JP3462197B2 - Component mounting equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention mainly relates to a component mounting apparatus for automatically mounting electronic components on a board by a mounting machine.

[0002]

2. Description of the Related Art There are various types of electronic parts mounted on boards for producing various kinds of electronic circuit boards, and there are heterogeneous parts that can be substituted. Inclusion of compatible third-party parts will further increase the number. In order to mount various electronic components on a board to create an electronic circuit board, it is necessary to select an electronic component that meets various needs set in the design of the electronic circuit. In addition, when mounting various electronic components on a board, it is necessary to give consideration so 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. is there.

The conditions to be taken into consideration are the type of nozzle and chuck for carrying electronic components, the moving speed of the mounting head having the nozzle and chuck, the nozzle for taking out electronic components from the component supply unit, and the mounting of electronic components. The required lowering position of the chuck, that is, the height position when taking out the component, the height position when mounting the component, the moving speed of the board on which even one electronic component is mounted, especially the acceleration, and various allowable values are set. is there.

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

On the other hand, at the mounting stage of electronic components, recognition of suitability and orientation of electronic components and replacement of incorrect components and correction of 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 shape and surface reflectance of electronic components, colors, colors, polarity marks, printed characters and color codes on components. There is a need to.

In order to select various electronic parts in accordance with circuit design needs and to create mounting data and inspection data for properly mounting the selected electronic parts, various electronic parts can be used for proper mounting. A parts catalog book in which detailed and complicated parts information is recorded and edited for each part has been used. For some parts, electronic parts are actually measured with a caliper or the like in order to obtain necessary data.

[0007] It is difficult to find an electronic component that meets the needs from such a parts catalog book, and the optimum selection of necessary parts depends on how carefully and carefully the parts catalog book for selecting parts is used. Spend a lot of effort and time.
Particularly in recent years, the needs have diversified and the types of electronic components provided have become enormous. Therefore, the amount of information further increases, and it becomes more difficult to select electronic components optimally.

In order to solve this problem, a so-called electronic parts catalog has been provided in which catalog information of electronic parts is treated as image data for screen display and edited and stored according to a predetermined classification. The image data of the electronic parts stored in this electronic parts catalog is read by a special reading device, personal computer, etc. according to a predetermined classification and search, and displayed on the screen. Be able to search and select parts in a reasonably short time. A storage medium called CD-ROM is used for this electronic parts catalog.
Image data for displaying various data of various parts on the screen as shown in FIG. 41 is a collection of character data such as numbers and characters, and drawing data regarding pictures, figures, etc.
Or image data file IMF divided appropriately
The parts electronic catalog EC, etc.

This electronic parts catalog EC is an image in which various kinds of information such as the form and size of electronic parts, the surface condition, the characteristics, and the application range can be displayed on the screen in the form of photographs, drawings, tables and graphs. This is data, and naturally includes information for creating mounting data for components.

The flowchart of FIG. 42 shows a procedure for creating conventional component mounting data using such a component electronic catalog EC. Explaining this, the electronic parts catalog is loaded into the reading device, and the screen is read. Then, according to a predetermined classification and search procedure, a command is input by operating the search key and setting the condition. As a result, the command analysis section performs a search and repeats command input until one electronic component is selected.

FIG. 43 designates a large class of transistors,
Subdivision of By-Polish Transistor (PNP) …… 2
It is a display screen obtained by searching SA and 2SB. This screen is in a search state in which the cursor is positioned in the column of the first component among the 62 relevant components. The user can search for any of the 62 parts by positioning the cursor in the required part field. by this,
By selecting one electronic component, it is possible to determine which image data is to be displayed on the screen, and various image data for the determined component can be displayed on the screen according to a predetermined procedure or user operation. Is displayed in.

For example, in the screen of FIG. 43, for example, 2SA10
When the 22 parts are searched and the explanation key is operated, FIG.
As shown in, image data regarding the initial description of the part 2SA1022 is displayed on the screen.

When search is selected on the screen of FIG.
A list of large classification display items that can be selected on the screen of No. 4 is displayed in a window as shown in FIG. When the outline drawing is selected by looking at the screen of FIG. 45 or directly from the screen of FIG. 44, image data regarding the outline as shown in FIG. 46 is displayed on the screen. When the land map is selected, image data regarding the land as shown in FIG. 47 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. 50 shows an initial explanation screen when searching for electronic parts of a motor control circuit called AN6650.
It shows a state in which image data regarding the characteristic curve is displayed in a window in accordance with the selection of the characteristic curve. 51. In the initial explanation screen of FIG. 50, the application circuit example is preferentially selected and displayed in the window, and the block diagram is further selected and displayed in the window.

The user can relatively easily select an electronic component that meets the needs of the circuit design while retrieving the component information, and various types of mounting data necessary for creating mounting data relating to the selected electronic component to be mounted. The component information of can also be visually recognized by the search operation. Further, it is possible to freely carry out a data search corresponding to the mounting method of the component by the chuck or the suction nozzle, the presence / absence of the component recognition and the difference in the method.

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

[0017]

However, in the conventional component mounting apparatus as described above, when the mounting machine receives the component supply from the component supply cassette, the generated mounting data is set by the mounting data. Since it is not designed to check whether the specified conditions and the conditions of the parts to be supplied match, even if the component supply cassette is installed incorrectly, the mounting machine will still operate and trouble will occur. There is a problem that production loss may occur, such as waste of time and mounting operation, repair of manufactured electronic circuit boards due to defects, and disposal, and when switching production types. When replacing the component supply cassettes with respect to the component supply unit of the mounting machine, the component supply cassettes are replaced one by one, so it takes a long time to replace them and the productivity is low. There has been a problem to say.

An object of the present invention is to solve such a problem, and when a component is supplied from a component supply cassette, the correctness of the mounting of the component supply cassette is judged to eliminate erroneous mounting of the component, An object of the present invention is to provide a component mounting apparatus capable of preventing occurrence of troubles and production loss, and efficiently exchanging component supply cassettes to improve productivity.

[0019]

In the component mounting apparatus of the first invention of the present application , the mounting machine is controlled in operation by the control means to receive supply of each component, and the supplied component is mounted at the mounting position of the board. It is a component mounting device that is equipped with a predetermined number of component supply cassettes and can be attached to and detached from the mounting machine, enabling the collective replacement of components.
The transfer table to be performed and the transfer table provided on the transfer table.
Stored parts information about each mounted parts supply cassette
And a memory for storing the
Read the stored parts information about each parts supply cassette
Reading means and a detection hand for detecting attachment / detachment of the transfer table
And a transfer means by the detection means.
It was determined that the parts had been replaced from the detection of the attachment / detachment of the table.
Of the component supply cassette replaced by the reading means.
It is characterized in that the stored parts information is read and the suitability of the parts is determined based on the information . Also, the component of the second invention of the present application.
The mounting device of each mounting machine is controlled by the control means.
Receiving the supplied components, place the supplied components on the board mounting position.
A mounting device for components to be mounted, which stores information on a predetermined number of storage components.
Transfer handling the parts supply cassette holding the information collectively
Installed on the base and the mounting machine, it stores the parts supply cassettes.
The reading means for reading the delivered parts information and the attachment of the transfer table.
And a detection means for detecting detachment, the control means,
From the detection of the mounting / dismounting of the transfer table by the detection means, the parts can be replaced.
When it was judged that there was, it was replaced with the reading means
Read the stored parts information of the parts supply cassette,
It is characterized in that the suitability of the parts is determined based on the above.

In the configuration of the component mounting apparatus of the first invention and the second invention of the present application, the stored component information held by each component supply cassette mounted on the mounting machine is provided on the transfer table.
Reads automatically from the stored memory, etc., and controls whether the conditions on the parts side such as the parts and arrangement supplied by the parts supply cassette match the conditions of the parts set in the mounting data. Since the means automatically discriminates, even if there is a wrong mounting of components, the mounting machine will continue to operate and trouble will occur, time and mounting operation will be wasted, or the manufactured electronic circuit board will be defective. It is possible to prevent the production loss such as repair and disposal, which is caused by the transfer table that handles a predetermined number of component supply cassettes at a time. Since they can be attached / detached in batches one by one, they are convenient for parts replacement and replenishment, and it is possible to improve productivity because it takes no time to replace the supplied parts.

According to the first invention of the present application, since the transfer table is provided with a memory for storing the stored part information about each of the component supply cassettes received on the transfer table, the transfer table can be received. the housing component information of each component supply cassettes are aggregated at one location of the transfer rack by reading can Rukoto, time read is not Kakekara, the productivity is improved.

[0022]

Further, in the first invention and the second invention of the present application
, The mounting machine has a detection means for detecting attachment / detachment of the transfer table ,
When the control means it is determined that there has been replacement of parts from the detection of the transfer rack of removable, said reading means reading the housing component information of the exchanged component supply cassette racemate, propriety of <br/> component based on this der those having means for determining Runode, while parts replacement is performed by mistake, or caused trouble mounting machine is operated, it is possible to prevent the time and mounting operation to become useless.

[0024] In the second invention, when the housing part information of the component supply cassette Ru Oh a bar code, each for housing a component in the component supply cassette, by providing a bar code corresponding to the component on the component supply cassettes , It is possible to easily store the proper storage component information in the component supply cassette without requiring a special device.

[0025] In the second invention, when the housing part information of the component supply cassette Ru der those stored in the storage medium can be read and written, even if switched is part for accommodating the component supply cassette, stored in the storage medium It is convenient to rewrite the stored parts information so as to correspond to the switched parts, and it is convenient because it is not necessary to replace the means for holding the stored parts information one by one.

