JPH08292241A - Apparatus and method for outputting inspection execution data - Google Patents

Abstract

PURPOSE: To provide an apparatus and a method for outputting an inspection execution data whereby the inspection execution data can be changed easily. CONSTITUTION: Inspection part data for every type of substrates having positional data and kind data of parts are stored in a first memory part 2, and inspection content data for every kind of parts are stored in a second memory part 3 beforehand. In accordance with an inspection execution data output instruction from a substrate inspection apparatus 10, inspection part data of the type of substrates designated by the instruction are read out by an inspection execution data formation part 4 from the first memory part 2, and inspection content data corresponding to the part kind data in the read-out inspection part data are read out from the second memory part 3. The part kind data are replaced with the inspection content data, thereby to form inspection execution data having positional data and inspection content data of parts of the designated type of substrates. The formed data are output from a data input/output part 7 to the substrate inspection apparatus 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inspection execution data output device and an inspection execution data output method for producing and outputting inspection execution data necessary for executing a substrate inspection in a substrate inspection device.

[0002]

2. Description of the Related Art In a board inspection device for inspecting the mounting state of components mounted on a printed circuit board, an inspection is performed for each mounted component according to inspection execution data having position information and inspection content information of each mounted component. Be seen.

The inspection execution data is created in advance for each type of the inspected board by the inspection execution data output device based on the design data of each board type and the data of the common component library regardless of the board type. It is provided to the board inspection apparatus.

The design data has position information such as the mounting position and mounting direction of each mounting component on the board, and the component library has inspection content information for each component type.
Here, the component type is a name given to each group of components having the same inspection content because they are the same in shape. The inspection content information is composed of data such as the shape and color of a part required for the inspection, the inspection parameter, the inspection area, and the inspection reference value for determining the quality.

The above-mentioned conventional inspection execution data output device is provided for each board inspection device. In this inspection execution data output device, component position information and component inspection contents are preliminarily obtained from the design data and component library data. The inspection data that it has is created for each type of substrate, and these inspection data are stored in the storage unit in advance.

When an inspection execution data output command is issued from the board inspection device, the inspection execution data output device reads the inspection execution data of the board type corresponding to the output command from the storage unit and outputs this inspection execution data.

When a plurality of board inspection devices are arranged, the inspection execution data for each board type created by the inspection execution data output device of a certain board inspection device is output to the inspection execution data output device of each other board inspection device. By copying, the inspection execution data for each substrate type is stored in advance in the storage unit of the inspection execution data output device of all the substrate inspection devices.

[0008]

However, in the inspection execution data output method by the above-mentioned inspection execution data output device, it is necessary to change the inspection content in the inspection execution data due to the change of the mounting process in the component mounting process. In such a case, the content of the inspection execution data for (the number of board inspecting devices) × (the number of board types) has to be manually changed, which is very troublesome.

The present invention solves such conventional problems, and an object of the present invention is to provide an inspection execution data output device and an inspection execution data output method which can easily change the inspection execution data. Is.

[0010]

In order to achieve the above object, the inspection execution data output device of the present invention is specified in accordance with an inspection execution data output command specifying a board type, which is input from the board inspection device. Circuit board type inspection execution data, and outputs the inspection execution data to the board inspection device. First storage means for storing position information and part type information of each part for each board type. A second storage means for storing inspection content information for each component type,
In response to the inspection execution data output command, the inspection execution data having the position information and the inspection content information of each component by associating the component type information of each component of the specified board type with the inspection content information. And an inspection execution data creating means for creating.

The inspection execution data output method of the present invention is
In this method, the inspection execution data of the specified board type is created according to the inspection execution data output command specifying the board type, which is input from the board inspection device, and the inspection execution data is output to the board inspection device. Position information and component type information of each component for each board type are stored in the first storage means, and inspection content information for each component type is stored in the second storage means. According to the inspection execution data output command, the creation unit associates the component type information of each component of the specified board type with the inspection content information, and has position information and inspection content information of each component. The method is characterized by creating the inspection execution data.

