JP2002134996A - Method and machine for mounting part, and method and device for generating mounting data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To assure appropriate mounting by easily generating, in a short time, a mounting data with which a part recognizing method at mounting is selected and appropriateness of a mounted part is confirmed. SOLUTION: A part mounting method is provided where a mounting machine 4 is supplied with parts and mounts them at mounting positions. A mounting data C which contains at least one of a part recognizing method, reflection type or transmission type, arrangement of kind and quantity of lighting light, or confirmation of appropriateness in orientation of a part and the like, is generated from a part text data B. The part text data B contains at least one data among shape, dimension, color, tilt, reflectivity, surface roughness, and surface material of mounted parts as well as at least one data among presence and state of a lead and cut lead, polarity mark, a print character, and color code, which are read out of a part electronic catalog 12 in which the part text data B about various parts including a mounted part is stored.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for mounting components, and a method and an apparatus for creating mounting data, which are preferably applied mainly when electronic components are automatically mounted on a substrate by a mounting machine. Things.

[0002]

2. Description of the Related Art In producing various electronic circuit boards, there are various kinds of electronic components mounted on the boards, and there are different types of parts which can be replaced. The number further increases if compatible third-party parts are included. In order to create an electronic circuit board by mounting various electronic components on a substrate, it is necessary to select an electronic component that meets various needs set in the design of the electronic circuit. In mounting various electronic components on a substrate, it is necessary to take care that the characteristics and durability of the electronic components to be mounted and other electronic components are not affected, and that the mounting is properly and reliably achieved. In recent years, with the minimization of the lead pitch due to the high density of components, the necessity of correctly recognizing the shape of components and mounting them with high precision has increased.

[0003] The specific conditions to be considered are the types of nozzles and chucks that carry the electronic components, the moving speed of the mounting head having the nozzles and chucks, when the electronic components are removed from the component supply unit, and when the components are mounted. The required lowering position of the nozzle or chuck when performing, that is, the height position when taking out the component, the height position when mounting the component on the board, the moving speed of the board on which even one electronic component is mounted, especially There are acceleration and various allowable values.

Various electronic components are taped for automatic supply to a mounting machine, stored in a tray, or handled as a stick or a bulk component. Such a component supply mode and a component storage pitch in such a case are described. It is necessary to consider the so-called packing style, including the above, when creating mounting data.

[0005] On the other hand, in the mounting stage of the electronic component, the recognition of the suitability and orientation of the electronic component and the replacement of the erroneous component and the correction of the orientation based on the result are performed. For such inspections, inspection data is also created as mounting data from information on electronic components such as the shape and surface reflectance of electronic components, colors, colors, polarity marks, printed characters on components, and color codes. There is a need to.

In order to select various electronic components according to circuit design needs and to create mounting data and inspection data for properly mounting the selected electronic components, each of the various electronic components is required. A part catalog book in which detailed and complicated part information is edited and recorded according to a predetermined classification has been used. For some components, electronic components are actually measured with calipers or the like in order to obtain necessary data.

[0007] It is difficult to find electronic parts that meet the needs from the parts catalog book as well as the actual measurement as described above, and the optimum selection of the necessary parts is determined by carefully using the parts catalog book of the part selection. Depending on the crab and spend a lot of effort and time. Especially in recent years, needs have diversified,
As the types of electronic components provided are enormous, the amount of information is further increased, making it more difficult to optimally select electronic components.

In order to solve this problem, a so-called component electronic catalog has been provided in which catalog information of electronic components is treated as image data for displaying on a screen, edited and stored according to a predetermined classification. The image data of the electronic components stored in the electronic catalog for components is read out according to a predetermined classification and search by a dedicated reading device or a personal computer and is displayed on a screen. Parts can be searched and selected in a reasonably short time. A recording medium such as a CD-ROM is used for the parts electronic catalog.
As shown in FIG. 23, image data for displaying various data of various parts on a screen are combined with character data such as numbers and characters, and graphic data of pictures and figures.
Alternatively, an appropriately divided image data file IMF
As a parts electronic catalog EC.

The parts electronic catalog EC is an image capable of displaying various types of information such as the form, dimensions, surface condition, characteristics, and range of use of electronic parts on a screen in the form of photographs, drawings, tables, and graphs. Although data is stored, it naturally includes information for creating component mounting data.

FIG. 24 is a flowchart showing a procedure for creating conventional component mounting data using such a component electronic catalog EC. To explain this, the component electronic catalog EC is loaded into a reading device and is set to a reading state on a screen.

Next, a command is input by a search key operation and a condition setting operation according to a predetermined classification and search procedure. As a result, the command analysis unit performs a search, and 1
Repeat the command input until one electronic component is selected.

FIG. 25 designates a large class of transistors,
Bipolar transistor (PNP) of small classification ... 2S
A is a display screen obtained by searching for A and 2SB. This screen is in a search state in which the cursor is positioned in the column of the first component among 62 corresponding components. The user can search for any of the 62 parts by positioning the cursor on the required part column. As a result, one electronic component is selected, and it is possible to determine which component of the image data is to be displayed on the screen. It is displayed on the screen according to the operation.

For example, in the screen of FIG.
When the user searches for the part 22 and operates the key for explanation, FIG.
As shown in the figure, image data relating to the initial description of the component 2SA1022 is displayed on the screen.

When search is selected on the screen of FIG. 26, FIG.
A list of large classification display items that can be selected on the screen 6 is displayed in a window as shown in FIG. When the user looks at the screen of FIG. 27 or selects an outline drawing directly from the screen of FIG. 26, image data relating to the outline as shown in FIG. 28 is displayed on the screen. When a land map is selected, image data relating to a land as shown in FIG. 29 is displayed on the screen. When the taping dimension is selected, image data relating to the taping dimension is displayed on the screen as shown in FIG. When the reel size is selected, image data relating to the reel size is displayed on the screen as shown in FIG.

FIG. 32 shows an initial explanation screen when an electronic component of a motor control circuit called AN6650 is searched.
This shows a state in which image data relating to the characteristic curve is displayed in a window according to the selection of the characteristic curve. FIG. 33 shows, on the initial explanation screen of FIG. 32, a window of the applied circuit example selected with priority, and further, a block diagram is selected and displayed on the window.

The user can relatively easily select an electronic component that meets the circuit design needs while searching for the component information, and can select various electronic components necessary for creating mounting data relating to the selected electronic component to be mounted. Can be visually recognized by the search operation. In addition, it is possible to freely perform a data search corresponding to a component mounting method using a chuck or a suction nozzle, or the presence or absence of component recognition and a difference in method.

Further, as described above, in order to create component mounting data based on data obtained by visual recognition using a component electronic catalog, an automatic data processing device such as a dedicated or personal computer is used. By manually inputting the mounting data of the visually obtained component, the component mounting data is created by performing combination data processing with mounting position data of the component created in advance.

[0018]

By the way, in the conventional mounting of components and creation of the mounting data, in order to ensure proper mounting, a recognition method for recognizing components at the time of mounting is selected, and illumination light is used. If the mounting data includes data for making adjustments or confirming the suitability of the orientation of the mounted components, etc., a skilled user manually transfers necessary data to the automatic data processing device based on experience. It is necessary to input, and creation of such mounting data requires a great deal of labor and time.