[0026] The storage medium, the Ru Daseru optical memory der read by infrared communication, the stored contents of the optical memory in which each component supply cassette loaded in the mounting apparatus has sequentially by infrared communication means located in one place Can be read
Since neither the reading means nor each component supply cassette needs to be moved to read the stored component information possessed by each component supply cassette, it is possible to perform the reading in a short time and improve the production efficiency.

[0027] In the second invention, the storage component information when der Ru those carried on the carrier that can be detachable from the component supply cassettes, various supplemental components and various carrying housing component information corresponding to these Manage the carrier of
Whenever a component is stored in the component supply cassette, a carrier carrying the component information corresponding to the component is attached to the component supply cassette, so that the stored component can be easily and definitely changed.

In the second invention, there is provided a writing means for writing various information in the storage medium or updating the written contents, and the control means has the number of used parts mounted on the mounting machine, the remaining amount, the quality of the parts, Manages component mounting information related to component mounting such as component mounting information such as component mounting rate such as chuck and suction nozzles with respect to the total number of supplied components, and mounting ratio to the board. the removal point of the cassette, by exercising writing means before the removal, writes the mount component information and component mounting information into the storage unit, or when configured to update the contents written, the control means is implemented in the mounter Information on various mounted parts such as the number of used parts, remaining amount, quality of parts, etc. The component mounting information regarding the component mounting such as the component retention rate due to the slip and the board mounting rate is managed, and at the time of removal of the component supply cassette, the writing means is operated prior to this removal, and the mounted component is mounted. Since the information and component mounting information are written in the storage means or the written contents are updated, the number of used components to be mounted,
Various parts information related to the parts to be mounted such as remaining number and quality, holding ratio of parts by chuck or suction nozzle with respect to the total number of supplied parts, and various kinds of mounting related parts such as mounting ratio to the board. Information can be stored in the component supply cassette to be removed, and it can be used as a reference when mounting the next component, and can be used to judge that there is a difference between the component catalog data and the actual component size, and a more appropriate Convenient for comprehensive management of components to be mounted and their mounting status, such as enabling parts to be supplied and correcting or changing mounting conditions so that they are mounted more appropriately, and various responses based on these Becomes Etc.

[0029]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a component mounting method and an apparatus therefor according to embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) The present embodiment 1 is shown in FIG.
As shown in (a) of the above, when the mounting data is created by using the data processing device 203 different from the mounting machine 2 and the electronic data is mounted by using the mounting data for the operation control of the mounting machine 2. Is shown. This data processing device 203 has a data reading processing means 201 and a data creation processing means 202 as shown in FIG. 1B as internal functions.
The data processing device 203 is preferably a personal computer, but is not limited to this and may be a dedicated device. In some cases, a control system that controls the operation of the mounting machine 2 can be used.

The mounting machine 2 is equipped with a required number of component supply cassettes 14 on which taping components are mounted, receives the required electronic components from the component supply cassettes 14 each time, and supplies the electronic components each time the components are supplied. It is automatically mounted on the board 1. For this automatic mounting, a data processing device 208 is provided in addition to the control means 102 for operation control. This data processing device 208 has a display 20.
N is the mounting position data for each mounting target component with 9
The C program, the supply library relating to the component supply state such as the arrangement of the components in the component supply section, and the component library for accurately and surely recognizing and mounting the supplied components at a predetermined position Control data N used by the control means 102 to create a program for supply and operation control for mounting the supplied parts at predetermined positions
And The control means 102 uses a microcomputer as shown in FIG. However, it is not limited to this.

The data read-out processing means 201 is preliminarily created together with image data for various parts including the parts to be mounted based on the position data A as shown in FIG. 24 regarding the mounting position created for the parts to be mounted, and the parts electronic catalog 212. Shape, dimensions of the part,
The component text data b for each component to be mounted at each mounting position is read out by automatic data processing from the component text data B shown in FIG. The data creation processing unit 202 performs automatic data processing of the mounting position data A and the data including the component text data b for each mounting target component at each mounting position read by the data reading processing unit 201, thereby performing the mounting machine 2 Receives the supply of each component and creates mounting data C for mounting them at a predetermined mounting position on the board, and controls the operation of the mounting machine 2 based on the created mounting data C to mount the electronic parts on the board 1. It is automatically installed at predetermined positions in sequence.

This mounting data C is, for example, as shown in FIGS.
9 is an NC program, a component library, an array program as a supply library, and a component supply position library relating to the condition of the component take-out position at the time of component supply by a tray.

The mounting position data A is, for example, the CAD device 21.
The mounting position data may be input to the data processing device 203 each time the mounting position data is created, or all the mounting position data created may be stored and transferred to the data processing device 203. Alternatively, a storage medium storing the mounting position data C may be loaded into the data processing device 203 and used. Here, the component text data B shown in FIG. 25 is stored in the component electronic catalog 212. The electronic parts catalog 212 is shown in FIG.
The image data IM about various parts including the parts to be mounted and the part text data B required for mounting the parts such as shape, size, packing form, and color of each part are edited and stored according to a predetermined classification. It is a thing. Therefore, by using the image data IM and the component text data B together, various information about various electronic components can be displayed on the screen according to a predetermined procedure and a search, and can be used as a conventional component electronic catalog. The interface for this is either the electronic component catalog 212 side or the data processing device 2
It may be held on either side of 03. Further, it is possible to display necessary screens for various electronic components only with the image data IM.

The parts electronic catalog 212 is a CD-ROM,
Although there are flexible disks, optical disks, etc., any storage medium or storage device may be used. The storage medium is
The image data IM and the component text data B may be transmitted by communication.

As described above, according to the first embodiment, the component electronic catalog 212 mounts the image data IM of various electronic components including the mounted components, as well as the components such as shape, size, packing and color of the component. Utilizing the fact that the necessary component text data B is also stored, the mounting target component information of the mounting position data A created in advance for each mounting target component is used in addition to the conventional screen search as the component electronic catalog. Of the component text data B stored together with the image data IM in the component electronic catalog 212, the corresponding component text data b is automatically read, and the component text data b for each mounting target component at each mounting position is read. Of the mounting position data A and the data including the component text data b for each mounting target component at each mounting position. In the conventional automatic data processing, for example, an NC program regarding the mounting position of the component required by the conventional mounting machine 2, a component library regarding the recognition of electronic components such as the shape, size, and color of the component, and a component supply unit. It is possible to create necessary mounting data C called a supply library relating to the supply state of parts such as the arrangement of parts in the above, and to supply each part to the mounting machine 2 as in the past and mount them at a predetermined mounting position. The mounting data C for performing the mounting can be created by the automatic data processing and used for the operation control of the mounting machine 2, and various electronic components can be automatically mounted. Each time a new circuit board is manufactured, each mounting target component is mounted. Since it is not necessary for a person to individually input various component data necessary for creating the mounting data C, the product type can be changed in an extremely short time and the productivity is improved.

However, depending on the model of the mounting machine 2 and the control level, the mounting data C corresponding thereto is created. Further, when the mounting data C is created in consideration of the characteristic data of the mounting machine 2 as well, the mounting data C that matches the characteristics of the mounting machine 2 can be created, and the component mounting tact becomes the shortest. The more appropriate mounting of parts, which means that there is no overkill or failure, is realized. The mounting data C can include inspection data for accurate component mounting. This is because it is determined whether the component itself held by the nozzle or chuck or the orientation of the component is proper, and if it is a wrong component, it is replaced and properly mounted. The inspection data for doing the above is generated by the component text data b which is obtained for each component, and proper inspection data can be automatically obtained for the component to be mounted, and the required labor and time are the same. Proper inspection can be performed, and accurate component mounting can be guaranteed.

As shown in FIGS. 1A and 2, the mounter 2 according to the first embodiment has orthogonal XY2 for mounting electronic components on necessary parts of the electronic circuit board 1 on the front part. The board 1 is received on the XY table 3 that moves in the direction, and the position for mounting the electronic component is sequentially moved to the component mounting position so that the electronic component is mounted.

The left and right sides of the XY table 3 carry in the board 1 before mounting the electronic parts on the XY table 3, and the loading mechanism 4 carries out the board 1 after mounting the electronic parts on the XY table 3, and An unloading mechanism 5 is provided.

A component mounting head 6 for mounting electronic components on the substrate 1 is provided behind the XY table 3.
As an example, the component mounting head 6 is equipped with a plurality of suction nozzles 7 and chucks on a turntable (not shown), and electronic components supplied by a component supply unit 8 provided further rearward of the component mounting head 6 by the suction nozzle 7 Hold by adsorption,
N on the substrate 1 on the XY table 3 located in the front
It is mounted at a predetermined position according to the C program.

In the case of the first embodiment, the component supply section 8 is provided at two places on the left and right, and when one is in the component supply operation state, the other is in the standby state.
Each component supply unit 8 has a conveyance stand 9 having a rectangular planar shape as shown in FIGS. 3 to 5, and a hollow servomotor 11 fixed to the conveyance stand 9, and a ball screw shaft 12 of the servomotor 11 is attached to the conveyance stand 9. By rotating the screwed hollow motor shaft 13, the transfer stand 9 is moved to the ball screw shaft 12.
Move left and right along. The servo motor 11 of the operating-side component supply unit 8 operates to supply the component, and the servo motor 11 of the non-operating-side component supply unit 8 keeps this in a standby state.

In order to supply electronic parts to the mounting machine 2, the transfer stand 9 uses a transfer table 15 as shown in FIGS. 1 and 7 to 11, and conventionally, the electronic parts are delivered to the mounting table 15. Various known component supply cassettes 14 (FIG. 9) are equipped so that the required number of them can be positioned and detached. The transfer table 15 is provided with a Z-table structure that a conventional component supply unit has, that is, a structure that supports a large number of component supply cassettes 14 in the width direction so that they can be individually positioned and attached / detached.