[0012]

Therefore, according to the inspection execution data output device and the inspection execution data output method, the position information and the component type information of each component, which are different for each board type, are stored in the first storage unit and the second storage unit. In advance, the inspection content information for each component type, which is common to each board type, is stored in advance.
The inspection execution data creation unit, in response to the inspection execution data output command from the board inspection apparatus, the component type information stored in the first storage unit and the inspection content information stored in the second storage unit. By changing the mounting process by creating inspection execution data of a specified board type having position information and inspection content information of each component and outputting the inspection execution data to the board inspection device. If it is necessary to change the inspection content information in the inspection execution data due to the above, it is possible to automatically change the inspection content information stored in the second storage means for the component type for which the mounting process has changed. The inspection content information in the inspection execution data of each board type can be changed.

[0013]

1 is a block diagram showing the configuration of a first embodiment of an inspection execution data output device of the present invention.

In FIG. 1, the inspection execution data creating apparatus 1 is connected to each of the board inspection apparatuses 10-a to 10-j by a LAN cable 9, and includes a first storage section 2, a second storage section 3, and inspection execution data. It includes a creation unit 4, an input unit 5, a display unit 6, a data input / output unit 7, and a control unit 8.
Here, the number of board inspection devices 10 connected by the LAN cable 9 is set to 10 as an example.

The first storage unit 2 has a memory such as a RAM, and in accordance with an instruction from the control unit 8, design data for each board type, and for each board type created in advance based on this design data. Store inspection part data. The design data indicates position information such as the mounting position of each component on the board and the mounting direction.

The inspection part data is composed of position information of each part obtained from the design data, and data input by the user indicating which part type the part corresponds to, that is, part type information of each part. To be done.
Here, the component type is a name given to each component group having the same inspection content information because they are the same in shape.

The second storage unit 3 has a memory such as a RAM and stores the data of the parts library in accordance with an instruction from the control unit 8. The component library is composed of inspection content information for each component type. Here, the inspection content information is
It is composed of data such as an inspection parameter, an inspection area, a shape and a color of a part required for the inspection, an inspection reference value for judging quality. This component library is created in advance by the user inputting inspection content information for each component type.

The inspection execution data creation unit 4 specifies the substrate type from the substrate inspection apparatus 10 and receives an inspection execution data output command requesting the output of inspection execution data of this substrate type, the control unit 8 outputs the inspection execution data output command. According to the instruction, the inspection component data of the designated board type is read from the first storage unit 2, the inspection content information corresponding to the component type information in the inspection component data is read from the component library of the second storage unit 3, The inspection execution data having the position information and the inspection content information of each component is created by associating each inspection content information read from the component library with each component type of the inspection component data.

The input unit 5 has a keyboard, a mouse and the like (not shown), and the user operates the input unit 5 to edit the parts library and inspection part data, and to perform various operations. Enter commands and data.

The display unit 6 has a monitor (not shown), and according to an instruction from the control unit 8, various messages,
The editing screen of the parts library and the inspection parts data, the created inspection execution data, etc. are displayed.

The data input / output unit 7 is connected to the LAN cable 9 and is a floppy disk device (not shown).
The inspection execution data output command transmitted from the board inspection device 10 via the LAN cable 9 is received according to the instruction from the control unit 8, and the inspection execution data created by the inspection execution data creation unit 4 is inspected. The execution data output command is transmitted to the transmitted substrate inspection apparatus 10, and various data is read from the floppy disk and written in the floppy disk by the floppy disk device (not shown).

The control unit 8 has a microprocessor, etc., and controls the operations of the first storage unit 2, the second storage unit 3, the inspection execution data creation unit 4, the display unit 6, and the data input / output unit 7, In the procedure described below, the component library and the inspection component data are edited according to various instructions and data input by the user from the input unit 5, and the board type specified according to the inspection execution data output instruction from the substrate inspection apparatus 10 The inspection execution data is created, and the created inspection execution data is output to the board inspection device 10.