An object of the present invention is to solve such a problem, and to easily and easily mount data for selecting a component recognition method at the time of mounting, adjusting illumination light, and confirming whether or not the orientation of the mounted component is appropriate. It is an object of the present invention to provide a component mounting method and device, and a mounting data generating method and device, which can be created in a short time and ensure proper mounting.

[0020]

According to a first aspect of the present invention, there is provided a component mounting method in which a mounter receives each component and mounts the component at a mounting position. The shape, dimensions, color, color, reflectance, and the like of the component corresponding to each component to be mounted are read from the component electronic catalog that stores component text data for various components including
From the component text data containing at least one data of surface roughness and surface material, the method of component recognition used in component mounting of reflection type or transmission type, adjustment of the amount and type of illumination light for component recognition It is characterized in that mounting data including at least one is created, and operation of the mounting machine is controlled based on the created mounting data.

In the configuration of the first aspect of the present invention, at least one of the shape, size, color, color, reflectance, surface roughness, and surface material of the component corresponding to each component to be mounted is obtained from the component electronic catalog. At least one of a method of recognizing a component, which is used when mounting a component of a reflection type or a transmission type, which reads out data, and an adjustment of a light amount and a type of illumination light for recognizing the component.
Since the mounting data is created and the mounting machine is operated based on the created mounting data, the mounting data for selecting the component recognition method at the time of mounting and adjusting the illumination light can be created easily and in a short time. In addition, proper mounting can be ensured by mounting with the mounting data.

According to a second aspect of the present invention, there is provided a component mounting method in which a mounter receives each component and mounts the component at a mounting position. Component text including at least one data of presence / absence and status of lead and cut lead of component corresponding to each component to be mounted, polarity mark, print character, and color code read from component electronic catalog in which component text data is stored. It is characterized in that mounting data including at least one of processing of checking and correcting the mounting direction of components and checking of mounted components is created from the data, and operation of the mounting machine is controlled based on the generated mounting data.

According to the configuration of the second aspect of the present invention, at least one of the presence / absence and state of the lead and cut lead of the component corresponding to each component to be mounted, the polarity mark, the print character and the color code is obtained from the component electronic catalog. Reads data, creates mounting data including at least one of processing for checking and correcting the mounting orientation of components and checking mounted components, and controls the operation of the mounting machine based on the created mounting data.
It is possible to easily and quickly create mounting data for checking whether or not the orientation of a mounted component is appropriate, and to ensure proper mounting by mounting with the mounting data.

According to a third aspect of the present invention, in the first or second aspect, the component electronic catalog is a storage medium such as a CD, an FD, an optical disk, or a transmission medium by communication such as a wired, wireless, telephone line, or optical communication. Yes, various data can be input to the component electronic catalog independently, data can be easily changed or added, and the data can be shared by various mounting machines.

According to a fourth aspect of the present invention, there is provided a component mounting apparatus in which a mounter receives each component and mounts the component at a mounting position. Component text read from the component electronic catalog in which component text data is stored, including at least one data of the shape, dimensions, color, color, reflectance, surface roughness, and surface material of the component corresponding to each component to be mounted Mounting data creation means for creating, from data, mounting data including at least one of a component recognition method adopted when mounting a component of a reflection type or a transmission type, and an adjustment of a light amount and a type of illumination light for recognizing the component; And control means for controlling the operation of the mounting machine based on the generated mounting data, and the mounting method according to claim 1 is implemented to achieve the effect.

A component mounting apparatus according to a fifth aspect of the present invention is a component mounting apparatus in which a mounter receives each component and mounts the component at a mounting position. Component text including at least one data of presence / absence and status of lead and cut lead of component corresponding to each component to be mounted, polarity mark, print character, and color code read from component electronic catalog in which component text data is stored. Mounting data generating means for generating mounting data including at least one of processing for confirming and correcting the mounting orientation of the component and confirming the mounted component from the data, and control means for controlling the operation of the mounting machine based on the generated mounting data The mounting method according to claim 2 is implemented to achieve the effect.

According to a sixth aspect of the present invention, in the fourth or fifth aspect, the component electronic catalog is a storage medium such as a CD, an FD, an optical disk, or a transmission medium by communication such as a wire, wireless, telephone line, or optical communication. Yes, various data can be input to the component electronic catalog independently, data can be easily changed or added, and the data can be shared by various mounting machines.

According to a seventh aspect of the present invention, there is provided a mounting data creating method comprising:
A mounting data creation method in which a mounting machine receives supply of each component and creates mounting data for mounting the component at a mounting position, wherein the component text data of various components including a component to be mounted is stored. From the electronic catalog, the shape, dimensions,
At least one of color, color, reflectance, surface roughness, and surface material
From the component text data containing the two types of data, the mounting method includes at least one of the component recognition method used in component mounting of the reflection type or the transmission type, and the adjustment of the amount and type of illumination light for component recognition Is characterized by
It is possible to easily and quickly create mounting data for selecting a component recognition method at the time of mounting to ensure proper mounting and adjusting illumination light.

[0029] A method for creating mounting data according to claim 8 is as follows.
A mounting data creation method in which a mounting machine receives supply of each component and creates mounting data for mounting the component at a mounting position, wherein the component text data of various components including a component to be mounted is stored. From the component text data including at least one data of the lead and cut lead, polarity mark, print character and color code of the component corresponding to each component read from the electronic catalog, It is characterized in that mounting data including at least one of a process of confirmation, correction, and confirmation of a mounted component is created, and the mounting data for confirming the appropriateness of the orientation of the mounted component to ensure proper mounting can be easily and easily obtained. Can be created in a short time.

According to a ninth aspect of the present invention, in addition to the seventh or eighth aspect of the present invention, the component electronic catalog is a storage medium such as a CD, an FD, an optical disk, or a communication medium such as a wired, wireless, telephone line, or optical communication. Yes, various data can be input to the component electronic catalog independently, data can be easily changed or added, and the data can be shared by various mounting machines.

A tenth aspect of the present invention is the invention according to any one of the seventh to ninth aspects, further using a component electronic catalog in which component text data is stored together with the image data. In addition, component text data can be efficiently read, and mounting data can be created easily and in a short time.

According to the eleventh aspect of the present invention, there is provided a component mounting method comprising the steps of: inputting mounting data generated by the mounting data generating method according to any one of claims 7 to 10 to a control unit of a mounting machine; The operation of the mounting machine is controlled based on the mounting data, and proper mounting can be ensured by using the mounting data created by the mounting data creating method according to any one of claims 7 to 10.

According to a twelfth aspect of the present invention, there is provided a mounting data generating apparatus for generating mounting data for a mounting machine to receive each component and mount the component at a mounting position. From the component electronic catalog that stores component text data for various components including components, the shape, size, color,
Component text data including at least one of color, reflectance, surface roughness, and surface material is read, and a component recognition method and component to be used when mounting a component of a reflection type or a transmission type from the read component text data. And mounting data including at least one of the adjustment of the amount of light and the type of illumination light for recognizing the component. Mounting data for selecting and adjusting illumination light can be created easily and in a short time.