In response to the use of the component supply cassette 14 for taping components in the first embodiment, the transfer table 15 has a box-shaped body frame 16 as shown in FIGS. 7 to 11. Above the front part of the main body frame 16, the front and rear two positions of the component feeding portion 14a of the component feeding cassette 14 are set to proper heights by the receiving rails 18a and 18b, and are received. The positional relationship between the front, rear, left, and right is regulated by the engagement of the positioning hole 20a with the positioning pin 20b of the component supply cassette 14. Further, the front and rear portions of the reel mounting portion 14b at the rear portion of the component supply cassette 14 are received by the concave-convex guides 19a and 19b, and lateral shake is prevented.

Such a positioning support state can be firmly held by operating the fixing lever 17a of the clamp mechanism 17 shown in FIG. 9 to engage the clamp hook 17b with the receiving rail 18b, and the engagement is released. By doing so, the positioning and holding of the component supply cassette 14 is released, and the component supply cassettes 14 can be individually removed.
Therefore, each component supply cassette 14 can be replaced on the transfer table 15.

In the first embodiment, for example, 60 component supply cassettes 14 which are required to supply components to the mounting machine 2 which is the target work machine in one component supply unit 8 are positioned and attached / detached. Equipped so that you can.

The transfer stand 9 includes a component supply cassette 14
The mounting table 15 equipped to position and attach / detach each of the components can be mounted so as to be positioned and attached / detached as a whole, and electronic components can be selectively supplied from the component supply cassettes 14 to the mounting machine 2. It is like this. In order to selectively supply the electronic components, the transfer stand 9 of the component supply unit 8 which is in the operating state is moved to the left and right by the servo motor 11, and the component supply cassette 14 that can supply the required electronic components is mounted on the component mounting head. 6 is moved to the component supply position.

As already known, the component mounting head 6 drives the drive lever 1 of the component supply cassette 14 from its own side.
Each time 4c is pushed, the component supply cassette 14 is activated to receive one electronic component, which is suction-held by the corresponding suction nozzle 7 or chuck and mounted on the substrate 1.

By the way, regarding the component supply cassettes 14 that are individually positioned and held on the transfer table 15, what is required must be correctly positioned at the component supply position at any time by the left and right movement of the transfer stand 9. Accurate positioning of the table 15 on the transfer stand 9 is also required. Therefore, the transfer table 15 of the transfer stand 9 moves in and out of the insertion / removal path 21 in the direction of the arrow shown in FIGS. 3 to 5, and the first positioning means 22 that operates in the out / in direction and the direction that is perpendicular to the in / out direction. A second positioning means 23 is provided. In addition to the positioning means 22 and 23, a plurality of guides for guiding the transfer table 15 from the left and right sides so that the transfer table 15 can be smoothly taken in and out without being twisted or caught. Roller 24a,
24b.

Further, the rail member 25, which is made of a material excellent in wear resistance, is dimensioned and positioned with high precision so that the support height of the transfer table 15 is accurate,
As a result, as shown in FIG. 6, the rail member 26 similarly provided on the transfer table 15 side is received and supported and guided. The transfer table 15 also includes a rail member 26 and a guide roller 24.
The guides a and 24b are received from the side so that they can be smoothly taken in and out.

As shown in FIG. 4, FIG. 5, FIG. 10, and FIG. 11, the first positioning means 22 receives the positioning roller 31 at the front end of the transfer table 15 to be received at a predetermined receiving position. The stop block 32 and the pressing block 3 that presses the transfer table 15 on the receiving block 32 side from the rear via a positioning roller 34 provided at the rear portion of the stop block 32 to sandwich the transfer block 15 between them and position the transfer table 15 in the withdrawal direction.
3 and 3.

The pressing block 33 is supported by a compound lever mechanism 37, and when the pressing block 33 is moved forward and backward by an air cylinder 38, the pressing block 33 projects into and out of the passage 21 as shown in FIG. As shown by the phantom lines in FIGS. 9 and 10 below the loading / unloading path 21, the positioning is released and the state is changed to a position where the loading / unloading operation of the transfer table 15 in the loading / unloading path 21 is not hindered.

As shown in FIGS. 4 to 6, the second positioning means 23 has one side receiving block 35 for receiving the transfer table 15 from the side of the loading / unloading path 21 to a predetermined position, and the one side receiving block 35. It is configured by a roller type eccentric shaft 36 which presses the transfer table 15 from the other side and holds it between them to position the transfer table 15 in a direction perpendicular to the inserting / removing direction. The eccentric shafts 36 are provided at two positions in the front and rear in the approximate center of the loading / unloading path 21. The eccentric shafts 36 are rotatably driven by the dedicated air cylinders 41 via the levers 40, respectively. By pressing the block 42 or releasing the pressing, the positioning is performed or the positioning is released.

The guide rollers 24a and 24b guide the transfer table 15 to be taken in and out with a slight play from the left and right, and the one on the side of the one side receiving block 35 is located slightly outside of this. Therefore, the positioning of the transfer table 15 by the second positioning means 23 using the one side receiving block 35 is not hindered.

Although the eccentric shaft 36 is exposed to the loading / unloading path 21, during the loading / unloading operation in the loading / unloading path 21,
It is sufficient that the lower surface of the bottom of the transfer table 15 does not interfere with this, and the positioning block 42 is accurately positioned and has excellent wear resistance so that the positioning is accurately achieved. ing.

Further, in the transfer stand 9, if the transfer table 15 is taken in and out while the rail member 25 of the transfer stand 9 and the rail member 26 of the transfer table 15 are in contact with each other, the friction resistance of both works and the transfer table 15 is moved. The rails 25 and 26 cannot be easily taken in and out, and this also causes early wear of the rail members 25 and 26. Therefore, in order to avoid these things, in this embodiment, as shown in FIG.
As shown in FIG. 6, a free flow conveyor 44 parallel to the rail member 25 is provided inside the rail member 25.

On the upper surface of the free flow conveyor 44, a large number of guide protrusions 44b which are projected and retracted by air operation are arranged in the front-rear direction, and when the guide protrusions 44b project upward, the rail member 26 of the transfer table 15 is pushed up. Rail member 25
From the guide rods 44b
By receiving the air cushioning property in a light contact state by the upper end of the, it can be lightly and quietly taken in and out with less frictional resistance.

The transfer stand 9 is further provided with an air cushion cylinder 46 that comes into contact with a block 45 fixed to the transfer table 15 immediately before the transfer table 15 is sent to a predetermined position and abuts against the receiving block 32. Is provided (FIG. 4, FIG. 5, FIG. 6, FIG. 9), and the impact when the transfer table 15 is fed is mitigated by the actuator 46a. A handle 47 for pushing and pulling the transfer table 15 is attached to the rear of the transfer table 15.

In order to exchange the transfer table 15 equipped with a large number of component supply cassettes 14 with the transfer stand 9 of the component supply section 8, a carriage 61 as shown in FIGS. 2 and 7 to 10.
Is used. The carriage 61 has a frame-shaped main body 63 having traveling wheels 62, and a transfer table support portion 65 whose height is adjusted by a toggle mechanism 64 is provided on the main body 63. The transfer table 15 is held and the height is adjusted, and the level of the transfer table 15 of the component supply unit 8 is adjusted so that the transfer table 15 can be handed over without being caught.

The transfer table support portion 65 has guide rods 66 provided at two front and rear positions and a guide tube 6 provided at the front and rear of the main body 63.
It is supported and guided by 7 so that it can be raised and lowered. A toggle mechanism 64 is provided between the main body 63 and the transfer table support section 65, and the toggle mechanism 64 rotates and rotates the screw shaft 167 by the handle 68 to bend and expand the transfer table support section 65. Therefore, the height of the transfer table 15 can be adjusted by bending and extending the toggle mechanism 64 with the handle 68.

As shown in FIGS. 7 to 9, the transfer table supporting portion 65 is of a frame type, and the guide rollers 71 for receiving the transfer table 15 at the rails 26 of the frames 69 on both sides from below.
Is provided so that the transfer table 15 can be easily taken in and out.
However, at the predetermined support position, the buckle 72 of the holder 72 is
The a is held by being connected to the hook 80 of the transfer table 15 so that the transfer table 15 does not fall off. As a result, the transfer table 15 can be placed on the carriage 61 and moved freely. In addition, the transfer table supporting portion 65 has a side guide 70 made of a slippery material such as a synthetic resin that guides the transfer table 15 received on the transfer table 15 from the left and right, and the transfer 61 while the carriage 61 is moving. Rattling of the table 15 can be sufficiently prevented.

Further, in order to exchange the transfer table 15 with the transfer stand 9 of the component supply section 8, it is required to be stable at a predetermined position. To satisfy this, the main body 63
A stand stopper 73 is provided at a part of the main body 63 to move up and down by a foot pedal 74. When the stand stopper 73 descends, the stand stopper 73 comes into contact with the floor surface and stretches between the main body 63 and the floor surface. Is prevented from moving on the running wheels 62, and the stand stopper 73 is lifted to release the tension between the main body 63 and the floor surface so that the main body 63 can be freely moved by the running wheels 62. To The carriage 61 is provided with a handle 90 for movement.

Further, when the carriage 61 is in a predetermined positional relationship with the transport stand 9 of the component supply section 8, the connecting bracket 75 connecting the two is connected to the carriage 61 and the connecting rod 76 is connected to the component supply section 8. Connection rod 7 provided respectively
6 is moved back and forth by the air cylinder 77 to connect the connection,
This connection is released.