FIG. 2 is a flow chart showing the procedure for editing the parts library.

In ST1 of FIG. 2, when the user operates the keyboard or mouse of the input unit 4 to select the editing work of the parts library, the initial screen displayed on the monitor screen of the display unit 6 is The screen will change to the part type selection screen where a list is displayed.

FIG. 3 shows an example of the above component type selection screen. In the figure, 21 is a list of component types such as “A ₁ ”, and 22 is a command key for the input unit 4.

Returning to FIG. 2, in ST2, when the user operates the input unit 4 to select a component type to be edited from the above-mentioned component type list, the inspection content of the selected component type is displayed on the display unit 6. Since the edit screen of information is displayed, ST
In 3, the input unit 4 is operated to edit the inspection content information.

Next, at ST4, if there is another component type to be edited, "NO" is input to return to ST2, and the editing is performed as described above. Repeat ST2 to ST4, and when the editing work for each component type is completed,
Enter “YES” in 4.

Then, in ST5, the user registers the edited data in the second storage unit 3, and ends the component library editing flow.

FIG. 4 is an explanatory diagram showing an example of the data structure of the parts library. Inspection content information is stored in the component library for each component type. In FIG. 4, the inspection content information includes a component shape 31, a component color 32, an inspection region 33,
It is composed of the inspection parameter 34 and the inspection reference value 35.

“E ₁ ”, etc. of the part shape 31 is data indicating the shape and dimensions of the part type. For example, the positions of the lower left and upper right vertices of the part when viewed from above with respect to the center point of the part. It is a coordinate indicating the relationship, or a coordinate indicating the positional relationship of the upper, lower, left, and right sides with respect to the center point of the component.
The component color 32 is data indicating the color of the component type.

“R ₁ , r ₂ ”, etc. of the inspection area 33 are data indicating the target area when the inspection parameters 34 are calculated, and are, for example, the parts at the lower left and upper right vertices of the inspection area. It is a coordinate indicating the positional relationship with respect to the center point.

The inspection parameters 34 "k ₁ , k ₂ ,
“K ₃ ”, and the like, indicate inspection parameters to be calculated in order to make a pass / fail judgment for the component type. For example, it is the amount of lateral displacement, vertical displacement, area, color, solder length, width, electrode length, width, etc. of the component.

The inspection reference value 35, such as "t ₁ , t ₂ , t ₃ ", is a threshold value used as a reference when the quality of the component mounting portion is judged based on the calculated inspection parameter in the board inspection apparatus. Is.

The inspection content information such as the inspection area, the inspection parameter, and the inspection reference value is sent to the board inspection apparatus as the inspection execution data described later together with the position information of the parts. It will be described how it is used in a board inspection apparatus of a system that inspects the mounting state of components based on an image obtained by capturing.

FIG. 5 shows an example of an image of the component mounting board obtained by the above board inspection apparatus. In the figure, 41, 42 and 43 are mounted components, 44 and 45 are electrodes of each mounted component, and 46, 47 and 48 are land portions of the substrate. The "x" mark indicates the mounting position of each mounted component on the board, and indicates the center point of the component when the components are mounted without displacement.

When inspecting the mounted component 41, the board inspection apparatus sets inspection areas r ₁ and r ₂ in accordance with the inspection area data of the inspection content information. Similarly, mounting component 4
The inspection areas r _{3 to} r ₅ are set when the inspection 2 is performed, and the inspection areas r _{6 to} r ₁₃ are set when the mounted component 43 is inspected.