According to a thirteenth aspect of the present invention, there is provided a mounting data generating apparatus for generating mounting data for a mounting machine to receive each component and mount the component at a mounting position. The presence / absence and status of leads and cut leads of components corresponding to each component to be mounted, the polarity mark, printed characters and color codes read from the component electronic catalog that stores component text data for various components including components Reading part text data including at least one piece of data, and generating mounting data including at least one of processing of confirming and correcting the mounting direction of the component and confirming the mounted component from the read part text data. In the same manner as in claim 8, the mounting data for confirming the properness of the orientation of the mounted components for ensuring proper mounting is easily and quickly generated. It can be.

The invention of claim 14 is the invention of claim 12 or 13
Further, in the invention according to the invention, the electronic parts catalog is used for a CD or F
D, a storage medium such as an optical disk, and a transmission medium by communication such as wired, wireless, telephone lines, and optical communication. Various data can be input to the parts electronic catalog independently, making it easy to change or add data. And can be shared by various mounting machines.

According to a fifteenth aspect of the present invention, there is provided a component mounting apparatus configured to input mounting data generated by the mounting data generating apparatus according to any one of the twelfth to fourteenth aspects of the present invention. 2. A control device for controlling operation of a mounting machine based on data.
4. A proper mounting can be ensured by using the mounting data created by the mounting data creating device according to any one of 4.

[0037]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Several embodiments of the mounting data creation method of the present invention will be described below with reference to the drawings.

(Embodiment 1) The present embodiment 1 is different from FIG.
As shown in FIG. 1A, a case is shown in which a data processing device 3 different from the mounting machine 4 is used. This data processing device 3 has a data reading process as shown in FIG. It has means 1 and data creation processing means 2. The data processing device 3 is preferably a personal computer, but is not limited thereto and may be a dedicated machine. In some cases, a data processing device on the mounting machine 4 side or a control system for operation control can be used.

The mounting machine 4 is equipped with a necessary number of component supply cassettes 5 each having a taping component mounted thereon, and receives necessary electronic components from these component supply cassettes 5 each time. If the electronic component is recognized and correct, the electronic component is automatically mounted on the board 6 accurately and with high accuracy by taking a measure called correction. For this automatic mounting, a data processing device 8 is provided separately from the control system 7 for operation control.

The data processor 8 has a display 9 and is supplied with an NC program which is mounting position data for each component to be mounted and a supply library relating to a component supply state such as an arrangement of components in a component supply unit. A component library and the like for accurately and surely recognizing and mounting the component at a predetermined position are used to create a program for actual component supply and an operation control program for mounting the supplied component at a predetermined position. 7 is the control data used. The mounting data C may be any data required according to the individuality of the mounting machine 4 such as the function level of the mounting machine 4 and the component supply form, and specific contents can be freely set.

The data read-out processing means 1 uses the position data A as shown in FIG. 2 concerning the mounting position created for the component to be mounted, and creates a component electronic catalog 12 in advance together with image data for various components including the component to be mounted. The component text data b for each component to be mounted at each mounting position is automatically extracted from the component text data B as shown in FIG. 3 necessary for mounting the component such as the shape, dimensions, package, and color of the component stored in the storage device. Read by data processing. The data creation processing unit 2 performs automatic data processing of the mounting position data A and data including the component text data b for each mounting target component at each mounting position read by the data reading processing unit 1, and Is provided with mounting data C for receiving components and mounting them at predetermined mounting positions on the board.
Create This mounting data C is, for example, as shown in FIGS.
And an array program as a supply library, and a component supply position library relating to a condition of a component take-out position when components are supplied by a tray.

The mounting position data A is, for example, the CAD device 11
May be input to the data processing device 3 each time the mounting position data is generated, or the data of all mounting position data may be stored and transferred to the data processing device 3. Alternatively, a storage medium storing the mounting position data C may be loaded into the data processing device 3 and used. Here, the component text data B shown in FIG. The component electronic catalog 12 has predetermined image data IM for various components including the component to be mounted as shown in FIG. 8 and component text data B necessary for mounting the component such as the shape, dimensions, packing style, and color of each component. Edited and stored according to the classification of Therefore, the image data I
By using the M and the component text data B together, various types of information on various electronic components are displayed on a screen according to a predetermined procedure and search, and can be used as a conventional component electronic catalog. An interface for this may be provided on either the component electronic catalog 12 side or the data processing device 3 side. Further, it is possible to perform necessary screen display for various electronic components only by the image data IM.

The component electronic catalog 12 includes a CD-ROM, a flexible disk, an optical disk and the like, but may be any storage medium or storage device.

As described above, in the first embodiment, the component electronic catalog is required for mounting the components such as the shape, dimensions, packing style, and color of the components together with the image data IM for various components including the mounted components. Utilizing the fact that the component text data B is also stored, in addition to the conventional screen search as a component electronic catalog, the mounting target component information of the mounting position data A created in advance for each mounting target component is also obtained. At the same time, a corresponding one of the component text data B stored together with the image data IM in the component electronic catalog 12 is automatically read to obtain component text data b for each mounting target component at each mounting position. It is possible,
In addition, in the conventional automatic data processing using the mounting position data A and the data including the component text data b for each mounting target component at each mounting position, for example, a component requiring the conventional mounting machine 4 Necessary mounting such as an NC program relating to the mounting position of a component, a component library relating to recognition of electronic components such as component shapes, dimensions and colors, and a supply library relating to component supply states such as an arrangement of components in a component supply unit. The data C can be created, and mounting data C for supplying each component to the conventional mounting machine 4 and mounting them at a predetermined mounting position can be generated by automatic data processing. Therefore, since it is not necessary for a person to input various component data necessary for creating the mounting data C for each mounting target component, labor and time required for creating the mounting data can be greatly reduced.

However, depending on the model of the mounting machine 4 and the control level, the mounting data C corresponding thereto is created. Also, when the mounting data C is created in consideration of the characteristic data of the mounting machine 4, the mounting data C matching the characteristics of the mounting machine 4 can be created, and the component mounting tact can be minimized. It is possible to mount components more appropriately than it is to say that there is no difficulty or failure. The mounting data C can include inspection data for accurate component mounting. This is to determine whether the components held by the nozzles and chucks and the orientation of the components are appropriate, and if they are incorrect, replace them and perform proper mounting. Inspection data for performing the above is generated by component text data b for each component. Inspection data appropriate for the component to be mounted is also automatically obtained. Appropriate inspection can be performed, and accurate component mounting can be guaranteed.

Parts electronic catalog 12 according to the first embodiment
Stores both the component text data B and the image data IM corresponding to various components as described above. For this reason, the data reading processing means 1 reads both the image data IM and the component text data B for each component stored in the component electronic catalog 12 for each same component according to a predetermined search operation.
Display 1 of data processing device 3 as video signal D
3 so that they can be displayed on the same screen. At the same time, the component text data can be output to another output operation.

Therefore, by the search operation, the same part of the image data IM and the part text data B of each part stored in the parts electronic catalog 12 is displayed on the same screen of the display 13 for each of the same parts. It can be used for searching for and selecting a certain part, and the part text data B can be output to another part as needed, so that it can be used for various data processing.

As described above, if the data is external to the device, such as the component electronic catalog 12 storing the image data IM and the component text data B, the input of various data is performed by the The processing can be performed independently of the processing device 3, and data can be easily changed or added. Moreover, it can be shared by various mounting machines 4.