Whether or not the transfer table supporting portion 65 and the transfer stand 9 in the component supply section 8 have the same support height with respect to the transfer table 15 determines whether the transfer table 15 is delivered between the two. It is important because it affects whether it can be done easily and smoothly without getting caught or twisted. Therefore, in this embodiment, the transfer table supporting height of the transfer table supporting portion 65 of the vehicle 61 between the carriage 61 and the component supply unit 8 is set to the transfer table 1 by the transfer stand 9.
Height detection means 78 is provided to determine whether the height is equal to, higher than, or lower than the support height of No. 5. Thereby, the height adjustment of the transfer table support part 65 by the toggle mechanism 64 can be appropriately achieved in a short time.

As shown in FIGS. 8 to 10, the height detecting means 78 is a slit plate 78a provided on the transfer table supporting portion 65.
And the photo couplers 78b to 78 for detecting the height of the slit plate 78a or the set height in three stages.
d and.

An example of a procedure for collectively replacing the component supply cassette 14 in the component supply unit 8 will be described below.

First, while components are being supplied by the component supply unit 8 of the mounting machine 2 of FIGS. 1 and 2, at the same time, as shown in FIG. 12, on the transfer table 15 mounted on the carriage 61. The necessary number of component supply cassettes 14 are individually mounted so that they can be individually positioned and detached, and preparations for the next component replacement are made.
Therefore, in order to replenish out-of-stock parts, a parts supply cassette 14 accommodating the same parts as the parts currently being supplied by the parts supply unit 8 is equipped, and if the kind of parts changes, change The component supply cassette 14 accommodating the following new components will be installed.

In the present embodiment, one of the two component supply units 8 supplies the component and the other supplies the standby state. Therefore, the component on the transfer table 15 equipped in the component supply unit 8 is supplied. When the supply cassette 14 is out of stock, or when it is necessary to switch the parts to be supplied at the time of the next part supply, the parts supply unit 8 is put in the standby state Detects if replenishment or replacement is required,
As it is displayed, the parts supply unit 8 in this standby state
The transfer table 15 is taken out, and a new parts supply cassette 14
The parts are collectively replaced by replacing the transfer table 15 equipped with. The batch exchange of the parts to the parts supply unit 8 by the transfer table 15 can be detected by the microswitch 101 shown in FIGS. 3, 4 to 6 and 11 provided on the transfer stand 9, and based on this detection. The suitability of parts after batch replacement is automatically determined. However, this determination can also be applied to the components that are initially mounted by the transfer table 15 at once.

When the transfer table 15 is sent to the transfer stand 9 and is in the mounted state, the micro switch 101 is pushed by this and turned on to detect the mounting of the transfer table 15. When the transfer table 15 is pulled out of the transfer stand 9 and released, the pushing by the transfer table 15 is released and turned off, and the removal of the transfer table 15 can be detected.
It is possible to determine that the transfer table 15 is mounted by the change of the transfer table 15 of 01 from the non-detection state to the detection state,
It is possible to determine that the parts are collectively replaced by the transfer table 15 by changing from the detected state of the transfer table 15 to the non-detected state and then to the detected state again.

Such discrimination is performed by the control means 102 shown in FIGS. 1A and 1B for controlling the operations of the mounting machine 2 and the component supply unit 8, for example. Therefore, the control means 102 has a dedicated operation panel 10 for the component supply unit 8.
The ON / OFF signal from the switch 101 is input together with the operation signal from No. 3 and the detection signals from the photocouplers 78b to 78d of the height detecting means 78 and various detection signals of the operating state. Operation panel 1 in some cases
03 can also be shared with the operation panel of the mounting machine 2.

In addition, in order to determine the suitability of the replacement part, FIG.
As shown in FIGS. 3 to 21, the transfer table 15 is provided with a memory 104 to store information about each component housed in each component supply cassette 14 mounted on the transfer table 15. This storage is preferable because the mistakes are lessened each time the transfer table 15 is equipped with each component supply cassette 14 as shown in FIG. However, it is not limited to this,
It may be another time, such as the time when the necessary parts supply cassette 14 is completely installed.

A readable / writable memory is adopted as the memory 104, and corresponding to this, the parts supply section 8 side is shown in FIGS.
As shown in FIG. 3, a read / write means 105 for reading / writing component information from / to the memory 104 is provided, which is also connected to the input / output port of the control means 102. The component information is the number of components accommodated in each component supply cassette 14 in addition to the type of component, and the number of components records the number of uses and the number of remaining components as the components are supplied, and determines whether the component is out of stock. Then, it is applied to other uses.

Of course, the memory 104 may be a read-only memory, in which case a read-out means may be used instead of the read / write means 105, which simplifies the configuration and control.

On the output side of the control means 102, the mounting machine 2, the component supply section 8, and an indicator lamp 10 showing whether or not various operating states are appropriate.
0, and an alarm means 106 including a character display on the operation panel 103, a buzzer, a display lamp or an appropriate combination thereof for issuing an alarm when the determination result of the parts is incorrect, the air cylinder 77, the first , Second
Positioning means 22, 23, free flow conveyor 44
Etc. are connected and the operation is controlled. The display lamp 100 can be shared with the alarm means 106.

The control means 102 manages the remaining number of components in each component supply cassette 14 mounted in the component supply unit 8, and when the component shortage occurs, it is displayed by the display lamp 100 and the operation panel 103, and is also required. A warning sound is emitted in response to the notification to inform the operator.

FIG. 13 shows an initial operation of a procedure for pulling out the transfer table 15 equipped with the out-of-stock component supply cassette 14 from the component supply section 8 in the standby state. As shown in (a) of FIG. 13, the empty carriage 61 is made to face the component supply unit 8 in the standby state to have a correct positional relationship. In this state, the air cylinder 77 is operated by the operation of the truck lock key on the operation panel 103, and the connecting rod 76 is engaged with the connecting bracket 75 as shown in FIG. Try to fix it. In this state, the stand stopper 73 is operated to prevent the main body 63 from moving undesirably at the connecting position.

After that, the height adjustment of the transfer table support section 65 and the component supply section 8 on the cart 61 is performed by the toggle mechanism 64. The height adjustment is performed so that the display lamp 100 is lit in green indicating the properness upon detection by the height detecting means 78 as shown in FIG. 14 (b).

When the height adjustment is completed, the automatic first and second positioning means 22 and 23 are automatically operated to the positioning release state by operating the positioning keys on the operation panel 103, and then the operation panel is operated. The free flow conveyor 44 is moved upwards by operating the free flow key 103 or the like to bring it into a ready state.

Upon completion of this preparation, as shown in FIG. 15, the transfer table 15 on the component supply section 8 is transferred to and from the dolly 61, and is drawn out onto the transfer table support section 65 of the dolly 61. The removal of the transfer table 15 from the transport stand 9 at this time is detected by the microswitch 101. When the transfer table 15 is placed at a predetermined position on the carriage 61, (a) in FIG.
The buckle 72a of the holder 72 is held on the carriage 61 by engaging the hanging metal fitting 80 in the procedure shown in FIG.

Then, by operating the trolley lock key again, the connection between the trolley 61 and the component supply section 8 shown in FIG. 16 by the connecting bracket 75 and the connecting rod 76 is released, and the stand stopper 73 is raised. Release the movement blocking state.

After that, as shown in FIG. 17, the carriage 61 is moved to a predetermined work position. The movement of the carriage 61 from the component supply unit 8 is performed by each photocoupler 7 of the height detecting means 78.
Control means 102 indicates that 8b to 78d are in the non-blocking state.
The display lamp 100 is turned off. The working position is a place for performing work such as re-accommodating a new component in the vacant component supply cassette 14 or replacing the component supply cassette 14 with a component required next.

The parts supply section 8 after the carriage 61 has moved has a transfer table 15 equipped with the respective parts supply cassettes 14 each containing a necessary number of necessary parts prepared in advance or newly prepared. The loaded cart 61 is moved from the work position as shown in FIG. When the predetermined positional relationship is established, the dolly 61 is connected to the component supply unit 8 by operating the dolly lock key. Also in FIG.
As described above, the stand stopper 73 is actuated in the same manner as described above to prevent the movement of the carriage 61, and the height of the transfer table 15 is adjusted.

When this is completed, as shown in FIG. 20, the transfer table 15 on the dolly 61 is delivered to and from the component supply unit 8 and fed from above the dolly 61 onto the component supply unit 8 for collective replacement. I do. Next, the free flow conveyor 44 is lowered by re-operation of the free flow key on the operation panel 103, and then the first and second automatic operations are automatically performed by operating the positioning key and the like.
The positioning means 22 and 23 of the
The upper transfer table 15 is positioned.

The emptied trolley 61 can be moved to the work position again as shown in FIG. 21 and used for the next preparation.

The control means 102 controls the parts discriminating process according to the flow chart shown in FIG. 22 for the parts which have been collectively replaced, and the micro switch 101 indicates that the transfer table 15 has been attached / detached in step # 1. Only when the determination is made based on the on / off history of, the component determination control of step # 2 and thereafter is executed. Operation panel 1 in step # 2
The selection of the operation mode by the mode selection key on 03 is accepted. The operation mode to be selected is, for example, an operation mode in which the suitability of parts is not determined, all points are selected, or only necessary parts are selected. The parts that need to be identified are those that are out of stock,
The present invention relates to a part or the like which is a switching target due to a change in the type of product, and may be input by an operation on the operation panel 103, or may be automatically designated by the control means 102.