Next, the board inspecting apparatus refers to the inspection parameters of the above inspection content information, and describes, for example, the amount of lateral deviation and the amount of vertical deviation of the component in the item of the inspection parameter. If required, in the image data corresponding to the set inspection area, the contour portion of the component is detected by the brightness difference or the hue difference of the image, and the detected contour portion with respect to the component center point indicated by the "x" mark is detected. The position coordinates are calculated, and these values are used as the lateral shift amount and vertical shift amount of the component.

Similarly, the board inspection apparatus calculates the data obtained by subjecting the image data corresponding to the inspection area to appropriate image processing to calculate the values of the respective inspection parameters described in the inspection content information. Ask.

Next, the board inspecting apparatus judges the quality of mounting of each component by comparing the values of the inspection parameters thus obtained with the inspection reference values of the above-mentioned inspection content information.

Next, the procedure for editing the inspection part data will be described.

FIG. 6 is a flow chart showing the procedure for editing the inspection part data.

The inspection part data is created in advance for each type of the board, has position information based on the design data of each part mounted on the board, and further stores it in each part and part library. It shows the correspondence with the component type in which the inspection content information is stored.

The design data of each board type is read out from the floppy disk storing these design data by the data input / output unit 7 of FIG. 1 and stored in the first storage unit 2 in advance. Also, connect the terminal unit containing the design data and the data input / output unit 7 with a LAN cable,
If necessary, it may be configured to read from the terminal device.

In ST11 of FIG. 6, the user operates the keyboard or mouse of the input section 4 of FIG.
When the editing work of the inspection part data is selected, the initial screen displayed on the monitor screen of the display unit 6 is the first storage unit 2
The display screen of the board type name of the design data stored in is displayed. Therefore, when the board type to be edited is selected by operating the input unit 4 in step 12, step 13
In, the control unit 8 reads the design data of the selected board type from the first storage unit 2, the position information of the inspection part data is created from this design data, and the position information for each part number is displayed on the monitor screen of the display unit 6. Only the inspection part data is displayed.

The above design data is data indicating the position of each mounted component on the board.

FIG. 7 is an explanatory diagram showing an example of the data structure of the design data.

In FIG. 7, a component number 51 indicates each mounted component and identifies the same type of component on the board. The same type of component is a component which is generically referred to by the same name, and indicates, for example, a resistor, a capacitor, a transistor, or the like, or a component having the same model and part number by the manufacturer. For example, if a resistor is represented by "R" and there are three resistors on the substrate,
These part numbers are "R01", "R02", and "R03" depending on the part name "R" and the serial number.

The mounting position 52 is an XY coordinate on the substrate of the center point of each mounting component, and the mounting direction 53 indicates an angle formed by the mounting direction of each component with respect to a predetermined mounting direction. is there.

Returning to FIG. 6, in ST14, the user operates the input unit 4 to input the part type name corresponding to the part of each part number of the inspection part data and create the part type information. Edit the inspection part data.

As described above, since the inspection content information corresponding to each component type is stored in the component library, the inspection component data indicates the position information of each component, and the component information indirectly indicates each component type information. It also indicates the inspection content information of the part.

At this time, the user can read out and refer to the inspection content information of each component type from the component library by using the command menu simultaneously displayed on the inspection component data editing screen, if necessary.

FIG. 8 is an explanatory diagram showing an example of the data structure of the inspection part data. As shown in the figure, the inspection part data includes each part number 51, that is, position information 61 of each part.
And component type information 62 indicating the component type name corresponding to each component.

Returning to FIG. 6, when the editing work of the inspection part data in ST14 is completed, the user registers the edited inspection part data in the first storage section 2 of FIG. 1 in ST15.

Next, at ST16, if there is another inspection part data to be edited, enter "NO" and S
Return to T12 and edit as described above. ST12 ~ S
When T16 is repeated and all the editing work of the inspection component data of each board type is completed, "YES" is input in ST16 and the inspection component data editing flow is terminated.

The above-described editing of the component library and the inspection component data is performed prior to outputting the inspection execution data in response to the inspection execution data output command from the board inspection device.