When the component electronic catalog 12 storing the component text data B transmits information by communication, one component electronic catalog 12 is transferred to the mounting machine 4.
There is an advantage that it can be used without limitation on the installation location of the component and that many mounting machines 4 can be shared.
It is also convenient for management, modification and addition. In addition, the said communication,
There is no particular question regarding communication systems such as wired, wireless, telephone lines, and optical communication.

Further, the data processing program executed by the data processing device 3 stores the program in an external CD as shown in FIG.
-It can be stored in the ROM 15 or another suitable storage medium and used. The storage contents of this program are, for example, as described above, data read processing means 1
Is controlled in accordance with the mounting position data A regarding the mounting position including the mounting angle created for the mounting target component, and various components including the mounting target component are created in advance together with the image data IM and stored in a storage means such as the component electronic catalog 12. From the component text data B necessary for mounting the component, such as the shape, dimensions, packing style, and color of the component, the component text data b corresponding to the component to be mounted at each mounting position is read. The readout program file 15a and the mounting position data A by controlling the data creation processing means 2 and the component text data b for each electronic component read out by the data readout processing means 1 for each mounting target component corresponding thereto are read out. From the data included, the mounting machine 4 receives the supply of each electronic component and places them in a predetermined mounting position. It is a data creation processing program file 15b a program for creating mounting data C for. However, it is not limited to this,
The specific storage mode can be freely selected.

In this way, the input of various programs can be performed independently of the data processing device 3 which is a mounting data creation device, and the programs can be easily changed or added. Moreover, it can be shared by the same type of mounting machine 4.

The creation of the mounting data C will be described more specifically. The NC program indicating the component mounting position, the component library for recognizing various electronic components, and the component supply unit, which have been mentioned above, are described. And a supply library relating to the supply of components, such as an arrangement of various electronic components and a condition for taking out components in the case of a component supply format using a tray. As the supply library, in the case of a component supply apparatus that operates to supply a selected component to the mounting machine 4 while moving a plurality of component supply cassettes and moving in the feed axis direction, instruction data of the mounting position of the component supply cassette is provided. Yes, and other necessary data will be created. FIG. 10 shows an operation screen of the display 13 in a mode for generating a component library. The search for the electronic component corresponding to each component mounting position of the component position data A is performed by the start key 16 and the cancel key 17, and the component corresponding to the component library generation model set by another start key 18 and the cancel key 19 The library text data b read from the component text data B corresponding to each of the searched electronic components.
And the component position data A.

Other items to be considered for component mounting include the types of nozzles and chucks for carrying electronic components, the moving speed of a mounting head having nozzles and chucks, and the like.
The required lowering position of the nozzle or chuck when mounting the electronic component, that is, the mounting height on the substrate, the moving speed of the substrate on which the electronic component is mounted, particularly the acceleration, and various allowable values. In addition, in order to automatically supply these various electronic components to the mounting machine, for example, they are handled by being taped or accommodated in a tray, and such a component supply form, including a component storage pitch in that case, So-called packing conditions also need to be considered. Such data can also be automatically created as a supply library or other mounting data C.

Further, at the mounting stage of the electronic component, the recognition of the suitability and the orientation of the electronic component and the replacement of the erroneous component and the correction of the orientation based on the result are performed. For such an inspection, component text data B relating to other recognition of the electronic component such as the shape, surface reflectance, color, color, polarity mark, printed characters and color code of the electronic component, etc.
Inspection data required by such component text data B can also be automatically created as mounting data C.

In some cases, the inspection data of the product board after the mounting of the electronic components is completed can also be automatically generated.

If the component text data B includes data such as a code such as a material, surface roughness, and surface shape of the package of the electronic component, a component shape dimension, and a component weight, the electronic component is sucked by the nozzle. Mounting data C that is optimal or that it is optimally held by the chuck, the moving speed of the component mounting head equipped with the nozzle and the chuck, the suction force, the moving speed of the substrate after the electronic components are mounted, In particular, the mounting data C including acceleration and various allowable values, and the tape or tray supply form, such as the packing form of the tape or tray, especially the presence or absence of a cover or push-up pin, the component storage pitch of the tape or tray, and the tray If the mounting data C further includes the number of stored rows and the pitch between rows, the presence or absence of the cover peeling operation, the presence of the push-up pin operation, Out one difference by 1 pitch feed, it is possible to set the mounting condition say once strike two pitch feed.

In the following, an example of the first embodiment will be described. As shown in FIG. 3, the component text data B relating to various electronic components is recorded in the component electronic catalog 12 as shown in FIG. The file is classified into a file B ₁ , a component shape file B ₂ , a component special shape file B ₃ , a component characteristic master file B ₄ , a packing file B ₅ , a component polarity file B ₆ , a reel information file B _{7, and the} like. However, such a classification format can be set freely.
In the component master file B _1, part name, manufacturer name code, parts classification code, parts varieties code, shape code,
And the packing code as the top data, call up the master data and display it on the screen, and display the contents of the item selected according to the user's selection operation on the screen.

Regarding the data of the component type, individual component type codes are manually input to various electronic component types. As for the shape data, a code for each shape defined for managing the component by the shape is manually input.

Some of these embodiments are as follows.

[0060] Data contents of component shape file B ₂ are shape codes, component version code, read whether, body contour LR, body Saikatachi DU, body thickness, special body thickness, component height, geometry tolerances, electrode width LDRU, electrode length LDRU, electrode height LDRU, and the like.

[0061] component data contents of the special shape file B _3, the shape code, object side number (L D R U), a special electrode arrangement, special electrodes present position, special electrode width, special electrode length, special electrode height, Special base electrode width, special lead thickness,
And so on.

[0062] Data contents of the part characteristic master file B ₄ are part name, package color codes, packaging material code, and the like.

[0063] Data B ₅ contents of packing file packing code, packing type code, X-direction trays pitch, Y-direction trays pitch, X-direction component columns, Y-direction component the number of columns, the number of housing parts, the tape width , Tape feed pitch, taping direction /
Supply direction, etc.

[0064] Data contents of the part polarity file B ₆ is the part name, the polarity presence, polarity mark segment, the polarity mark shape size 1, polarity mark shape size 2, polarity mark X coordinates, polar mark Y coordinates, polar mark angle, lateral Symmetric / asymmetric parts, etc.

The data content of the reel information file B ₇ is as follows.
Parts name, packaging quantity, etc.

Next, several examples of setting of the component type code corresponding to each component type are shown as follows.

In the following, a chip component is a name for an electronic component for surface mounting, such as a square chip resistor. The axial component is a component having a lead and a type in which a lead is inserted into a hole of a substrate. A radial component is a component with a lead in which a lead is inserted into a hole in a board, and is a name of a component that is inserted in a state where the component is oriented vertically, and there is an aluminum electrolytic capacitor.

For the chip parts, Isolator: ATC Dielectric filter: BPP Aluminum electrolytic capacitor: CAPALR Cylindrical chip capacitor: CAPYL Film capacitor: CAPPULM CC: CC Connector: CNT Mini diode: DIMINI New mini power diode: DINMIHIPWS S mini diode: DISMINI Duplexer: EZFA Reception filter: EZFS filter: FLT Noise filter: FLN Oscillation filter: FSA Mini power IC: ICMINIPW Mini IC: ICMINI IF module: IF LC filter: LCFLT NL filter: NLFLT Crystal filter: QFT, etc.