Incidentally, it is also possible to always determine the suitability of the components for all the component supply cassettes 14 without setting the operation mode as described above.

At step # 3, the selected operation mode is determined, and the process proceeds to the parts discriminating subroutine at step # 4. As shown in FIG. 23, the parts determination subroutine of step # 4 controls the steps from step # 12 onward only when there is no parts determination in step # 11. In step # 12, the transfer stand 9 of the component supply cassette 14
By the position control of the transfer table 15 positioned above, the memory 104 on the transfer table 15 is positioned with respect to the read / write means 105 on the component supply unit 8 side, and the process proceeds to step # 13.

In step # 13, the component information according to the selected operation mode, that is, the component related to the component supply cassette 14 at all points or the component related to the designated component supply cassette 14 is read from the memory 104. . Next, in step # 14, the read out component information is collated with a preset necessary component list,
Determine whether the target parts after batch replacement are proper or not.

The mounting machine 2 of the first embodiment has a component inspection means 222 in which an illumination device and a recognition camera are combined in order to determine whether or not the electronic component held by the nozzle 7 or the chuck and the orientation are appropriate. The data for this inspection is generated from the component text data B by the data processing device 203 and included in the mounting data C. Thereby the control means 102 receives it via the data processing device 208,
The suitability of the component can be inspected as a reference for the component discrimination by the inspection means 222. Therefore, proper inspection data can be automatically obtained for the component to be mounted, the required labor and time are the same, and the component can be more properly inspected, and accurate component mounting can be guaranteed.

Since a predetermined number of the component supply cassettes 14 can be collectively handled and exchanged by the transfer table 15, it is convenient for exchanging and replenishing parts, and the information of the stored parts of each component supply cassette 14 can be transferred. Since the data are collectively provided in the memory 104 or the like provided in 15, and can be read at one place by the reading / writing means 105, the reading does not take time and the productivity is improved. Since the memory 104 can be read and written, it is convenient because the mounting status of the mounting machine 2 can be written and used as a material for component management suitable for the mounting status.

The component supply cassette 14 has a microswitch 101 as a detection means for detecting the attachment / detachment of the component supply cassette 14, and when the control means 102 determines from the attachment / detachment of the component supply cassette 14 that the component has been replaced.
Since the stored component information is read and the suitability of the component is determined, it is possible to prevent the mounting machine from operating while the component is replaced incorrectly, resulting in trouble, and wasting time and mounting operation. .

In particular, if the stored component information is read for all of the component supply cassettes 14 in the batch exchange unit that has been exchanged, all the component supply cassettes that have been collectively exchanged will not be discriminated and all of them will be replaced. It can be easily dealt with.

It is preferable that the control means 102 has an internal or external storage means for storing substitute part data of a substitute part for a mounting target part or a substitute part such as a compatible companion part. In this way, if the suitability of the part is not suitable, it can be determined whether or not it is the corresponding substitute based on the substitute part data, and even if the substitute part is used when the part runs out. Since it is possible to automatically determine the suitability of the mounted component by automatically responding to this, it is possible to prevent a trouble that is determined as an erroneous component due to the use of the substitute component.

Electronic parts catalog 212 of the first embodiment
Stores both the part text data B and the image data IM corresponding to various parts, and can be used also as a parts electronic catalog for displaying the information of various parts on the screen according to a predetermined search procedure as in the conventional case. ing. Therefore, the data read processing unit 201 reads both the image data IM and the component text data B for each component stored in the component electronic catalog 212 for each same component in accordance with a predetermined search operation, and outputs the video signal. It is given as D to the display 213 of the data processing device 203 so that it can be displayed on the same screen. In addition to this, the component text data b corresponding to each electronic component can be output to another by the output operation.

Therefore, in a 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 212 is displayed on the same screen of the display 213, and various types are displayed. It can be used for searching and selecting a certain part, and can output the part text data b to other parts as needed, so that it can be used for various data processing.

Further, as described above, the component text data B
If the storage means that stores the data is external to the device, such as the component electronic catalog 212, various data can be input independently of the data processing device 203, which is the mounting data creation device. You can easily change or add data. Moreover, it can be shared by various mounting machines 2.

Incidentally, the parts electronic catalog 212 storing the parts text data B may communicate information by communication, and communication may be performed by wire, wireless, telephone line,
The communication method called optical communication does not particularly matter. According to the communication, there is an advantage that one storage means is not limited to the installation place of the mounting machine and a large number of mounting machines 2 can share it, and it is also convenient for creating, managing, changing and adding the component text data B.

Further, the data processing program executed by the data processing device 203 is executed by a CD as shown in FIG.
It can be stored in an external storage medium 215 called a ROM and used. This program, as mentioned above,
The component electronic catalog 2 is created in advance for various components including the mounting target component based on the mounting position data A regarding the mounting position including the mounting angle generated for the mounting target component.
From the component text data B required for mounting the component such as the shape, dimensions, packing style, and color of the component stored in 12, the component text data b corresponding to the mounting target component at each mounting position is read out. From the processing program 215a, the mounting position data A, and the data including the component text data b for each component read by the data reading processing unit 201 regarding each mounting target component corresponding thereto,
Is a data creation processing program 215b that receives the supply of each component and creates mounting data C for mounting them at a predetermined mounting position.

In this way, various programs can be input independently of the data processing device 203, which is the mounting data creation device, and the program can be easily changed or added. Moreover, it can be shared by the mounting machines 2 of the same type.

The creation of the mounting data C will be described more specifically. An NC program showing a component mounting position, a component library for recognizing various electronic components, and a supply of various electronic components, which are mentioned as representative examples, are provided. In addition to the supply library regarding the state, a component supply unit 8 that mounts a large number of component supply cassettes and operates to supply the selected component to the mounting machine 2 while moving in the feed axis direction.
Instruction data of the mounting position of the component supply cassette 14 in the above, further, in the case of using a tray for component supply, data for setting the initial take-out position of the accommodated electronic components, or other necessary data. Will be created. FIG. 32 is an operation screen of the display 213 in the mode of generating the parts library. A search for an electronic component corresponding to each component mounting position in the component position data A is performed with a start key 216 and a cancel key 217, and another start key 218 and a cancel key 219 are searched.
Based on the component text data b read from the component text data B corresponding to the retrieved electronic components and the component position data A, the component library 220 corresponding to the component library generation model set by It is automatically generated.

Other items to be considered in mounting components are the types of nozzles and chucks that carry electronic components, the moving speed of the mounting head that has nozzles and chucks,
There are required lowering positions of nozzles and chucks when mounting electronic components, that is, mounting height on a substrate, moving speed of a substrate on which electronic components are mounted, particularly acceleration, and various allowable values. In addition, these various electronic components are taped to be automatically supplied to the mounting machine or are handled by being accommodated in a tray. However, the so-called package including such a component supply mode and the component storage pitch in that case is used. It is also necessary to consider appearance conditions. With the component text data of such a component, the mounting data C including the mounting position instruction data and the initial take-out position instruction data can be automatically created.

Further, in order to perform the suitability inspection more accurately at the mounting stage of the electronic component, the shape and surface reflectance of the electronic component, the color, the color, the polarity mark, the printed character and the color code on the component are referred to. Parts text data B related to electronic parts
The necessary inspection data can be automatically created as the mounting data C by the component text data B.

In some cases, the inspection data of the product circuit board after the mounting of the electronic components is automatically generated and can be used by the mounting machine 2 itself or an inspection machine attached to the mounting machine 2. .

When the component text data B includes data such as the material of the package of the electronic component, the surface roughness, the code such as the surface shape, the component shape dimension, and the weight of the component, the electronic component is sucked by the nozzle. Mounting data C, which is optimal for gripping with a chuck, the moving speed of a component mounting head equipped with a nozzle or a chuck, the suction force, the moving velocity of a substrate after electronic components are mounted, In particular, mounting data C such as acceleration and various allowable values, as well as tape and tray supply forms such as tape and tray supply forms, especially the presence of covers and the presence of push-up pins, tape and tray component storage pitch, tray Then, if the mounting data C includes the number of rows of storage and the pitch between rows, etc., the presence / absence of the peeling operation of the cover, the presence / absence of the operation of the push-up pin, and the component feed pitch Out one difference by 1 pitch feed, it is possible to set the mounting condition say once strike two pitch feed.

The component text used in the first embodiment will be described below.
Example of data B will be described.
Parts electronic catalog 2 of parts text data B related to products
Recording to 12 is performed by the component master file as shown in FIG.
Le B₁, Part shape file B ₂Part special shape file B
₃, Parts characteristics master file B_Four, Packing file
B _Five, Parts polarity file B₆, Reel information file B
₇Etc. However, such a classification format is
It can be set to any reason. In the component master file, the component name,
Manufacturer code, part classification code, part type code,
Shape code and packing style code are the highest level data,
These master data are called and displayed on the screen,
Displays the contents of the item selected according to the selection operation on the screen.
To do so.

With respect to the data of the component type, individual component type codes are manually added to the types of various electronic components. For the shape data, the code for each shape defined for managing the parts by shape is manually input.

Some of these examples are as follows.

The data contents of the part shape file are the shape code, the part type code, the presence / absence of leads, and the body outline L.
R, body-edge DU, body thickness, special body thickness, component height, allowable shape dimension, electrode width LDRU, electrode length LDRU, electrode height LDRU, and the like.

The data contents of the parts special shape file include shape code, target side number (L D R U), special electrode arrangement, special electrode existence position, special electrode width, special electrode length, special electrode height, and special root. The electrode width, special lead thickness, etc.

The data contents of the component characteristic master file are the component name, package color code, package material code and the like.