Next, FIG. 9 is a flow chart showing the procedure for creating and outputting the inspection execution data.

In ST21 of FIG. 9, one of the board inspecting apparatuses 10-a to 10-j in FIG. 1, for example, the board inspecting apparatus 1 is used.
When the test execution data output command transmitted from 0-a is received by the data input / output unit 7, the control unit 8 operates the test execution data creation unit 4 in ST22 to specify the test execution data output command. The board type inspection part data is read from the first storage unit 2.

Then, in ST23, the control unit 8 reads the inspection content information of each component type described in the inspection component data read by operating the inspection execution data creation unit 4 from the component library of the second storage unit 3, In ST24, the part type description part of the inspection part data is replaced with the read inspection content information to create the inspection execution data of the board type for which the output is requested, and in ST25, this inspection execution data is stored in the data input / output unit. 7 to the board inspection device 10-a.

After that, the process returns to ST21 and the board inspection apparatus 10
The test execution data output command to be transmitted is in a waiting state.

FIG. 10 is an explanatory diagram showing an example of the data structure of the inspection execution data. In the figure, the inspection execution data includes position information having each part number, that is, each mounting position and mounting direction data of each part, and each data of the part shape, the part color, the inspection area, the inspection parameter, and the inspection reference value. It is composed of inspection content information having.

Upon receiving the inspection execution data output from the inspection execution data output device, the board inspection device 10-a inspects the board based on the component position information and inspection content information of the inspection execution data. In addition, the board inspection device 10-
When the inspection is completed and the inspection of another type of board is newly started, a transmits an inspection execution data output command of the board type to be newly started to the inspection execution data output device again. .

Next, when the mounting process is changed in the component mounting process, it is necessary to change the contents of the inspection execution data accordingly. In most cases, the change of the inspection execution data due to the change of the mounting process is the change of the inspection content information.

Therefore, the inspection content information of the component type for which the mounting process is changed in the component library is changed according to the editing procedure of the component library shown in FIG. This automatically changes the contents of the inspection execution data for each board type.

As described above, according to the first embodiment, the inspection part data for each board type having the position information of each part and the part type information in the first storage part 2 and the second storage part 3 are also provided.
A component library having inspection content information for each component type is stored in advance, and when the inspection execution data output command is transmitted from the board inspection device 10, the inspection execution data creation unit 4 causes the inspection execution data output command to be output. The inspection component data of the board type specified by is read from the first storage unit 2, the inspection content information corresponding to each component type information in the read inspection component data is read from the component library of the second storage unit 3, and the inspection component Data type data
The inspection execution data of the designated board type is created by replacing the read inspection content information, and the inspection execution data is sent from the data input / output unit 7 to the board inspection device 10.
If the contents of the inspection execution data need to be changed due to the change of the mounting process, etc., the inspection contents information of the component type for which the mounting process is changed in the component library is output. The contents of the inspection execution data for each board type can be easily changed automatically just by changing it.

Next, a second embodiment of the present invention will be described.

The second embodiment is a preferred embodiment for the inspection process and the board inspection apparatus in which the LAN cable is not laid, and the inspection execution data creating apparatus of the present invention is incorporated in the board inspection apparatus. is there.

FIG. 11 is a block diagram showing the configuration of the second embodiment of the inspection execution data output device of the present invention, which shows the inspection execution data output device of the present invention incorporated in a substrate inspection device. In the figure, the same components as those in the first embodiment of the present invention are designated by the same reference numerals.

In FIG. 11, the board inspection apparatus includes an inspection execution section 71, an inspection result storage section 72, an input section 73, and a display section 7.
4, a data input / output unit 75, a first storage unit 76, a second storage unit 77, an inspection execution data creation unit 78, and a control unit 79. The inspection execution data output device of the present invention includes a first storage unit 76, a second storage unit 77, an inspection execution data creation unit 78, an input unit 73, a display unit 74, a data input / output unit 75, and a control unit 79. To be done.