For the axial / radial jumper parts, R Bead core: R BCR Capacitor: R CAP R Three-terminal capacitor: R CAP3 A Bead core: A BC jumper wire: J Jamper and the like.

Some examples of setting the shape code corresponding to each component type are as follows.

In the following, the unit of the component size of the code is set for each component by taking two digits of the actual size. For example, 3mm long 1.5mm wide
If the height is 1.5 mm, it is 301515, and the height is 20 m.
If m is 13.5 mm wide and 3.5 mm high, 201
303.

For chip components, isolator: ATCB57 (ATC + shape code 1 + height 2) Dielectric filter: BPPB45 (BPP + shape type 1+
Height 2) Aluminum electrolytic capacitor: ALCB57 (ALC + Shape code 1 + Height 2) Cylindrical chip capacitor: 2125C (Diameter 2 + Length 2 +
C) Film capacitor: 4833FC13 (vertical 2 + horizontal 2+
FC + height 2) CC: CC014B101008 (CC + 3 pins + B
+ Vertical 2 + horizontal 2 + height 2) New mini power diode: NMINIPWDIL3
15 (shape type 5 + component type 2 + L + number of leads 1 + height 2).

For the axial / radial jumper wire, bead core: 2545RBC28 (vertical 2 + horizontal 2 + RBC
+ Height 2) Capacitor: 4532 CAP32 (Vertical 2 + Horizontal 2 + CAP)
+ Height 2) Three-terminal capacitor: 1207CAPCN15 (vertical 2 + horizontal 2 + CAPCN + height 2) and the like.

Further, the packing code is as follows.

Paper tape (paper, paper adhesive): P0804
0 (the first digit P is the paper type code, N for paper sticky)
Becomes The next two digits 08 indicate a tape width of 8 mm, and the next two digits 04 indicate a tape feed pitch of 4 mm. Further, the next two digits XX enter the system reservation. The last digit 0 indicates that the angle is 0 °. The angle code is 0 for 0 °, 1 for 90 °, and 2,360 for 180 °.
Is set to 3.

Embossed tape: E0804081 (The first digit E is the type code. The next two digits 08 indicate a tape width of 8 mm, the next two digits 04 indicate a tape feed pitch of 4 mm, and the next two digits 08 indicates the emboss depth, and the last digit 1 indicates 90 ° in the above-mentioned angle code.) Matrix tray: T1020 OO1 (the first digit T is the type code. The digit 10 is the number of columns in the Y direction, the next two digits 10 are the number of columns in the X direction, and the next two digits XX are sequential numbers under operator control in order from 00 when the tray pitch is different. The last digit 1 is an angle code.) Stick: S08 Ｓ ○ 2 (the first one digit S is a type code. The next four digits ○ ○ are used to input a system reservation. The last digit 2 is the angle code Bulk: B08 ○ ３ 3 (The first digit B is the type code. The next 4 digits ○ ○ enter the system reservation.)
The last digit 3 is an angle code. Next, the cut lead is a name of a part with a lead and a lead is cut, and this code is used to selectively register a cut lead code for the corresponding part. This code is not particularly defined in the first embodiment. , 20 characters or less. However, CUT0000 is set for a component having the number of cuts of zero.

Next, regarding the electrode shape classification, since the number of information is small, only the integral type: 1 gull wing: 2 J lead: 3 flat lead: 4 separation type: 5 insertion type: 6 butt lead: 7 volume: 8 did.

The registration of these electrode shape names is performed by key input. This input can be made in Chinese characters.

Hereinafter, a part electronic catalog 1 containing such part text data B and image data IM will be described.
A case will be described in which a screen search is used for 2. FIG.
A flowchart 1 shows a search procedure in the first embodiment.

When the data processing device 3 is started up in the component electronic catalog reading mode, the display 13 changes to a search guide screen, and guides for a search according to a predetermined search procedure are sequentially displayed. data of the component master file B ₁ is displayed as the screen. By moving the cursor on the screen to the position of the required one of the master items related to the displayed part,
Select the required items. When the end of the selection is input by the OK key on the screen, the screen of the display is updated and the lower data related to the selected item is displayed.

Assuming that the selected master item is a component classification code, a component item in which electronic components are roughly classified is displayed on the lower screen. Therefore, when this is selected and the OK operation is performed, the screen is updated to a lower level based on the selection, and item data of transistors, diodes, and optical semiconductor elements, which are the major classification data of the semiconductor as shown in FIG. Small classification data items related to the transistor selected by the cursor in the large classification, such as bipolar transistors (PNP)... 2SA and 2SB, are displayed. When the cursor is moved to another item in the large classification data, for example, a diode, the display screen of the small classification data is updated from that relating to the transistor to that relating to the diode.

When the rectifier diode in the small classification data is selected, the entire screen is updated to a screen relating to the selected one diode. However, when an item for explanation is selected, an explanation screen as shown in FIG. 13 is displayed. Is done. When the screen is returned to the search screen, a final selection screen is displayed as shown in FIG.

Here, when, for example, a rectifier diode (code MA75WA) that meets the needs is selected, one electronic component is selected, and various basic data relating to the selected electronic component are displayed on the screen as shown in FIG. Is displayed. Thus, the operations of steps # 1 to # 3 in the flowchart of FIG. 11 are completed.

Next, FIG.
In this screen, a part that meets the needs is selected, or the screen to be displayed next is selected in accordance with the purpose of obtaining the part data for creating the mounting position data A for the selected part. For example, an outline drawing, a recommended land, a tape shape, and the like are selected. Step ♯
Operation 4 is completed.

For the selection of the outline drawing by the operation of step # 4, the image data IM corresponding to the outline of the selected electronic component and the component text data B corresponding to the dimensions of the selected electronic component are In step # 5, the components are read from the component electronic catalog 12 and combined, and a screen display as shown in FIG. 16 is performed. On this screen, an outline drawing E including the dimension lines of the electronic component and component text data F, which are dimensions corresponding to the respective dimension lines, are simultaneously displayed on the screen. When the size output is selected on this display screen, the component text data B can be output to another.

For the selection of the land diagram by the operation of step # 4, the image data IM corresponding to the land shape of the selected electronic component, the component text data B corresponding to the land size of the selected electronic component, and And step ♯
At 5, the components are read from the component electronic catalog 12 and combined, and a screen display as shown in FIG. 17 is performed. On this screen, the outline drawing G containing the dimension lines of the lands and the component text data H which is the dimension corresponding to each dimension line are simultaneously displayed on the screen. When the size output is selected on this display screen, the component text data H is input to another.

For the selection of the taping size by the operation of step # 4, the image data IM corresponding to the taping shape of the selected electronic component and the component text data B relating to the taping size of the selected electronic component are stored. 1 is read out from the electronic component catalog 12 and synthesized.
A screen display as shown in FIG. On this screen, the form diagram I with the dimension line of taping and the component text data J of the dimension corresponding to the dimension line are displayed.

When the mounting position data A is created by a CAD device or the like, the various mounting data C shown in step # 6 are combined with the mounting position data A and the component text data B stored in the component electronic catalog 12. Data processing device 3
Can be generated automatically.

When the reel size is selected on the screen shown in FIG.
Reel image data I for the selected electronic component
M and the component text data B are read from the component electronic catalog 12 and combined, and a screen display as shown in FIG. 19 is performed. On this screen, the drawing K of the reel and the component text data L corresponding to the dimension line are displayed.