The data contents of the package file are package code, package type code, X-direction tray pitch, Y-direction tray pitch, X-direction component row number, Y-direction component row number, storage component number, tape width, tape. Feed pitch, taping direction / feed direction, etc.

The data contents of the component polarity file include the component name, presence / absence of polarity, polarity mark division, polarity mark shape dimension 1, polarity mark shape dimension 2, polarity mark X coordinate, polarity mark Y coordinate, polarity mark angle, left / right symmetry / Asymmetrical parts,
Etc.

The data contents of the reel information file are a part name, a packaging quantity, and the like.

Next, some examples of setting the component type code corresponding to each component type will be described below.

In the following, the chip component is a name for a surface mounting electronic component, such as a square chip resistor. Axial parts are parts with leads and of the type in which the leads are inserted into the holes of the board, and are the names of parts that are inserted in a horizontal orientation, such as resistors. The radial component is a component with leads, in which the leads are inserted into the holes of the substrate, and is the name of the component that is inserted in a vertically oriented state, and there is an aluminum electrolytic capacitor.

Regarding chip parts, Isolator: ATC Dielectric filter: BPP Aluminum electrolytic capacitor: CAPALR Cylindrical chip capacitor: CAPSYL Film capacitor: CAPPULM CC: CC Connector: CNT Mini diode: DIMINI New Mini Power Diode: DINMIHIPW S mini-diode: DISMINI Shared device: EZFA Receive 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 axial radial jumper parts, see R Bead core: R BCR Capacitor: R CAP R Three-terminal capacitor: R CAP3 A Bead core: A BC jumper wire: J JAMPER etc.

Further, some examples of setting the shape code corresponding to each component type are as follows.

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

Regarding chip parts, an isolator: ATCB57 (ATC + shape symbol 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 (length 2 + width 2 +
FC + height 2) CC: CC014B101008 (CC + pin number 3 + B
+ Length 2 + width 2 + height 2) New mini power diode: NMINIPWDIL3
15 (shape type 5 + component type 2 + L + number of leads 1 + height 2) and the like.

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

Further, the packing style code is as follows.

Paper tape (paper, paper adhesive): P0804 ○○
0 (the first digit P is the paper type code, N for adhesive paper)
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. In the next two digits, enter the system reservation. The last digit 0 indicates that the angle is 0 °. ) This angle code is 0 for 0 °, 1 for 90 °, 180
The degree is set to 2 and 360 degrees is set to 3.

Embossed tape: E0804081 (first one digit E is a type code. The next two digits 08 indicates a tape width of 8 mm, and the next two digits 04 indicate a tape feed pitch of 4 mm. Further next two digits 08 indicates the embossing depth. The last digit 1 indicates 90 ° in the above angle code.) Matrix tray: T1020 ○○ 1 (first 1 digit T is a type code. Next 2 The digit 10 is the number of rows in the Y direction, the next 2 digits 10 is the number of rows in the X direction, and the next 2 digits XX are sequential numbers under operator control in the order of 00 when the tray pitch is different. The last digit 1 is the angle code.) Stick: S08 ○○○○ 2 (The first 1 digit S is the type code. The next 4 digits ○○○○ is the system reservation. The last digit 2 is the angle code Bulk: B08 ○○○○ 3 (first 1 digit B is a type code. Next 4 digits ○○○○ is system reservation.
The last digit 3 is the angle code. ) Next, the cut lead is the name of a part with a lead and the lead is cut, and this code is not defined in the first embodiment, which is the cut lead code for the corresponding part. , 20 characters or less can be freely set. However, CUT0000 is set for the part having the number of cuts of 0.

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

Registration of these electrode shape names is performed by key input. This input can be done in Kanji.

Hereinafter, the parts electronic catalog 2 containing such parts text data B and image data IM
An example of using 12 as the above-described conventional electronic component catalog will be described.

Similarly to the conventional case, if one electronic component that meets the needs can be selected according to a predetermined classification and search procedure, an outline drawing of the selected electronic component, for example, the rectifying diode MA337 is displayed. When requested by a command, the screen display as shown in FIG. 33 is performed. On this screen, the outline drawing E with the dimension lines of the electronic component and the component text data F having the dimension corresponding to each dimension line are combined and displayed on the screen at the same time. When the size output is selected on this display screen, the part text data B can be output to another.

In response to a land map request, a screen display as shown in FIG. 34 is performed. On this screen, the outline drawing G with the dimension line of the land and the component text data M that is the dimension corresponding to each dimension line are simultaneously displayed on the screen by combining the image data and the component text data. When the size output is selected on this display screen, the part text data H is also input.

FIG. 35 shows the taping size requirement.
The screen is displayed as shown in. On this screen, the form drawing I with the dimension line of taping and the part text data J of the dimension corresponding to the dimension line are simultaneously displayed on the screen by combining the image data and the part text data.

In response to the reel size request, a screen display as shown in FIG. 36 is performed. Reel drawing K on this screen
And the component text data L corresponding to the dimension line are simultaneously displayed on the screen by combining the image data and the component text data.

As the component text data B of the component, if the component shape, the electric capacity, the characteristic, the mounting machine characteristic, the plane gram, the alternative component, the component compatible with other companies, and the component text data of the component cost are included, the mounting data C is created. In order to determine the required minimum distance, it automatically determines whether or not there is interference between electronic components when placing electronic components on the board and the required insulation distance based on the component shape data, electric capacity, and characteristics. It is possible to set a limited arrangement interval and automatically set an optimum recommended land shape for the electronic component.

Further, by handling the characteristics of the mounting machine and the data of the plane 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 faster.

Further, by including the data of the alternative parts, the parts compatible with other companies, and the cost, the data processing can be performed so that the mounting with the lowest cost part is selected. At the same time, if the substitute parts and compatible parts of other companies have different shapes and colors from the original electronic parts, they will be recognized as error parts at the stage of mounting the parts and error processing will be performed. However, the process of rewriting the inspection data can be automatically performed.

If the component text data B includes a code indicating a geometrical feature such as the protruding state of the connecting bumps on the lower surface of the component, the mounting data creation program is used to mount the component on the board. It is possible to automatically perform the process of determining the mounting height, the pushing amount, or the pushing pressure of the.

As the part text data B of the part, the shape and size of the part, the color and color, the reflectance,
Presence / absence of lead and cut lead, polarity mark,
If the printed characters such as 1005CR, 10Ω on the part, color code, surface roughness, and surface material are included, the method of recognizing the part to be adopted when mounting the part depends on the shape and size of the part. The process of determining whether or not can be performed automatically. Specifically, large parts can be clearly recognized even with the transmissive method, so it is easy to recognize correctly, but small parts are not suitable for the transmissive method because the shadow of the nozzle is reflected and only the outer position can be recognized. In addition, small parts can be recognized not only by the 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, this does not hinder the recognition, which is preferable is there. Therefore, it is possible to determine a large electronic component as a transmissive method and a small electronic component as a reflective method so as to prevent erroneous inspection.

Further, depending on the color, the color and the reflectance, the surface roughness, and the material of the surface, it is possible to automatically perform the processing of changing the light quantity and type of the illumination light for recognizing the component. Specifically, since the mirror surface has high brightness, the reflected light cannot be clearly recognized when strong light is applied, and the weak light cannot be recognized when the surface is dark. Depending on each surface condition,
Change the optimum type and amount of light.

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. In addition, it is possible to automatically check the mounted component based on the print characters and the color code on the component and automatically perform the process of preventing the mounting of the wrong component.

When the part text data B includes a plurality of packing style data that can be adopted for the same kind of parts,
In the operation of creating the mounting data, the form and capability of the component supply mechanism can be determined by the packing style data that can be adopted for the same type of component, for example, a plurality of data such as taping, tray, and stock, and the characteristic data of the mounting machine 2. According to
It is possible to automatically perform a process of deciding to adopt a supply format that can be adopted or a supply format that further shortens the mounting tact time.

Further, the fact that each component supply cassette for each component mounted on the mounting machine 2 has a memory for managing the cassette and the component is used, and the size and color of the component are newly added to this memory. , And polarity, and a supply code such as packing style, feed pitch, and supply direction, are written to determine whether the parts match the cassette when setting the parts in the cassette. , Prevent incorrect setting. Along with this, the control means 102 of the mounting machine 2 in which the component supply cassette is mounted reads all the information of various electronic components stored in the memory 104 of each component supply cassette 14, and the component supply unit 8 Besides being able to recognize the arrangement of the parts, an arrangement library including all the read parts according to the mounting data creation program provided to the control means 102,
A parts library and a supply library are generated, and the parts can be mounted by using this. Of course, the control unit 102 can also send the read component text data B and the like to the data processing device 203 in the first embodiment and use it for creating the mounting data C.

In this way, no special data processing device or data file is needed.

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

As the part text data B, the package color code, the part shape, the recommended land shape of the part,
It includes the surface material of the part, the reflectivity of the surface (if the reflectivity differs between parts such as both ends and the center of the part, the reflectivity of each part), polarity mark, printed characters on the part surface, color code, etc. 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 creating the mounting data,
There is no need to select and configure electronic components that meet your needs.
The types of components and inspection data for each type are obtained by simulating component mounting data.

Further, when the part text data B includes the part shape, in particular, the size of length, width, height, and lead information, the lead data in the appearance inspection is automatically set in the inspection program based on these. be able to.

When the component text data B includes temperature characteristics of all electronic components to be mounted on the same board, the component mounting data generation program sets the temperature condition for mounting the electronic components to be mounted on the board. The processing can be done automatically. Specifically, when electronic components are mounted on both sides of the board, the first surface to be mounted first is set to have an electronic component having higher heat resistance than the second surface to be mounted later.