The test execution unit 71 controls the control unit 79 based on the test execution data output from the test execution data creation unit.
In accordance with the instruction, the board is inspected to determine whether it is good or bad, and the inspection result storage unit 72 stores the board inspection result by the inspection execution unit 71.

The input section 73 has a keyboard, a mouse and the like (not shown), and the user operates the input section 73 to edit the parts library and inspection part data, and also to execute the inspection execution data. Input various commands and data for creating and executing the board inspection.

The display section 74 has a monitor (not shown), and according to commands from the control section 79, various messages, parts library and inspection part data edit screen, created inspection execution data, and board inspection. Display results etc.

The data input / output unit 75 has a floppy disk device (not shown), and by a floppy disk device (not shown) in accordance with an instruction from the control unit 79.
Various data is read from the floppy disk and written to the floppy disk.

The first storage section 76 has a memory such as a RAM, and in accordance with an instruction from the control section 79, design data for each board type, and for each board type created in advance based on this design data. Store inspection part data. The design data indicates position information such as the mounting position of each component on the board and the mounting direction. The inspection part data is composed of position information of each part obtained from the design data, and data input by the user indicating which part type the part corresponds to, that is, part type information of each part. Here, the component type is a name given to each component group having the same inspection content information because they are the same in shape.

The second storage section 77 has a memory such as a RAM, and stores the data of the parts library in accordance with an instruction from the control section 79. The component library is composed of inspection content information for each component type. Here, the inspection content information is composed of data such as an inspection parameter, an inspection area, a shape and color of a component necessary for the inspection, an inspection reference value for determining quality. This component library is created in advance by the user inputting inspection content information for each component type.

The inspection execution data creation unit 78 is provided with a control unit 79.
According to the inspection execution data output command for outputting the inspection execution data of the specified board type, which is input by the above, the inspection part data of the specified board type is read from the first storage unit 76, and the component type information in the inspection part data is read. By reading the inspection content information corresponding to the above from the component library of the second storage unit 77 and associating each inspection content information read from the component library with each component type of the inspection component data, the position information and inspection of each component Create inspection run data for a specified board type with content information.

The control unit 79 has a microprocessor and the like, and has an inspection execution unit 71, an inspection result storage unit 72, and a display unit 7.
4, data input / output unit 75, first storage unit 76, second storage 7
7, and control the operation of the inspection execution data creation unit 78,
According to various data and commands input by the user from the input unit 73, the component library and the inspection component data are edited, inspection execution data is created, and the board inspection is executed.

According to the inspection execution data creating apparatus of the present invention having the above-described configuration, and the board inspection apparatus incorporating the inspection execution data creating apparatus of the present invention, the component library and the inspection component data are shown in FIGS. It is edited in advance according to the procedure shown and stored in the first storage unit 76 and the second storage unit 77. When there are a plurality of board inspection devices, the component library and the inspection part data edited by a certain board inspection device are copied to another board inspection device using the floppy disk device (not shown) of the data input / output unit 75. You may.

Then, when the inspection execution command is input from the input unit 73, the control unit 79 causes the inspection execution data creation unit 78.
The inspection execution data output command is given to the device to operate the inspection execution data, and the inspection execution data of the board type designated by the inspection execution data output command is created according to the procedure shown in FIG. The board is inspected based on the inspection execution data thus obtained.

When the mounting process is changed in the component mounting process and the content of the inspection execution data needs to be changed, the inspection content information of the component type for which the mounting process is changed in the component library is By changing according to the editing procedure of the component library shown in FIG. 2, the contents of the inspection execution data of each board type are automatically changed.

When there are a plurality of board inspection devices,
By changing the inspection content information in the component library of each board inspection device, the content of the inspection execution data for each board type is automatically changed. In this case, in a certain board inspection device, the inspection content information in the component library is changed, and this new component library is used by using the floppy disk device (not shown) of the data input / output unit 75.
The old component library may be replaced by copying it to another board inspection device.