Further, while the mounting of the electronic components in the mounting machine 4 in accordance with the created mounting data progresses, some of the electronic components need to be maintained, and some of the electronic components become discarded. Sometimes you want to use another electronic component instead. If you do not have a replacement, you may want to use a compatible electronic component from another company.

Therefore, it is also desirable to store and manage the data of the replacement parts of the parts for the maintenance and the waste products, and further, the parts compatible with other companies which have no replacement parts and which should be used.

In the first embodiment, the target data of such maintenance, waste parts and substitute parts, and the target data of compatible parts of other companies are also stored as part text data B of the parts. Can be searched while being displayed on the screen as shown in FIGS.

If the component text data B includes data on the component shape, electric capacity, characteristics, mounting machine characteristics, plane graph, alternative components, compatible components of other companies, and component cost, the mounting data C can be obtained. Based on the component shape data, electric capacity, and characteristics, when placing electronic components on the board, it automatically determines the adjacency to see if there is interference between the components, and automatically determines the necessary insulation distance, and the necessary minimum arrangement interval And the optimum recommended land shape for the electronic component can be automatically set.

Further, by handling the characteristics of the mounting machine and the data of the planar graph, it is possible to perform a grouping process for determining the mounting order and arrangement so that various electronic components to be mounted can be mounted more quickly.

Further, by including the data of the replacement part, the parts compatible with other companies, and the cost, the data processing can be performed so that the component having the lowest cost is selected and mounted. At the same time, if a replacement component or another company's compatible component has a different shape or color from the original electronic component, it will be recognized as an erroneous component at the stage of component mounting and error processing will be performed, so an inspection program will be created along with the mounting data creation In this case, the process of rewriting the inspection data can be automatically performed.

When the component text data B includes a code indicating a shape characteristic such as a protruding state of a connection bump on the lower surface of the component, the component is mounted on the board by the mounting data creation program. The processing for determining the mounting height, the pushing amount, or the pushing pressure can be automatically performed.

The numerical data B of the component includes the shape and size of the component, the color and color, the reflectance, the presence / absence and state of the lead and the cut lead, the polarity mark, and the 1 on the component.
005CR, printed characters such as 10Ω, color code,
If the surface roughness and the material of the surface are included, a process of determining whether the component recognition method adopted at the time of component mounting is the reflection type or the transmission type can be automatically performed based on the shape and size of the component. Specifically, a large component is clearly visible even in the transmission method, so that it is easy to recognize correctly. However, a small component is not suitable for the transmission method since the shadow of the nozzle is reflected and only the outer shape can be recognized. Also, small components can be recognized not only by their external shape but also by the leads on the bottom surface when they are recognized by the reflection method, and even if they are mounted using a nozzle with a large diameter, they do not hinder the recognition. is there. Therefore, large electronic components are determined to be transmissive, small electronic components are determined to be reflective,
There can be no false inspections.

In addition, a process of changing the amount and type of illumination light for recognizing a part can be automatically performed depending on the color, the color and the reflectance, the surface roughness, and the surface material. Specifically, since the mirror surface has high luminance, reflected light cannot be recognized tightly when illuminated with strong light, and cannot be recognized with weak light when the surface is dark. Depending on each surface condition,
Change the optimal light type and light intensity.

Further, processing for confirming and correcting the mounting direction of the component is performed based on the presence / absence and state of the lead and lead cut, and the polarity mark. Further, a process for confirming a mounted component from printed characters and a color code on the component and preventing mounting of an erroneous component can be automatically performed.

When the component text data B includes a plurality of package data that can be adopted for the same type of component,
In the operation of mounting data creation, packing data that can be adopted for the same kind of parts, for example, multiple data such as taping, tray, and stock, and characteristic data of the mounting machine, according to the type and capacity of the component supply mechanism In addition, a process of determining to adopt a supply format that can be adopted or a supply format that further minimizes the mounting tact time can be automatically performed.

Further, utilizing that each component supply cassette for each component mounted on the mounting machine has a memory for managing the cassette and components, the memory is newly provided with the dimensions, colors, And a supply code such as a shape code such as polarity and a packing form, a feed pitch, and a supply direction are written, and when a part is set in the cassette, it is determined whether or not the part and the cassette match,
Prevent incorrect setting.

At the same time, in the control system of the mounting machine equipped with the component supply cassette, all the information of the various electronic components stored in the memory of each component supply cassette is read and given to this control system. According to the mounting data creation program, component mounting data C including all of the read components can be generated, and the components can be mounted using this. This eliminates the need for a special control system or data file.

If the component text data B includes shape data such as the height, width, and height of the component, the volume or weight of the component is calculated from these data, and the obtained volume or weight data is used to calculate the volume or weight of the component. Selection of nozzles and chucks that handle, the moving speed of the head with these nozzles and chucks, the table moving speed,
In particular, processing for setting the acceleration and various allowable values can be automatically performed.

The component text data B includes a package color code, a component shape, a recommended land shape of the component,
Include the surface material of the part, the reflectance of the surface (if the reflectance is different for each part such as both ends and the center of the part, the reflectance for each part), polar marks, printed characters and color codes on the part surface In addition, an inspection program for inspecting various components after mounting can be automatically generated corresponding to the components of the mounting data.

Therefore, as in the case of mounting data creation,
There is no need to select and configure electronic components that meet your needs.
Inspection data for each type of component and each type can be obtained by simulating component mounting data.

When the component text data B includes a component shape, in particular, vertical, horizontal, and height sizes, and lead information, the read data in the visual inspection is automatically set in the inspection program based on these. be able to.

If the component text data B includes the temperature characteristics of all electronic components mounted on the same board, the component mounting data creation program sets conditions based on the temperature when mounting the electronic components mounted on the board. Processing can be performed automatically. Specifically, when electronic components are mounted on both sides of the board, the electronic component having higher heat resistance than the second surface to be mounted later is set on the first surface to be mounted first.

Thus, the electronic component having a high heat resistance mounted on the first surface of the substrate is bonded using reflow solder having a high melting point, and the electronic component having a low heat resistance mounted on the second surface is reflow soldered having a low melting point. When boarding is performed using solder, the electronic component mounted first on the first surface is melted when the electronic component is mounted on the second surface and subjected to reflow soldering. It is possible to prevent the electronic component having low heat resistance from being damaged during reflow soldering when mounting the electronic component on the two surfaces.

If the component text data includes data indicating necessity such as burning and refrigeration based on whether or not the component is a moisture-absorbing component, the process of automatically generating the handling conditions of the component when mounting the component together with the mounting data is automatically performed. It can be carried out.

(Embodiment 2) Embodiment 2 is similar to FIG.
As shown in the figure, the data processing device 8 provided in the mounting machine 4 has the functions of the data read processing means 1 and the data creation processing means 2 therein, and the data read processing means 1 Data file 2 storing the characteristics of
1 is also read out, and the same mounting position data A and component text data B as in the first embodiment are read.
In addition, the mounting data C is created in consideration of the characteristics of the mounting machine 4.