As a result, an electronic component having a high heat resistance mounted on the first surface of the substrate 1 is bonded using reflow solder having a high melting point, and an electronic component having a low heat resistance mounted on the second surface has a low melting point. When the reflow solder is used for the bodging, the electronic component previously mounted on the first surface is melted when the electronic component is mounted on the second surface and the reflow soldering is performed, and the mounted electronic component is dropped. 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 second surface. Further, by utilizing these temperature characteristic data, a condition program for setting an optimum temperature profile of the reflow soldering apparatus can be automatically created by the data creation processing means 202, and is specially created on the reflow soldering apparatus side. There is no need for labor and it is possible to avoid the occurrence of errors due to the creation of separate data.

As the part text data of the part,
By including the necessity data of burning and refrigeration depending on whether it is a moisture absorbing component or the like, it is possible to automatically perform a process of generating the handling condition of the component when mounting the component together with the mounting data.

Further, in order to write various information into the memory 104 or the like by using the reading / writing means 105 or to update the written contents, the control means 102 uses the number of used parts and the remaining amount of the parts mounted by the mounting machine 2, Manages various mounted component information related to mounted components such as the quality of the component, the component holding ratio by the chuck or the suction nozzle to the total number of supplied components, and the component mounting information related to component mounting such as the mounting ratio to the board. However, when the component supply cassettes 14 are collectively removed, the reading / writing means 105 is operated prior to this removal to write the mounted component information or the component mounting information in the storage means or update the written contents. You can also

As described above, the control means 102 controls various mounted component information regarding the mounted components such as the number of used components mounted by the mounting machine, the remaining amount, and the quality of the components, and the chuck for the total number of the components supplied. The component mounting information relating to component mounting such as the component holding rate by the suction nozzle and the board mounting rate is managed, and at the time of batch removal of the component supply cassette 14, the reading / writing means 105 prior to this removal.
To write the mounting component information or component mounting information to the storage means or update the written contents, various components related to the components to be mounted, such as the number of used components to be mounted, the remaining number, and the quality. It is possible to store various information related to component mounting such as information, rate of holding components by chuck or suction nozzle with respect to the total number of delivered components, and mounting rate to the board, to the detached component supply cassette. Refer to it when mounting the product, and use it to judge that there is a difference between the component catalog data and the component's actual dimensions, so that more appropriate components can be supplied or the mounting conditions are corrected or changed. This is convenient for comprehensive management of components to be mounted and their mounting states, and various actions based on the components to be properly mounted.

In such data management, if the component supply cassettes 14 are individually attached and detached, a memory 104 can be provided in each of the component supply cassettes 14 to manage them individually.

(Second Embodiment) In the second embodiment, the transfer table 15 shown in the first embodiment is electrically or electrically used as shown in FIG. 37 (a) which is conventionally used. Optical or other readable and writable memory 2
21 shows a case where the component supply cassette 14 to which 21 is fixedly attached is equipped and used.

FIG. 37 (b) shows a flow chart of component discrimination in such a case.

The positioning of the memory 221 of the target component supply cassette 14 in step # 12a is the only difference from the positioning of the memory of the transfer table 15 in step # 12 of the first embodiment.

The second embodiment has the advantage that the conventional component supply cassette with memory 14 can be used as it is.
To use this, batch transfer of parts by the transfer table 15
Since a collective setting of the memories 221 is achieved along with this, it is more convenient than using the conventional component-equipped component supply cassette 14 with a memory. However, it goes without saying that the component supply cassette 14 may be applied to a mounting machine in which the component supply cassette 14 is individually attached and detached.

(Third Embodiment) The third embodiment is shown in FIG.
Storage part information 231 that can be detached as shown in FIG.
Can also be mounted on the component supply cassette 14 for use. With this configuration, every time an electronic component is stored in the component supply cassette 14, the storage component information 231 corresponding to the electronic component is attached to the component supply cassette 14 so that the mounting machine or the like can read the component information. You can Moreover, such a detachable type requires only one type of storage component information to be carried in one storage component information, so that a simple component information display format can be adopted and the cost is low. In the third embodiment, the barcode 231
a is a storage component carrier 231b made of a bifurcated spring member
The storage part information 231 is formed by being displayed on the top surface of the. The display of the barcode 231a may be directly printed or a printed sheet may be attached. The storage part information 231 is attached such that the forked part of the carrier 231b sandwiches the upper side of the part feeding part 14a of the part supply cassette 14. The attachment method for attaching and detaching is arbitrary.

FIG. 38B shows storage part information 231 in which a bar code 231a is displayed using a resin case 231c detachably attached to the fixed lever 17a of the part supply cassette 14 as a carrier, and FIG. In addition to exhibiting the same effect as that shown in a), there is an advantage that a special carrier for the storage part information 231 is not necessary.

(Fourth Embodiment) The fourth embodiment is shown in FIG.
As shown in FIG. 9, the storage medium carrying the stored component information of each component supply cassette 14 is the optical memory 241 which can be read by infrared communication, and the optical memory 241 of each component supply cassette 14 mounted on the mounting machine is stored. Since the stored contents can be sequentially read by the infrared communication means 242 located at one place, either the infrared communication means 242 or each of the parts supply cassettes 14 can be used to read the stored parts information held by each parts supply cassette 14. Since it does not need to be moved, the reading can be performed in a short time and the production efficiency is improved.

Reference Example This reference example is an example of component management when electronic components are housed in the tray 251 and supplied to the mounting machine as shown in FIGS. 40 (a) and 40 (b). Shows. 40A shows a tray plate 253 that individually holds the trays 251 of the tray rack 252 so that the trays 251 can be taken in and out in multiple stages, and information about the components stored in the trays 251 supported by the tray plates 253 can be stored electrically or optically. Reading and writing means 255
A memory 254 which is read and written by the above is provided. As a result, the tray 25 for supplying components to the mounting machine is provided.
To select 1, the information stored in memory 254 is
The tray 25 that needs to be read by the read / write means 255
It is possible to determine whether it is 1. Further, in the state where the tray rack 252 is mounted on the component supply unit of the mounting machine for component supply, the mounting history of the components accommodated in each tray 251 is the same as that described in the first embodiment. It can be stored in 254 and used for various kinds of management. FIG. 40B shows a memory 26 that stores information of each electronic component accommodated in each tray 251 accommodated in the tray rack 252 so that the information can be collectively read and written.
1 is provided, and the management of the storage components of each tray 251 accommodated in the tray rack 252 can be collectively performed.

However, the memory 254 provided in each tray 251 and the memory 261 provided in the tray rack 252 can be used together. This can be similarly applied to the relationship between the component supply cassette 14 and the transfer table 15 described in the first embodiment.

[0160]

According to the component mounting apparatus of the first invention and the second invention of the present application, the stored component information held by each component supply cassette mounted on the mounting machine is automatically read by the reading means, Since the control means automatically determines whether the conditions on the parts side such as the parts and arrangement supplied by the parts supply cassette match the conditions of the parts set in the mounting data, it is possible to prevent incorrect mounting of parts. Even if there is, the mounting machine will continue to operate and problems will occur, time and mounting operation will be wasted, or the manufactured electronic circuit board will be defective and will be repaired or disposed of. It is possible to prevent the occurrence of such problems, and since a predetermined number of component supply cassettes can be collectively attached and detached in a predetermined number, it is convenient for component replacement and replenishment.
It takes less time to replace the supply parts, and productivity can be improved. Also, the attachment / detachment of the transfer table is detected by the detection means.
Based on this detection, the control means replaces the component supply cassette.
If it has been replaced, it will be replaced.
Information stored in the parts supply cassette
While the product was replaced incorrectly, the mounting machine operated and traversed.
To prevent problems and waste of time and mounting operation.
You can

In particular, according to the first invention of the present application, by storing the storage component information of each component supply cassette received on the transfer table in the memory provided on this transfer table, each component supply can be performed. Since the information about the stored parts of the cassette can be read at a single location, the reading does not take time and the productivity is improved.

[0162]

[0163]

[0164] In the second invention, when the housing part information of the component supply cassette is in a bar code, each for housing a component in the component supply cassette, by providing a bar code corresponding to the component on the component supply cassettes, It is possible to easily store the proper storage component information in the component supply cassette without requiring a special device.

[0165] In the second invention, when the housing part information of the component supply cassettes are those stored in the storage medium can be read and written, even if switched is part for accommodating the component supply cassette, housing stored in a storage medium It is convenient to rewrite the component information so as to correspond to the switched component, and it is convenient because it is not necessary to replace the means for carrying the stored component information.

[0166] In the second invention, when the storage medium is a Daseru memory read by an infrared communication, the stored contents of the optical memory in which each component supply cassette loaded in the mounting apparatus has, located in one place Infrared It can be sequentially read by the communication means, and neither the reading means nor each component supply cassette needs to be moved to read the stored component information held by each component supply cassette, and reading can be performed in a short time. It is possible to improve the production efficiency.

[0167] In the second invention, when the housing parts information is carried on the carrier that can be detachable from the component supply cassettes, and various supplemental components, various carrier carrying an accommodating component information corresponding to these Each time a component is stored in a component supply cassette in advance, a carrier carrying the corresponding component information is attached to the component supply cassette, so that changes in stored components can be handled easily and without error. You can

In the second invention, when the storage medium is provided with a writing means for writing various information or updating the written contents, it is said that the control means indicates the number of used parts, the remaining number, and the quality. It also manages various parts information related to the parts to be mounted, the holding ratio of the parts by the chuck or the suction nozzle to the total number of supplied parts, and the mounting information on the parts such as the mounting ratio to the board. The component supply cassette to be removed can be provided with these pieces of information, which can be used as a reference when mounting the next component, and used to judge that there is a difference between the component catalog data and the actual component size. , So that more appropriate parts can be supplied, and the mounting conditions can be corrected or changed so that they can be mounted more appropriately. And comprehensive management of instrumentation state,
It is convenient for various measures based on this.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram showing a component mounting apparatus according to a first embodiment of the present invention.

