address of the barcode information 11-2, the server 300 executes an input process of the device number 14, the software version 18, the error code 112, the error occurrence date and time information 113, and the error occurrence frequency information 114 in the 2 nd format 312 based on the barcode information 11-2, thereby generating the counseling table 332 shown in fig. 14, and transmits information of the counseling table 332 to the information communication medium 200.

As described above, in embodiment 2, when the barcode 10-2 provided in the processing apparatus 1 is read through the information communication medium 200, the advisory table 332 in which the apparatus number 14, the software version 18, the error code 112, the error occurrence date/time information 113, and the error occurrence frequency information 114 are written in the information communication medium 200 is generated in the information communication medium 200. When the operator inputs the counseling content in the input field of the counseling content of the counseling table 332 displayed on the display unit 202 and selects the transmission button of the counseling table 332, the information communication medium 200 transmits the counseling content to the server 300 via the information communication network 400 together with the device number 14, the software version 18, the error code 112, the error occurrence date and time information 113, and the error occurrence frequency information 114 automatically input to the counseling table 332.

In the processing apparatus 1 according to embodiment 2 having the above-described configuration, instead of generating the advisory table 331 in the information communication medium 200 based on the barcode information 11 acquired by reading the barcode 10 from the information communication medium 200 in embodiment 1, the advisory table 332 is generated in the information communication medium 200 based on the barcode information 11-2 acquired by reading the barcode 10-2 from the information communication medium 200. Therefore, the processing apparatus 1 according to embodiment 2 has the same operational effects as those of embodiment 1, in addition to the operational effects of the barcode 10 provided on the outer wall of the main body 2 of the processing apparatus 1.

In addition, the processing apparatus 1 according to embodiment 2 displays the barcode 10-2 on the touch panel 40. Therefore, the processing apparatus 1 according to embodiment 2 has the following operational effects: after the operator views the display screen 46 displayed on the touch panel 40, the operator reads the barcode 10-2 using the information communication medium 200 and makes a consultation on the consultation table 332 generated in the information communication medium 200, thereby quickly and easily transmitting the device information 13 (device number 14 and software version 18) as information related to the machining device 1 and making a consultation on the manufacturer side of the machining device 1.

When an error occurs, the processing device 1 according to embodiment 2 displays the barcode 10-2 showing the barcode information 11-2 including the error information 111 on the touch panel 40. Therefore, the processing apparatus 1 according to embodiment 2 has the following operational effects: after the operator checks the content of the error that has occurred by viewing the display screen 46 displayed on the touch panel 40, the operator reads the barcode 10-2 using the information communication medium 200 and makes an inquiry based on the inquiry table 332 generated in the information communication medium 200, whereby it is possible to quickly and easily transmit the error information 111 relating to the error that has occurred together with the device information 13 (the device number 14 and the software version 18) as information relating to the machining device 1 and make an inquiry to the manufacturer side of the machining device 1.

[ modification 1 ]

A machining apparatus 1 according to modification 1 of embodiment 2 of the present invention will be described. Processing apparatus 1 according to modification 1 in processing apparatus 1 according to embodiment 2, barcode generator 61 refers to processing condition data storage 76, generates barcode 10-2 indicating barcode information 11-2 including processing condition information at the time of occurrence of an error, displays barcode 10-2 on touch panel 40 by barcode display processor 62, reads barcode 10-2 by information communication medium 200, and generates a consultation table in information communication medium 200 in which processing condition information at the time of occurrence of an error is further entered into information communication medium 200. Therefore, the processing apparatus 1 of modification 1 has the following operational effects: the operator can quickly and easily further transmit the processing condition information at the time of the occurrence of the error and consult the manufacturer side of the processing apparatus 1 by reading the barcode 10-2 with the information communication medium 200 and making a consultation on the consultation table generated in the information communication medium 200.

[ modification 2 ]

A machining apparatus 1 according to modification 2 of embodiment 2 of the present invention will be described. Processing apparatus 1 according to modification 2 in processing apparatus 1 according to embodiment 2, the barcode generating unit 61 refers to the operation history data storage unit 72, generates the barcode 10-2 showing the barcode information 11-2 including LOG information (history information) at the time of occurrence of the error and in the vicinity immediately before the occurrence of the error, displays the barcode 10-2 on the touch panel 40 by the barcode display processing unit 62, reads the barcode 10-2 by the information communication medium 200, and generates the advisory table in the information communication medium 200 in which LOG information (history information) at the time of occurrence of the error and in the vicinity immediately before the occurrence of the error is further recorded into the information communication medium 200. Therefore, the processing apparatus 1 of modification 1 has the following operational effects: the operator can quickly and easily further transmit LOG information (history information) at the time of occurrence of an error or in the vicinity immediately before the occurrence, and can make a consultation to the manufacturer side of the machining apparatus 1 by reading the barcode 10-2 with the information communication medium 200 and making a consultation based on the consultation table created in the information communication medium 200.

The present invention is not limited to the above embodiments. That is, various modifications can be made without departing from the scope of the present invention. For example, in embodiment 2, the barcode generation unit 61 generates the barcode 10-2 showing the barcode information 11-2, and the barcode information 11-2 includes the error information 111 relating to the error that has occurred, but the present invention is not limited to this, and may generate the barcode 10-2 showing the barcode information 11-2 when the operator performs a predetermined operation to trace back the past history, and the barcode information 11-2 includes the error information 111 relating to the error that the operator is confirming.

Claims (4)

1. A processing device is characterized in that a processing device is provided,

a bar code in which device information including a device number for individually identifying the processing device is recorded is provided at an arbitrary position of the processing device,

when the bar code is read through the information communication medium, a consultation form in which the device number is written is generated in the information communication medium.

2. The processing device according to claim 1,

the bar code is arranged on the outer wall of the processing device.

3. Machining device according to claim 1 or 2,

the barcode is displayed on the touch panel.

4. Machining device according to claim 3,

when an error occurs, a bar code containing error information is displayed on the touch panel,

by reading the bar code using an arbitrary information communication medium, a consultation form in which the error information is entered is generated in the information communication medium.

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