[0111] Therefore, mounting data suitable for the characteristics of the mounting machine can be created, and more appropriate component mounting can be realized. Further, since the data read processing means 1 and the data creation processing means 2 are the data processing device 8 of the mounting machine 4, the CAD device 11 for creating the mounting position data A of the component and the data processing device 8 of the mounting machine 4 Since there is no need for a special data processing means, the number of related devices for creating the mounting data C can be reduced, and the mounting machine 4 itself can take the characteristics of the mounting machine 4 to create the mounting data C. It is convenient.

[0112]

According to the first aspect of the present invention, at least one data of a shape, a dimension, a color, a color, a reflectance, a surface roughness, and a surface material of a component corresponding to each component to be mounted is obtained from a component electronic catalog. And mounting data including at least one of a method of recognizing a component adopted when mounting a component of a reflection type or a transmission type, adjustment of a light amount and a type of illumination light for recognizing the component, and the generated mounting. Since the operation of the mounting machine is controlled based on the data, it is possible to easily and quickly create mounting data for selecting the component recognition method at the time of mounting and adjusting the illumination light, etc. Implementation can be secured.

According to the second aspect of the present invention, the presence / absence and state of leads and cut leads of components corresponding to each component to be mounted, at least one data of a polarity mark, a print character and a color code are read from the component electronic catalog. However, since the mounting data including at least one of the processing of checking and correcting the mounting direction of the component and the processing of checking the mounted component is created and the operation of the mounting machine is controlled based on the generated mounting data, the orientation of the mounted component can be controlled. The mounting data for checking the propriety can be easily and quickly created, and proper mounting can be ensured by mounting with the mounting data.

According to the invention of claim 4, in the component mounting apparatus in which the mounting machine receives each component and mounts the component at the mounting position, component text data of various types including the mounted component is stored. The shape and dimensions of the parts corresponding to each part to be mounted, read from the parts electronic catalog
At least one of color, color, reflectance, surface roughness, and surface material
From the component text data that contains the two types of data, creates mounting data that includes at least one of the component recognition method used when mounting the component using the reflection method or the transmission method, and the adjustment of the amount and type of illumination light used to recognize the component. Since there is provided mounting data creating means for controlling the mounting machine based on the created mounting data, the mounting method according to the first aspect of the present invention has an effect.

According to the fifth aspect of the present invention, in the component mounting apparatus in which the mounting machine receives each component and mounts the component at the mounting position, component text data of various types including the mounted component is stored. From the component text data including at least one of lead / cut lead status and polarity, polarity mark, print character and color code corresponding to each component to be mounted, read from the component electronic catalog, Since there are provided mounting data generating means for generating mounting data including at least one of processing of checking and correcting the mounting and checking of mounted components, and control means for controlling the operation of the mounting machine based on the generated mounting data, The effect is achieved by implementing the mounting method described in Item 2.

According to the inventions of claims 3 and 6, claim 1,
In the inventions of 2, 4, and 5, the parts electronic catalog is a recording medium such as a CD, an FD, and an optical disk, and a transmission medium by communication such as wired, wireless, telephone lines, and optical communication. Input can be performed independently, data can be easily changed or added, and the data can be shared by various mounting machines.

According to the seventh and twelfth aspects of the present invention, there is provided a mounting data creation method and apparatus in which a mounting machine receives supply of each component and creates mounting data for mounting the component at a mounting position. The shape, size, color, etc. of the component corresponding to each component to be mounted, read from the component electronic catalog in which component text data for various types including
From the component text data including at least one of color, reflectance, surface roughness, and surface material, the component recognition method used when mounting the component using the reflection method or the transmission method, and the amount of illumination light for recognizing the component Creates mounting data that includes at least one of the adjustments of the components and types, so that it is possible to easily and quickly create mounting data that selects the component recognition method during mounting and adjusts the illumination light to ensure proper mounting can do.

According to the eighth and thirteenth aspects of the present invention, there is provided a mounting data creating method and apparatus in which a mounting machine receives each component and creates mounting data for mounting the component at a mounting position. At least one of the presence / absence and state of the lead and cut lead of the component corresponding to each component to be mounted, a polarity mark, a printed character, and a color code, which are read from the component electronic catalog storing the component text data of various types including From the component text data including the data, the mounting data including at least one of the processes of confirming and correcting the mounting direction of the component and confirming the mounted component is created, so that the component recognition at the time of mounting for ensuring proper mounting is performed. Mounting data for selecting a method and adjusting illumination light can be created easily and in a short time.

According to the ninth and fourteenth aspects of the present invention, in any one of the seventh, eighth, twelfth and thirteenth aspects, the component electronic catalog further includes a recording medium such as a CD, an FD, an optical disk, a wired, wireless, Since it is a transmission medium by communication such as telephone line and optical communication, various data can be input to the parts electronic catalog independently, data can be easily changed or added, and it can be shared by various mounting machines. Can be.

According to the tenth and fifteenth aspects of the present invention, in any one of the seventh to ninth and twelfth to fourteenth aspects, a parts electronic catalog storing part text data together with image data is used. By using the data, component text data can be read efficiently, and mounting data can be created more easily and in a shorter time.

According to the eleventh and fifteenth aspects of the present invention, the mounting data generated by the mounting data generating method or device according to any one of the seventh to tenth and twelfth to fourteenth aspects is input to the control means of the mounting machine to control the mounting. Since the means controls the operation of the mounting machine based on the input mounting data, it is possible to secure an appropriate mounting using the mounting data generated by the mounting data generating method according to any one of claims 7 to 10.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a control system to which a mounting data creation method according to a first embodiment of the present invention is applied;

FIG. 2 is an example of data of a component mounting position used to create component mounting data.

FIG. 3 is an example of component text data used to create component mounting data.

FIG. 4 is an example of an NC program as component mounting data.

FIG. 5 is an example of a component library as component mounting data.

FIG. 6 is an example of an array program as a supply library of component mounting data.

FIG. 7 is an example of a supply position library as a supply library of component mounting data.

FIG. 8 is a block diagram showing an example of stored contents of a parts electronic catalog shown in FIG. 1;

FIG. 9 is a block diagram showing storage contents of a storage medium storing a program for creating component mounting data used by the component mounting data creating apparatus of FIG. 1;

FIG. 10 is a diagram showing an example of an operation screen for creating component mounting data.

11 is a flowchart showing a search procedure when using the component electronic catalog of the system of FIG. 1 for screen search.

FIG. 12 is a diagram showing a halfway screen when searching for electronic components that meet needs according to the flowchart of FIG. 11;

13 is a diagram showing a search screen in a state where a specific type of rectifier diode is selected on the screen of FIG.

14 is a diagram showing a search screen showing the minimum classification of a specific type of rectifier diode displayed on the screen of FIG.

FIG. 15 is a diagram showing an explanation screen for one rectifier diode selected on the screen of FIG. 14;

16 is a diagram showing a screen showing an outline view of a rectifier diode related to a final search displayed on the screen of FIG. 14;

17 is a diagram showing a screen showing a land diagram of the rectifier diode related to the final search displayed on the screen of FIG. 14;

18 is a diagram showing a screen indicating taping dimensions of rectifier diodes according to a final search displayed on the screen of FIG. 14;

19 is a diagram showing a screen indicating reel dimensions of the rectifier diode according to the final search displayed on the screen of FIG. 14;

20 is a diagram showing a screen showing a major classification and a minor classification of a maintenance and a waste product by the control system for creating mounting data of FIG. 1;

21 is a diagram showing a screen showing a list of products compatible with other companies by the control system for creating mounting data of FIG. 1;

FIG. 22 is a system diagram of a control system according to the second embodiment of the present invention.