FIG. 2 is a perspective view showing a schematic configuration of a mounting machine of the apparatus shown in FIG.

FIG. 3 is a perspective view showing a transfer stand unit that selectively supplies components of two component supply units included in the mounting machine of FIG.

FIG. 4 is a detailed perspective view of the transfer stand unit of FIG.

5 is a detailed plan view of the transfer stand of FIG. 3. FIG.

6 is a cross-sectional view showing an operation sequence of positioning and releasing of the transfer table on the transfer stand of FIG.

FIG. 7 is a perspective view of the carriage of FIG. 2 and a transfer table supported on the carriage.

FIG. 8 is a rear view of the carriage and the transfer table of FIG.

9 is a cross-sectional view showing a state where the transfer table of FIG. 8 is supported by a carriage.

10 is a cross-sectional view showing a state where the transfer table of the cart of FIG. 8 is supported.

FIG. 11 is a rear view showing a state in which the transfer table is mounted and positioned on the component supply unit.

FIG. 12 is a side view showing a work step of mounting the component supply cassette on an empty transfer table.

FIG. 13 is a side view showing a work step of preparing an empty trolley for taking out a cassette when the out-of-stock component supply cassette of the component supply unit is replaced.

14A and 14B are a side view and an explanatory view showing a work stage of height adjustment of the transfer table support part in the carriage aligned from the state of FIG. 13 and a detection state of the height detection means at this stage.

FIG. 15 is a side view of a work stage of taking out an empty component supply cassette of the component supply unit by the carriage after height adjustment in FIG. 14;

FIG. 16 is a side view showing a state of position holding work showing a work stage of holding an empty component supply cassette when it is taken out to a predetermined position.

FIG. 17 is a side view showing a work stage in which the transfer table is held in a position and carried by a carriage.

FIG. 18 is a side view showing a work stage in which a transfer table equipped with a new component supply cassette is carried to a component supply unit by a cart and positioned.

FIG. 19 is a side view showing a work step of adjusting the height of a transfer table equipped with a new component supply cassette on the carriage with respect to the component supply unit.

FIG. 20 is a side view of a work stage in which the height-adjusted transfer table is sent from above the cart to above the component supply unit.

FIG. 21 is a side view showing a work stage in which the carriage is moved to a predetermined position after the transfer table has been sent to the component supply unit.

FIG. 22 is a diagram showing a main flow of component determination.

23 is a flowchart of a component suitability determination subroutine of FIG.

FIG. 24 is a diagram illustrating an example of component mounting position data.

FIG. 25 is a diagram showing an example of part text data.

FIG. 26 is a diagram showing an example of an NC program which is a part of component mounting data.

FIG. 27 is a diagram showing an example of a component library which is a part of component mounting data.

FIG. 28 is a diagram showing an example of an array program which is a part of a supply library which is a part of component mounting data.

FIG. 29 is a diagram showing an example of a supply position library which is a part of a supply library which is a part of component mounting data.

FIG. 30 is a schematic diagram showing an example of stored contents of a parts electronic catalog.

FIG. 31 is a schematic diagram showing an example of stored contents of a storage medium that stores a program for creating component mounting data using a component electronic catalog.

FIG. 32 is a diagram showing an example of an operation screen regarding automatic generation of a parts library.

FIG. 33 is a diagram showing a display screen of an outline drawing when a storage medium storing component text data and component image data is used as an electronic component catalog.

FIG. 34 is a diagram showing a display screen of a land diagram when a storage medium storing component text data and component image data is used as an electronic component catalog.

FIG. 35 is a diagram showing a display screen of taping dimensions when a storage medium storing component text data and component image data is used as an electronic component catalog.

FIG. 36 is a diagram showing a display screen of reel dimensions when a storage medium storing component text data and component image data is used as an electronic component catalog.

FIG. 37 is a side view of a component supply cassette with a stored component information memory according to the second embodiment of the present invention and a flowchart of a component suitability determination subroutine using the stored component information.

FIG. 38 is a side view of the component supply cassette having detachable storage component information according to the third embodiment of the present invention.

FIG. 39 is a rear view schematically showing the component supply cassette with the optical memory and the infrared reading means according to the fourth embodiment of the present invention.

FIG. 40 is a perspective view showing two management states of components when the components are supplied by the trays accommodated in the tray rack according to the reference example of the present invention.

FIG. 41 is a schematic diagram showing an example of stored contents of a conventional parts electronic catalog.

FIG. 42 is a flowchart showing a conventional mounting data creation method.

FIG. 43 is a diagram showing a screen in the middle of searching electronic components that meet needs according to the flowchart of FIG. 42, based on the large classification and the small classification.

FIG. 44 is a diagram showing an initial explanation screen of one transistor selected on the screen of FIG. 43.

45 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. 43 of the transistor displayed in FIG. 43.

FIG. 46 is a diagram showing a display screen relating to the outer shape of the transistor selected on the screen of FIG. 43.

47 is a diagram showing a display screen relating to the land of the transistor selected on the screen of FIG. 43. FIG.

48 is a diagram showing a display screen regarding taping dimensions of the transistor selected on the screen of FIG. 43. FIG.

49 is a diagram showing a display screen relating to the reel size of the transistor selected on the screen of FIG. 43. FIG.

FIG. 50 is a diagram showing a display screen in which data related to a characteristic curve is displayed in a window in accordance with selection of a characteristic curve on an initial explanation screen when searching for a motor control circuit which is another electronic component.

FIG. 51 is a diagram showing a display screen in which the application circuit example is preferentially selected and displayed in a window on the initial explanation screen of FIG. 32, and further, a block diagram is selected and displayed in a window.

[Explanation of symbols]

1 substrate 2 mounting machine 8 parts supply department 14 parts supply cassette 15 Transfer table 101 Micro switch (detection means) 102 control means 104, 221, 254, 261 memory 105, 255 read / write means 231 Storage parts information 231a barcode 231b carrier 231c resin case 241 optical memory 242 infrared communication means

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Nobuyuki Nakamura No. 1006 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (56) References JP-A-4-283035 (JP, A) JP-A-2- 202100 (JP, A) JP 3-217086 (JP, A) JP 3-152099 (JP, A) JP 8-83995 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H05K 13/02

Claims (10)

(57) [Claims] 1. A mounting apparatus for a component, which mounts the supplied component at a mounting position on a board, the mounter being controlled by a control unit to receive the supply of each component, and a predetermined number of component supply cassettes. Equipped and detachable from mounting machine
And a transfer table for collectively exchanging parts, and each part provided on the transfer table and received by the transfer table.
A memo that stores the storage part information about the product supply cassette
And the component supply cassette installed in the mounting machine from the memory.
And a detection means for detecting attachment / detachment of the transfer table. The control means detects the attachment / detachment of the transfer table by the detection means.
When it is judged that the parts have been replaced,
Storage parts information of the parts supply cassette that has been replaced
The component mounting device that makes the components read and determines the suitability of the component based on this . 2. The transfer table is transferred between the mounting machine and the carriage.
The component mounting apparatus according to claim 1. 3. The control means, by selecting an operation mode,
Whether all the component supply cassettes in the batch replacement unit that have been replaced are appropriate or not
Automatically indicate whether to determine the suitability of parts related to the cassette.
The component mounting apparatus according to claim 1 or 2, which is defined. 4. The control means reads out by the reading means.
Parts information and a list of preset required parts
Check whether the parts to be collectively replaced are correct or not by checking
The method according to any one of claims 1 to 3 for determining
Mounting device for parts. 5. The mounting machine is controlled in operation by the control means.
Receiving the supplied components, place the supplied components on the board mounting position.
A mounting device for mounting components, which is a component supply cassette holding a predetermined number of stored component information.
A transfer table that can be handled as a group and a mounting component that is provided on the mounting machine and that stores the component supply cassettes.
It has a reading means for reading information and a detection means for detecting the attachment / detachment of the transfer table, and the control means detects the attachment / detachment of the transfer table by the detection means.
When it is judged that the parts have been replaced,
Storage parts information of the parts supply cassette that has been replaced
A component mounting device that reads out the information and determines the suitability of the component based on this . 6. A bar is stored in the component supply cassette as information on the stored components.
The component mounting apparatus according to claim 5, which is a code . 7. The information of stored parts in the parts supply cassette is read.
The component mounting apparatus according to claim 5 , which is stored in a writable storage medium . 8. The storage medium can be read by infrared communication.
The component mounting apparatus according to claim 7 , which is an optical memory . 9. The component mounting apparatus according to claim 5 , wherein the stored component information is carried by a carrier that can be attached to and detached from the component supply cassette. 10. A mounting means for writing various kinds of information to a storage medium or updating writing contents, wherein the control means mounts the number of used parts mounted on the mounting machine, the remaining amount, and the quality of the parts. It manages various mounted component information related to components, component holding information such as component holding ratio by chuck or suction nozzle to the total number of supplied components, and mounting ratio to the board, and when the component supply cassette is removed. in, and exert a writing means before the removal, writes the mount component information and component mounting information into the storage unit, or or claim 7 updates the contents written
Alternatively, the component mounting apparatus according to claim 8 .