As described above, according to the second embodiment, the present invention is provided inside the board inspecting apparatus when there is only one board inspecting apparatus in the inspection step or when the LAN cable is not laid. If it is necessary to change the contents of the inspection execution data due to the change of the mounting process by incorporating the inspection execution data creation device of the above, in the board inspection device, the part where the mounting process is changed in the component library The contents of the inspection execution data for each board type can be automatically changed simply by changing the inspection contents information of the product type.

[0082]

As is apparent from the above-described embodiment, the present invention includes the component type information for each board type stored in the first storage means in response to the inspection execution data output command from the board inspection apparatus. Of the board type specified by the inspection execution data output command and the inspection content information common to each board type stored in the second storage means are associated with each other, and position information of each part and By creating inspection execution data of the specified board type having inspection content information and outputting this inspection execution data to the board inspection device, the inspection content in the inspection execution data due to changes in the mounting process, etc. When it is necessary to change the information, simply change the inspection content information of the component type that has been changed in the mounting process, which is stored in the second storage means. Because it can change the test contents information in 査 execution data, it has an excellent effect that changing operation of the test execution data associated with the change of mounting processes can be simplified.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a first embodiment of an inspection execution data output device of the present invention.

FIG. 2 is a flowchart showing a procedure for editing a parts library.

FIG. 3 shows an example of a component type selection screen in a component library editing operation.

FIG. 4 is an explanatory diagram showing an example of a data structure of a parts library.

FIG. 5 shows an example of an image of a component mounting board obtained by the board inspection apparatus.

FIG. 6 is a flowchart showing a procedure for editing inspection part data.

FIG. 7 is an explanatory diagram showing an example of a data configuration of design data.

FIG. 8 is an explanatory diagram showing an example of a data configuration of inspection component data.

FIG. 9 is a flowchart showing a procedure for creating inspection output data and an output procedure.

FIG. 10 is an explanatory diagram showing an example of a data configuration of inspection execution data.

FIG. 11 is a block diagram showing the configuration of a second embodiment of the inspection execution data output device of the present invention.

[Explanation of symbols]

 1 Inspection Execution Data Output Device 2 First Storage Section 3 Second Storage Section 4 Inspection Execution Data Creation Section 5, 73 Input Section 6, 74 Display Section 7, 75 Data Input / Output Section 8, 76 Control Section 9 LAN Cable 10 Board Inspection Device 71 Inspection execution unit 72 Inspection result storage unit

Claims (4)

[Claims] 1. An inspection execution data for a specified board type is created in accordance with an inspection execution data output command specifying a board type, which is input from the board inspection apparatus, and the inspection execution data is sent to the board inspection apparatus. An inspection execution data output device for outputting, a first storage unit that stores position information and component type information of each component for each board type, and a second storage unit that stores inspection content information for each component type. According to the inspection execution data output command, the inspection execution having the position information and the inspection content information of each component by associating the component type information of each component of the specified board type with the inspection content information An inspection execution data creation device comprising: an inspection execution data creation means for creating data. 2. The inspection execution data output device according to claim 1, wherein the substrate inspection device is connected to the substrate inspection device by a LAN cable. 3. The inspection execution data output device according to claim 1, wherein the inspection execution data output device is provided in the substrate inspection device. 4. The inspection execution data of the specified board type is created in accordance with the inspection execution data output command specifying the board type, which is input from the board inspection apparatus, and the inspection execution data is sent to the board inspection apparatus. A method of outputting inspection execution data to be output, wherein position information and component type information of each component are stored in a first storage means for each board type, and inspection content information for each component type is stored in a second storage means. In accordance with the inspection execution data output command, the inspection execution data creation means associates the component type information of each component of the specified board type with the inspection content information, and A method for outputting inspection execution data, characterized in that the inspection execution data having position information and inspection content information is created.