FIG. 23 is a block diagram showing an example of stored contents of a conventional parts electronic catalog.

FIG. 24 is a flowchart showing a conventional method of creating mounting data.

FIG. 25 is a diagram showing a screen in the middle of searching for electronic components that meet needs according to the large classification and the small classification according to the flowchart of FIG. 24;

26 is a diagram showing an initial explanation screen of one transistor selected on the screen of FIG. 25.

27 is a diagram showing a window display screen of a list of large classification display items that can be selected on the screen of FIG. 25 for the transistors displayed in FIG. 25.

FIG. 28 is a view showing a display screen relating to the outer shape of the transistor selected on the screen of FIG. 25;

FIG. 29 is a view showing a display screen relating to a land of a transistor selected on the screen of FIG. 25;

30 is a diagram showing a display screen regarding the taping dimensions of the transistor selected on the screen of FIG. 25.

FIG. 31 is a view showing a display screen relating to the reel dimensions of the transistor selected on the screen of FIG. 25;

FIG. 32 is a diagram showing a display screen on which data relating to a characteristic curve is displayed in a window in accordance with selection of a characteristic curve in an initial description screen when a motor control circuit as another electronic component is searched.

FIG. 33 is a diagram showing a display screen in which an application circuit example is preferentially selected and displayed in a window on the initial explanation screen in FIG. 32, and further, a block diagram is selected and displayed in a window.

[Explanation of symbols]

 Reference Signs List 1 data read processing means 2 data creation processing means 3, 8 data processing device 4 mounting machine 5 component supply cassette 6 board 7 control system 11 CAD device 12 component electronic catalog 13 display A mounting position data B component text data b individual components Text data C Mounting data IM Image data M Machine data

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hiroyoshi Nishida 1006 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Inventor Nobuyuki Nakamura 1006 Odaka Kadoma Kadoma City, Osaka Matsushita Electric Industrial F Term (reference) 5E313 AA01 AA11 CC04 EE02 EE03 FF32 FG10

Claims (15)

[Claims] 1. A component mounting method in which a mounter receives supply of each component and mounts the component at a mounting position, wherein the component electronic catalog stores component text data of various components including a component to be mounted. From the component text data including at least one data of the shape, size, color, color, reflectance, surface roughness, and surface material of the component corresponding to each component A component that creates mounting data including at least one of a component recognition method used at the time of component mounting, an amount of illumination light for recognizing the component, and adjustment of the type, and controls operation of the mounting machine based on the generated mounting data. How to implement. 2. A component mounting method in which a mounting machine receives each component and mounts the component at a mounting position, wherein the component electronic catalog stores component text data of various components including a component to be mounted. From the component text data including at least one of lead and cut leads, polarity marks, printed characters, and color codes, corresponding to each component to be mounted, read from the A component mounting method for generating mounting data including at least one of correction and checking of mounted components, and controlling operation of a mounting machine based on the generated mounting data. 3. The component mounting method according to claim 1, wherein the component electronic catalog is a storage medium such as a CD, an FD, or an optical disk, or a transmission medium by communication such as a wired, wireless, telephone line, or optical communication. 4. A component electronic catalog in which a mounter receives supply of each component and mounts the component at a mounting position, wherein component text data of various components including a component to be mounted is stored. From the component text data including at least one data of the shape, size, color, color, reflectance, surface roughness, and surface material of the component corresponding to each component A component recognition method adopted at the time of component mounting, mounting data generating means for generating mounting data including at least one of adjustment of a light amount and a type of illumination light for recognizing the component, and a mounting machine based on the generated mounting data And a control means for controlling the operation of the component. 5. A component mounting apparatus in which a mounter receives supply of each component and mounts the component at a mounting position, wherein the component electronic catalog stores component text data of various components including a component to be mounted. From the component text data including at least one of lead and cut leads, polarity marks, printed characters, and color codes, corresponding to each component to be mounted, read from the A component mounting apparatus, comprising: mounting data generating means for generating mounting data including at least one of correction and confirmation of mounted components; and control means for controlling operation of a mounting machine based on the generated mounting data. 6. The component mounting apparatus according to claim 4, wherein the component electronic catalog is a storage medium such as a CD, an FD, an optical disk, or a transmission medium by communication such as a wired, wireless, telephone line, or optical communication. 7. A mounting data generating method for a mounting machine to receive mounting of each component and generate mounting data for mounting the component at a mounting position, wherein component text data of various components including a mounting target component is provided. Is read from the stored component electronic catalog, and the component text data including at least one data of the shape, dimension, color, color, reflectance, surface roughness, and surface material of the component corresponding to each component to be mounted, A method of recognizing a component used when mounting a component of a reflection type or a transmission type, and a method of generating mounting data including at least one of adjustment of a light amount and a type of illumination light for recognizing the component. 8. A mounting data generating method for a mounting machine to receive mounting of each component and generate mounting data for mounting the component at a mounting position, wherein component text data of various components including a component to be mounted is provided. Is read from the electronic component catalog stored, the presence and state of the lead and cut lead of the component corresponding to each component to be mounted, the polarity mark,
A mounting data creating method for creating mounting data including at least one of processing for checking and correcting the mounting direction of a component and checking mounted components from component text data including at least one data of a print character and a color code. 9. The mounting data creating method according to claim 7, wherein the component electronic catalog is a storage medium such as a CD, an FD, an optical disk, or a transmission medium by communication such as a wired, wireless, telephone line, or optical communication. 10. The mounting data creating method according to claim 7, wherein a component electronic catalog storing component text data together with image data is used. 11. The mounting data created by the mounting data creating method according to claim 7 is input to control means of the mounting machine, and the control means operates the mounting machine based on the input mounting data. How to mount the parts to be controlled. 12. A mounting data generating apparatus for generating mounting data for a mounting machine to receive each component and mounting the component at a mounting position, wherein component text data of various components including a mounting target component is provided. From the part electronic catalog where is stored, the shape of the part corresponding to each mounted part,
Reads component text data including at least one of the following data: dimensions, colors, colors, reflectance, surface roughness, and surface material. A mounting data creation device for creating mounting data including at least one of a recognition method and an adjustment of a light amount and a type of illumination light for recognizing a component. 13. A mounting data generating apparatus for generating mounting data for a mounting machine to receive each component and mounting the component at a mounting position, wherein component text data of various components including a mounting target component is provided. Is read from the component electronic catalog in which the component text data including at least one data of the presence / absence and state of a lead and a cut lead of a component corresponding to each component to be mounted, a polarity mark, a print character, and a color code. A mounting data creation apparatus for creating mounting data including at least one of reading and reading of component text data for checking and correcting the mounting direction of a component and for checking a mounted component. 14. The electronic parts catalog is a storage medium such as a CD, an FD, an optical disk, or a transmission medium by communication such as a wired, wireless, telephone line, or optical communication.
3. The mounting data creation device according to 3. 15. A control for inputting mounting data created by the mounting data creating apparatus according to claim 12, and controlling operation of a mounting machine based on the input mounting data. A component mounting device provided with means.